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REDA Electric Submersible Pump Technology ESP Catalog Introduction Getting started 1. For optimal viewing of this catalog, it is recommended that you install the latest version of Adobe® Acrobat® Reader ® software. The necessary files have been provided on this CD for immediate installation. If you need Reader for an operating system other than the ones provided, click here to download the appropriate version. Type Control + k for the options page. 2. By default, Reader opens and views linked PDF documents in one window to minimize the number of windows open. However, this option may make navigation in this catalog more difficult. To have a linked document open in a separate window—leaving the catalog menu active—uncheck the Open cross-document links in same window option in the General section of your Reader Preferences. Note: To override this setting without changing your preferences, you can press Ctrl (in Microsoft® Windows®) or Option (in Mac OS®) when selecting a link. 3. To have this interactive catalog on your hard drive, copy the entire contents of this CD into a single folder. Please note that all of the files on this CD must be in the same folder for proper navigation.
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© 2007 Schlumberger. All rights reserved. *Mark of Schlumberger Other company, product, and service names are the properties of their respective owners.
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REDA Electric Submersible Pump Technology ESP Catalog Contents
QHSE Application Engineering Optimization Services Advanced Applications Downhole Monitoring ESP Components Surface Power and Control
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REDA Electric Submersible Pump Technology ESP Catalog Application Engineering
Application Engineering ESP system components Basic equipment selection Effect of VSD on the ESP system DesignPro* ESP Software ESP Design Data Sheet
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REDA Electric Submersible Pump Technology ESP Catalog Optimization Services
Axia* Lifting Service espWatcher* Surveillance and Control System LiftPro* Service Power Systems Analysis
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REDA Electric Submersible Pump Technology ESP Catalog Advanced Applications
REDA* Hotline* High-Temperature ESP Systems Poseidon™ Multiphase Gas-Handling System Catalyst* Advanced ESP Completions RedaCoil* Coiled Tubing-Deployed ESP Systems
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REDA Electric Submersible Pump Technology ESP Catalog Downhole Monitoring
Phoenix* Select* Downhole Monitoring Gauges Phoenix Multisensor* XT Downhole Monitoring Gauges Product Tables
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REDA Electric Submersible Pump Technology ESP Catalog ESP Components
Pumps Pump Intakes Protectors Motors Maximus* Components Power Cable
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REDA Electric Submersible Pump Technology ESP Catalog Pumps Summary Table Pump Nomenclature Bolt-On Pump Discharge Heads 338 Series AN550 AN900 AN1200 AN1500 A2700N 387 Series D3050N D3400N D5850N 400 Series D475N D725N DN1100 D1400N DN1750 DN1800 DN2150 D2400N DN3000 DN3100 D4300N D5800N 540 Series GN1600 GN2100 GN3200 GN4000 GN5200 G6200N GN7000 GN10000 continued
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REDA Electric Submersible Pump Technology ESP Catalog Pumps, continued 538 Series 562 Series 675 Series 725 Series 862 Series 950 Series 1000 Series 1125 Series
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SN2600 SN3600 S5000N S6000N SN8500 S8900N HN13500 HN15000 H15500N H21500N H28000N J7000N J12000N JN16000 JN21000 L16000N L43000N M520A M520B M520C M675A M675B M675C N1050A N1050B N1400A N1400B P2500A
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REDA Electric Submersible Pump Technology ESP Catalog Pump Intakes
Standard Intakes Vortex Gas Separators Advanced Gas Handler Poseidon* Product Tables
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REDA Electric Submersible Pump Technology ESP Catalog Protectors
Elastomer Application Guidelines Modular Protector Nomenclature Advanced Motor Protector Modular Protector Configurations and Product Tables
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REDA Electric Submersible Pump Technology ESP Catalog Motors REDA ESP Motors Dominator* Motors Product Tables Bolt-On Motor Bases 375 Series Motors 456 Dominator Motors 540 Series Motors 562 Dominator Motors 738 Dominator Motors
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Maximus Promotor
REDA Electric Submersible Pump Technology ESP Catalog Maximus Components
Motors ProMotors Protectors Motorlead Extensions
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REDA Electric Submersible Pump Technology ESP Catalog Power Cable REDA ESP Power Cable Modular cable nomenclature Cable Types Polyethylene Redalene* Cable Redahot* Cable Redablack* Cable Redalead* Cable RedaCDC* Cable
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RedaValu* Cable RedaSurface* Cable RedaTube* Cable Technology Motorlead Extensions Lasalle Cable Protectors Product Tables Power Cable Motorlead Extensions Maximus Motorlead Extensions
REDA Electric Submersible Pump Technology ESP Catalog Surface Power and Control
Fixed Speed Drives FixStar* Fixed Speed Drive Product Tables Variable Speed Drives SpeedStar* Low-Voltage VSDs SpeedStar MVD* Variable Speed Drive Product Tables
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Motor Controllers UniConn* Universal Site Controller StarView* Wellsite Display Software Product Tables Power and Control Accessories StarShield* TVSS Power Distribution and Control Skids Product Tables
REDA Electric Submersible Pump Technology ESP Catalog
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© 2005, 2007 Schlumberger. All rights reserved. Schlumberger 225 Schlumberger Drive Sugar Land, Texas 77478 No part of this book may be reproduced, stored in a retrieval system, or transcribed in any form or by any means, electronic or mechanical, including photocopying and recording, without the prior written permission of the publisher. While the information presented herein is believed to be accurate, it is provided “as is” without express or implied warranty. 05-AL-107 An asterisk (*) is used throughout this document to denote a mark of Schlumberger.
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Quality, Health, Safety, and Environment To ensure that quality, health, safety (including security), and environmental (QHSE) considerations remain a top priority, Schlumberger has adopted the QHSE Management System. We are committed to proactively integrating the following QHSE objectives into Schlumberger operations worldwide: ■ Ensure the quality of our products and services. ■ Protect the health, safety, and property of our employees, clients, contractors, and third parties. ■ Protect the environment in the communities where we work and live.
QHSE Management System The QHSE Management System defines the Schlumberger operating principles with regard to product and service quality, protection of health and safety, and protection of the environment. As an integral part of their everyday work, all Schlumberger employees share and practice the QHSE principles. A foundation of the QHSE system is the belief that all losses of people, property, and process are preventable. By applying QHSE principles, we strive to attain a zero-defect culture that eliminates all accidents, process losses, harmful emissions, healthrelated incidents, and security lapses.
QHSE Quality, Health, Safety, and Environment
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The QHSE Management System includes eight interrelated components, monitored to ensure day-to-day conformance with standards, corrected when necessary, and continuously improved: ■ commitment and leadership— strong, visible management commitment, leadership, and personal involvement in QHSE, including provision of necessary resources ■ policies and objectives—defined standards and QHSE performance targets for all levels of the organization ■ organization and resources— organizational structure and necessary resources for achieving QHSE objectives ■ contractor and supplier management—mechanisms to ensure that products and services provided by suppliers and contractors meet applicable QHSE standards
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risk management—continual evaluation process to identify hazards, assess risks, and determine appropriate means of prevention and mitigation design and planning—application of QHSE principles to the design, development, and delivery of Schlumberger Oilfield Services products and services implementation and monitoring— mechanisms to ensure activities conform to defined standards and to promote continuous improvement assessment and continuous improvement—audits and reviews to verify the effectiveness of the QHSE Management System.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
In particular, our Electrical Certification Policy is intended to provide guidance on the safe installation, maintenance, and operation of REDA* ESP technology utilized by Schlumberger at client locations. All electrical equipment must be regarded as being capable of giving rise to danger. Measures must be taken to ensure the safety of personnel and the continued operability of the equipment. Precautions must be taken during ESP installations to eliminate the possibility of fire or explosion from ignition of flammable gas, liquid, or vapor by electrical causes. Work involving the approach to, or touching of, electrical equipment is potentially dangerous at all times. Work should not be carried out unless the proper precautions have been taken to ensure that electrical equipment is dead, made safe, and cannot be made live while work is in progress.
ESP Catalog
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Application Engineering
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Application Engineering REDA ESP system components The REDA* ESP system includes the following components: ■ wellhead assembly ■ power cable ■ discharge head ■ pump ■ intakes and gas devices ■ protector ■ motor ■ Phoenix* sensors. The REDA ESP surface equipment consists of ■ fixed speed drive (FSD) or variable speed drive (VSD) ■ step-up transformer ■ junction box and surface pigtail ■ transient voltage surge suppressor.
Wellhead assembly The wellhead assembly, which allows the tubing and power cable to pass through the well to the surface, includes the following items: ■ feed-through mandrel for power cable ■ lower connector on the main cable, either field installed or preassembled at a Schlumberger service facility.
The cable is banded or clamped to both the production tubing and the ESP components to support the weight of the cable. Cable clamp protectors are used in deviated wells or in wells with tight equipment clearances.
Discharge head The discharge head is the connection between the pump and the production tubing. It bolts to the pump and is threaded to the tubing.
Wellhead assembly Step-up transformer VSD or FSD surface control systems
Power cable
Pump The pump adds lift to the wellbore fluid by converting kinetic energy from the rotation of pump impellers to potential energy in the form of hydraulic head. Pumps are available in a wide range of sizes and configurations.
Discharge head
Pump
Intakes and gas devices The wellbore fluid enters the pump through the intake section. To help reduce the negative effects of gas on the pump performance, Schlumberger offers various gas separators and gas-handling devices, in addition to standard intakes. By using the Poseidon™ multiphase gas-handling system, REDA ESPs are able to operate in conditions up to 75% free gas at the pump intake.
Intake or gas separator
Protector
Motor lead extension
Power cable The power cable, which supplies electricity to the ESP motor, is available in various configurations, both flat and round profiles, to match the cable to specific wellbore conditions. Cables are available in 6, 4, 2, 1, and 1/0 American Wire Gauge (AWG) sizes.
Motor
Phoenix* sensor
Application Engineering
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Protector
Phoenix sensors
Step-up transformer
The Modular Protector provides the ultimate protection available for keeping well fluids from entering the motor. It also serves as a motor oil reservoir, provides pressure equalization between the motor and the wellbore, and carries the thrust load of the pump. Two styles of protector sections are available: ■ Labyrinth-type sections use the difference in specific gravity between the wellbore and motor fluids to keep the two separated. ■ Bag-type sections use an elastomer bag to isolate the two fluids.
Phoenix* artificial lift monitoring systems enable advanced monitoring and control of the ESP performance. The Phoenix Select* and MultiSensor* XT monitoring systems offer a broad range of accurate and reliable downhole measurements. Either system monitors ESP and well performance for real-time monitoring; in-depth analysis; and diagnostics to extend pump run life, improve production, and reduce total lift system costs.
Most REDA ESP motors require voltages higher than the nominal power grid voltage of 460 V (60 Hz) or 380 V (50 Hz) for operation. The reason is that cable power losses along the length of the cable are lower for higher voltages. Higher voltages allow for using smaller-gauge power cable and loweramperage electrical components. Stepup transformers are offered in ranges from 600 V to 4,850 V.
FSDs or VSDs
Junction box and surface pigtail
The FixStar* FSD connects utility power to the REDA ESP. The UniConn* universal site controller integrates with the switchboard and offers motor protection along with data display and download capabilities. SpeedStar* VSDs offer greater flexibility than a switchboard to operate REDA ESPs. Instead of operating the ESP at a constant 50 or 60 Hz, the ESP can operate at speeds greater or less than the grid power frequency. Changing the operating speed of the ESP can optimize the equipment performance and well productivity during the life of the well.
The junction box is required for all ESP installations. If gas from the wellbore should migrate up the power cable to the surface, the junction box allows this gas to escape to the atmosphere, away from confined spaces. The surface pigtail is the connection between the feed-through mandrel and the junction box.
Motor An electric motor provides rotational energy to the pump section. REDA ESP motors are three-phase, two-pole, squirrel-cage induction-type motors. The motor is filled with a highly refined mineral oil to provide dielectric strength, lubrication, and thermal conductivity. As with pumps, various sizes of motors are available.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Poseidon™ is a trademark of Institut Français du Pétrole (IFP), Total, and Statoil; technology licensed to Schlumberger.
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Transient voltage surge suppressor The transient voltage surge suppressor is a proven device that will protect electrical equipment against power system surges and lightning strikes. It should be an essential component of any REDA ESP system.
ESP Catalog
Basic equipment selection Selecting the correct REDA ESP system for each application is important to delivering the most efficient and reliable operation. DesignPro* ESP design software provides an accurate and comprehensive evaluation of the ESP system. As with any software application, the accuracy of the results depends on the input data quality. Complete, accurate well data should be carefully evaluated to engineer the most economical and efficient installation. The following guide and checklist will aid in ESP system design. The well data sheets at the end of this section can be used to collect the design information required by a Schlumberger application engineer.
Well data ■
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Physical description ● Casing size and weight ● Tubing size, type, and thread ● Equipment setting depth (measured and vertical) ● Depth of perforations (measured and vertical) ● Restrictions ● Unusual mechanical conditions Production data ● Static fluid level or static bottomhole pressure ● Pumping fluid level or flowing bottomhole pressure ● Present producing rate ● Bottomhole temperature ● Gas/oil ratio ● Water/oil ratio ● Tubing head pressure Well fluid data ● API gravity of oil ● Specific gravity of water Power supply ● Surface voltage, phase, and frequency ● Line capacity
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Unusual conditions Abrasives ● Corrosion ● Paraffin ● Emulsion ● Scale-forming tendencies Performance monitoring ● Communication protocol ● Data management ● Monitoring and surveillance needs ●
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Well production capacity Accurate determination of a well’s productivity is a major factor in properly selecting the REDA ESP system. The data required are an accurate static reservoir pressure; a producing bottomhole pressure; and accurate oil, water, and gas production rates. Liquid-level data can sometimes be used as a substitute for static and producing bottomhole pressures. In wells with low oil cuts and little or no gas, fluid levels are often acceptable. In many cases, pressure data inferred from liquid data can be questionable due to foaming and a tendency for the oil to replace the water. Most oil and many water wells will not exhibit a true straight line productivity index (PI) relationship due to gas interference and turbulence in the wellbore. Over moderate drawdowns, the PI calculation yielding capacity in B/D/psi [m3/d/kPa] drawdown produces a reasonable approximation of capacity. The recommended Vogel technique yields an inflow performance relationship capacity that is corrected for wellbore interference and gives a better indication of producing potential, especially at very high drawdowns. In high-rate oil wells, those producing with high gas/liquid ratios or with unusual fluid viscosities, the PI calculation will deviate from the previously described procedure. In these wells, the calculations are a function of the pressure-volume-temperature and viscosity data for the particular reservoir fluid to be produced.
Application Engineering
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In these more complex applications, equipment selection calculations are more easily handled by the DesignPro software.
Total dynamic head To determine the number of stages required in the pump, the total dynamic head (TDH) must be determined for a projected rate. The TDH is the sum of ■ distance of vertical lift from the surface to the pumping fluid level ■ friction loss in the tubing ■ tubing discharge pressure at the wellhead.
Pump selection Selection of the pump is based on the estimated pumping rate, TDH, well conditions, and casing size limitations. The most economical choice is usually the largest series (diameter) that the casing will permit. Pump performance curves define optimum operating limits for various motor and pump sizes. The desired capacity should be within the optimum limits of the pump performance curves and nearest the peak efficiency of the pump selected.
Pump size To determine the number of stages for the desired capacity, refer to the head capacity curve (shown on the pump performance curves) for the selected pump type. These curves are based on the performance of one stage in fresh water. The number of stages required is calculated by dividing the TDH by the head per stage from the head capacity curve for the type of pump selected.
Motor selection Motors are available in a broad range of voltage ratings to provide the greatest versatility of switchboard and cable selection options. Setting depth is a determining factor in motor voltage selection due to the voltage loss at a particular amperage and cable type.
Motor voltage selection must take into account voltage loss in the cable. Voltage loss is proportional to cable length and is a function of cable type and amperage. In deeper wells, a higher voltage motor should be considered because it requires smaller-gauge cable than lowervoltage motors.
Motor size The motor horsepower requirement is calculated by multiplying the horsepower per stage from the pump curve by the number of pump stages and correcting for the specific gravity of the well fluid.
Protector seals
FSDs
There are two styles of protector seals available: bag and labyrinth. The patented Modular Protector seals combine these seal types in configurations of up to four chambers. The motor horsepower, downhole temperature, and thrust bearing capacity should be taken into consideration when selecting a protector. Additional protector information is shown on the charts in the protector section of this catalog.
FSDs, commonly known as switchboards, are available for voltages from 480 through 4,800 V. Selection is based on voltage, amperage, and horsepower ratings, in addition to future requirements.
Cable Schlumberger manufactures REDA ESP power cable in flat and round configurations from 1/0 AWG through 6 AWG. The optimum cable size is governed by the amperage, voltage drop, and space available between the tubing collar and the casing. The best cable type is based on the bottomhole temperature and fluids that will be encountered in the wellbore.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Transformers Where the voltage of the primary system is not compatible with the required surface voltage, a transformer will be required. Step-up transformers are available to increase a 480-V line voltage to voltages of up to 5 kV. Three-phase transformers are available in many common primary and secondary voltage ranges.
ESP Catalog
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Effect of VSD on the ESP system
Pump shaft performance
Motor performance
VSDs control the speed of pump operation. The effect of a VSD change on pump performance can be calculated from the pump affinity laws for speed. The laws state ■ capacity or flow varies directly with the speed ■ head varies with the square of speed ■ horsepower required by the pump varies with the cube of speed. The affinity laws for speed can also be expressed in their respective equation forms:
The shaft’s ability to transmit torque does not vary with speed. The power delivered at any particular torque is directly proportional to speed; therefore, the shaft horsepower rating varies directly with speed. In equation form, this is expressed as
The best motor performance results when the motor voltage varies directly proportional to frequency. The result is a motor with the following ratings: ■ horsepower rating varies directly with frequency ■ speed varies directly with frequency ■ voltage rating varies directly with frequency ■ current rating does not vary with frequency. Internal temperature limits do not vary with frequency. At high speeds in hot wells, the temperature limits may override the horsepower and current ratings.
Q2 N 2 , = Q1 N1 2
H2 ⎛ N 2 ⎞ , = H1 ⎜⎝ N1 ⎟⎠ and 3
P2 ⎛ N 2 ⎞ = , P1 ⎜⎝ N1 ⎟⎠ where Q = flow, H = head, P = power, and N = speed. To completely evaluate the effect of the VSD change on the pump, the pump affinity laws would have to be calculated for a number of points on the pump curve and then plotted.
SHP2 N 2 = , SHP1 N1 where SHP = shaft horsepower rating. Because the power required by the pump increases more than the shaft horsepower rating does with a speed increase, shaft loading should always be determined for the maximum frequency of operation.
Protector thrust bearing load and performance The thrust load varies approximately as the square of speed. Forces that do not vary with speed are negligible. Speed changes have a complex effect on thrust bearing performance. Depending on the bearing type and the temperature, a speed increase can increase, decrease, or have no change on the bearing rating. Consult the graphs in the protector section of this catalog to determine thrust bearing performance.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Application Engineering
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DesignPro ESP Software DesignPro* ESP design and analysis software is a sophisticated software package for sizing and analyzing an entire ESP system. Designed to be intuitive with a highly logical workflow, the software is extremely user friendly. In addition, it has some of the most advanced models in the software engine to accurately predict the performance of each ESP component. The DesignPro software was developed with the assistance and close cooperation of REDA ESP domain experts. The software contains an intuitive workflow to navigate through the application design in a logical and concise manner. Modules define the wellbore schematic and accurately size all the downhole and surface components. The software simplifies the process of optimizing and accurately predicting the future performance under different conditions with extensive case comparison capability. DesignPro software provides the latest information on ESP equipment and utilizes the fluid, well, and reservoir information to predict the inflow and outflow performance of an ESP system design. The software features helpful error messaging and a detailed limitation report to aid in properly selecting ESP equipment. Application features include ■ comprehensive selection of flow and fluid correlations to better match measured well data to identify the most suitable correlation for the analysis
Application Engineering
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black oil properties with option for extensive PVT laboratory data, viscosity calibration, and emulsion effects ■ predicting reservoir performance by inflow methods with the option to consider water cut ■ providing complete gas handling or gas separation performance analysis ■ providing advanced features for changing the performance of the pump or any other components to match the measured data ■ applying motor and pump heatincrease effects on equipment performance ■ applying a complete heat transfer from reservoir to the separator ■ using the pump test data for design and analysis instead of catalog curves ■ Microsoft® Word and PDF report generation capability. DesignPro software uses animated simulations to view fluid levels in the annulus and tubing. It simulates the system condition from the start of the operation to the time when the system stabilizes and the fluid level is constant. It also generates a well schematic diagram detailing the equipment type and the associated clearances.
DesignPro ESP Software
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Pump sizing screen with design and operation information.
Visualization screen animating the system performance from startup.
Visualization screen after the system stabilizes under defined conditions.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Microsoft® is a registered trademark of Microsoft Corporation.
ESP Catalog
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ESP Design Data Sheet Company
Field
Contact
Location
Phone
Fax
Date
Run date
Well and Fluid Data Casing OD, in. Casing weight, lbm/ft Casing length, ft
MD
Tubing OD, in.
Total well depth, ft
MD
TVD
BHT, °F
Perforation depth, ft
MD
TVD
sg water
Max. dogleg severity, °/100 ft
sg gas
Producing formation ❏ Sandstone
Tubing weight, lbm/ft Tubing length, ft
MD
Bubblepoint, psi ❏ Limestone
❏ Dolomite
Oil API gravity
Rod string
Fluid gradient, psi/ft
Present Productivity and Production Data Total fluid production, B/D
Static reservoir pressure, psi
PI, B/D/psi
Oil production, B/D
Static fluid level, ft
QMAX, B/D
Water production, B/D
Well flowing pressure, psi
Present lift method
Water cut,
ft3/bbl
Producing fluid level, ft
Surface GOR
Wellhead pressure, psi
Casing pressure, psi
Desired Operating Conditions Desired total daily fluid production, B/D
Desired pump set depth, ft
Oil production, B/D
Drawdown to
Water production, B/D
ft above pump intake
Tubinghead pressure, psi Sizing based on
❏ 60-Hz fixed speed system design ❏ Variable speed system design ❏ Both
General Information This well has a history of
❏ Sand
%
❏ Scale
❏ H2S
%
❏ CO2
Electrical supply summary
Primary supply voltage ❏ Three phase
❏ Paraffin %
❏ Other
❏ Single phase
Any other unique production characteristics with this location Additional information and remarks
Application Engineering
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ESP Design Data Sheet
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© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Company
Field
Contact
Location
Phone
Fax
Date
Run date
Well and Fluid Data Casing OD, in.
Total well depth, m
MD
TVD
BHT, °C
Casing weight, kg/m
Perforation depth, m
MD
TVD
sg water
Casing length, m
MD
Tubing OD, in.
Max. dogleg severity, °/30 m
sg gas
Producing formation
Bubblepoint, kPa
❏ Sandstone
Tubing weight, kg/m Tubing length, m
MD
❏ Limestone
❏ Dolomite
Oil API gravity
Rod string
Fluid gradient, kPa/m
Present Productivity and Production Data Total fluid production,
m3/d
Oil production, m3/d Water production, Water cut,
m3/d
m3/bbl
Static reservoir pressure, kPa
PI, m3/d/kPa
Static fluid level, m
QMAX, m3/d
Well flowing pressure, kPa
Present lift method
Producing fluid level, m
Surface GOR
Wellhead pressure, kPa
Casing pressure, kPa
Desired Operating Conditions Desired total daily fluid production, m3/d Oil production,
Desired pump set depth, m
m3/d
Drawdown to
Water production, m3/d
m above pump intake
Tubinghead pressure, kPa Sizing based on
❏ 60-Hz fixed speed system design ❏ Variable speed system design ❏ Both
General Information This well has a history of Electrical supply summary
❏ Sand
%
❏ Scale
❏ H2S
%
❏ CO2
❏ Paraffin %
❏ Other
Primary supply voltage ❏ Three phase
❏ Single phase
Any other unique production characteristics with this location Additional information and remarks
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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Optimization Services
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Axia Lifting Service Applications ■ ■ ■ ■
Brownfields using artificial lift Multilocation stakeholders Resource-constrained operations Fields and wells with variable operating conditions
espWatcher
Benefits ■
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Improves run life through proactive ESP management Reduces up-front capital investment Provides information on demand for better, faster decisions Provides diagnosis, analysis, and recommendations from domain experts Improves utilization of operator resources
Features ■ ■ ■
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Simple wellsite installation Real-time monitoring on every well Remote intelligent surveillance and control of ESP operations Secure Web access to all measured parameters Localized Production Centers of Excellence staffed with ESP experts
LiftPro
REDA
Optimization Services
■
Axia Lifting Service
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Phoenix
The Axia* lifting service is an end-toend offering to improve production and reduce lifting costs in wells and fields with operating ESPs. The Axia service uses well and field information in combination with real-time operational data for intelligent surveillance and control of ESP operations, and broader evaluation of field-wide production improvement opportunities. The results are improved field operations efficiencies, reduced lifting system costs, and increased production levels. The Axia service goes beyond the conventional ESP or well optimization approach. The multiple facets of petroleum engineering—from reservoir characterization to surface power grid design—are examined and incorporated into Axia service recommendations as deemed appropriate. The reliable REDA* ESP systems and the Phoenix* artificial lift monitoring systems are the foundation of the Axia service. The service can be integrated with the espWatcher* surveillance and control system and the LiftPro* service to improve underperforming artificially lifted wells; and it is supported by Schlumberger Data & Consulting Services expertise. The Axia service seamlessly integrates the downhole ESP equipment with expert analysis through secure, remote connectivity to provide operators with a simple interface to their own processes. Operators can now rely on the Axia service to improve their own multiwell fields and reservoir management workflows while increasing the productivity of their personnel.
Making informed decisions
A flexible, aligned service
Schlumberger surveillance and diagnostic engineers working in a Production Center of Excellence are assigned to monitor wells and perform regular performance checks. Recommendations, based on these checks, can be made to improve ESP and well performance as reservoir, production, and wellbore characteristics change. The Axia service allows operators to devote more time to making decisions and anticipating potential problems, and less time searching through data or troubleshooting system failures. With real-time remotely available measurement capability, operators can anticipate problems and make the planning and prioritization of well operations more efficient. The Axia service team can provide insight into unnecessary shutdowns occurring in the field and allow service people to be immediately dispatched to the wells that need attention. Motor current and pressure profiles can reveal processes that are potentially harmful to the pump performance and might result in shorter than normal pump run life. Pressure plots can also provide crucial insight into the injection effectiveness in the field. The last production data before a shutdown can be used to correctly size replacement pumps and reduce reliance on the month-long tests normally used to verify that the replacement pump is the correct size. The Schlumberger field service crew carries out the necessary changes as agreed upon with the customer and takes instant remedial action to ensure continued production.
Whether it is a mature field with one or multiple producing wells, a field in a remote environment where physical access is restricted or difficult, or a field where SCADA is limited or unavailable, the flexible tiered design of the Axia service makes it suitable for implementation in a variety of applications and an effective means to increase production and reduce costs.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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espWatcher Service Applications ■ ■ ■ ■
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Mature fields with numerous wells Remote environments Subsea and high-value wells on ESPs Wells with no or limited SCADA systems Lift-system-optimization candidates
Benefits ■ ■ ■ ■ ■ ■ ■ ■
Increased pump and well uptime Extended pump run life Reduced well interventions Prioritized well work Improved pump operation Optimized production Reduced wellsite visits Improved cost effectiveness of installation, maintenance, and system administration
Features ■
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Real-time sandface and production surveillance Fully automated wellsite status determination via the Internet Secure, remote access to all measured parameters Secure, remote pump start, stop, and variable speed drive (VSD) adjustments Pager, cellphone, or e-mail alarms and callouts Daily raw data summary with retained history On-demand data polling Incorporation of additional wellsite remote terminal units and data Periodic pump and well performance analyses Fast and economical setup Scalable and configurable design
Optimization Services
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User security control, alarms and alert management, data storage, and business process management
Secure, two-way communication
Data and instructions transmission
Surveillance and control instructions
Alarms and alerts
espWatcher Service
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Actions, data polling, and queries
Multidiscipline collaboration and historical interrogation
Collaboration, analysis, planning, and decision making
The espWatcher* surveillance and control system for ESPs provides real-time monitoring and control. It features remote satellite-based data acquisition, alarm and alert callout notifications, remote pump startup and speed control, and remote investigation of pump problems. Supported by Schlumberger experts, the espWatcher service provides improved well management, including well startup, regular well health checks, diagnostics, and optimization. Threshold alarms can be set for various data combinations, and remote pump intervention is achievable. It is also possible to analyze beyond the pump to the completion and sandface with associated pressure and flow rate data. Because the espWatcher service is satellite-based, it is well suited to remote or hostile locations and those operations with limited or no SCADA systems. The espWatcher system can also be installed to run parallel to existing SCADA systems for advanced ESP intelligent surveillance. The espWatcher service is enabled by InterACT* real-time monitoring and data delivery, which provides reliable and secure remote connectivity and monitoring of the wellsite artificial lift system. While usable with all ESP
wells, it is ideally suited to applications using REDA* ESPs, SpeedStar* VSD controllers, and Phoenix* artificial lift monitoring systems.
Additional value Two of every three artificially lifted wells are underperforming according to current estimates. The espWatcher service provides significant opportunity to improve production and well uptime. A standard startup report includes the calibration and validation of pump and well operation. The report also provides the baseline to which future measurements can be compared. The health check is a snapshot provided at regular intervals, usually hourly for the first 24 hr, and then every few days after well stabilization. Diagnostics are performed monthly, but they can also be triggered by system failures. Before any serious damage can occur, these checks and reports identify potential pump problems caused by changing well conditions. The diagnostics also enable improved preventive maintenance and workover planning. Schlumberger’s extensive experience in ESPs and artificial lift optimization is a key supporting feature of the espWatcher service.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
How the system works At the wellsite, new or existing pump controllers and other surface sensors interface to the site communications box. The box contains a satellite radio and process-assisted communicator capable of interfacing with fixed drives or VSDs for remote control. Data are transferred to a remote management system hosted within Schlumberger, with Internet access through the InterACT real-time monitoring and data delivery system.
Global service, global support Schlumberger and client experts can collaborate on the full range of situations faced when managing ESPs. The Schlumberger Production Centers of Excellence have teams of experts who provide a range of services and support to espWatcher installations. Existing espWatcher installations are shown on the map below.
ESP Catalog
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LiftPro Service Applications ■
■ ■
Diagnosis and remediation of underperforming artificially lifted wells Candidate-well evaluation Prediction of well performance for various operating parameters
Benefits ■ ■ ■ ■
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Increased production Improved lift system performance Reduced overall operating costs Enhanced turnaround to improve well operations and increase production Improved well performance analysis times and immediate diagnostics Rapid evaluation of multiple wells
Features ■
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Complete dataset on demand, remotely and at the wellsite Consistent flow measurement High-sampling-rate multiphase flow measurements to quantify well instability and changing operating conditions Continuous flow rate measurement of a well’s individual phases without separation Easy deployment Less pressure loss than with conventional test-separation systems No requirement for additional shutdown and pressure-relief systems Complementary range of Schlumberger artificial lift technologies
The complete optimization package The LiftPro* service for improving underperforming artificially lifted wells brings the requisite measurements and expertise together—in one place, at one time—to achieve well-by-well optimization. It is estimated that in two out of three artificially lifted wells, operations could be significantly improved, which would lead to increased production. A 10% net increase in oil production is the expected baseline performance improvement resulting from using the LiftPro process. For some wells, gains of over 100% have been verified by production measurements taken before and after the optimization process. The LiftPro process enables fast and clear performance evaluation of the artificial lift system and the well. The evaluation is achieved by seamlessly combining operator field knowledge with Schlumberger measurement technology, services, and artificial lift capabilities. Financial risk can be defined and controlled using LiftPro risk-sharing commercial models for candidate-well selection.
Acquisition
Acquisition
Analysis
Execution
Selecting the best candidate wells is essential to the LiftPro artificial lift optimization process. Common sources of data required for candidate evaluation are the Phoenix* artificial lift monitoring systems, Sensa* fiber-optic monitoring systems, PhaseTester* portable multiphase periodic well testing equipment, and flowing gradient surveys. Evaluation
Optimization Services
■
LiftPro Service
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Analysis
LiftPro process measurements
Schlumberger combines artificial lift and well-testing expertise with advanced well-diagnosis tools, such as PIPESIM* production system analysis software.
Flow rate—This is the primary measurement in any well optimization program, but it is acquired in a variety of ways—with a corresponding variety of uncertainties. A consistent measurement and an understanding of its uncertainty are fundamental to analyzing well performance before and after any treatment. Measurement consistency and understanding are also the best proof of the LiftPro process effectiveness and value. Pressure—Flow responds directly to changes in wellbore pressure. For improved performance, it is preferable to rely on actual measurements of downhole pressure rather than calculations. A permanent downhole monitoring service, such as the Phoenix system, allows thorough diagnosis of wellbore pressure response to the lifting system. Combined with multiphase flow measurements, a diagnosis using pump intake and discharge pressures can provide a very accurate picture of the artificial lift response. Such diagnoses have shown gains of 88% net oil through the LiftPro process.
Execution The LiftPro process involves predicting performance for various well-operating parameters by matching onsite well data with wellbore models of the artificial lift system. Recommendations based on this performance analysis can be implemented at the wellsite and often lead to immediate production increases.
Evaluation A complete dataset, available on demand at the wellsite or delivered remotely, enables operating personnel to test settings efficiently and accurately. Before- and after-production results generally confirm a very fast turnaround time to improved well operation and increased production.
Distributed temperature sensing— Fiber-optic distributed temperature sensing (DTS) technology provides measurements over the complete length of the fiber in the wellbore. The Sensa DTS system can be temporarily run within slickline using standard slickline equipment, or it can be installed permanently, using proprietary technology, in a control line. The LiftPro process uses the Sensa DTS measurement to gain instantaneous information about the status of the entire well and artificial lift system. Combining this information with pressure and flow measurements enables a more efficient and precise approach to optimization. DTS technology is well suited to gas lift wells because it allows simultaneous observation of dynamically actuated hardware positioned throughout the wellbore or in multiple gas lift mandrels in the completion. In addition, DTS can identify leaks and other completion problems.
Schlumberger Data & Consulting Services (DCS) DCS specialists help clients transform data to informed business decisions that maximize asset value. The DCS teams of geoscientists and reservoir and production engineers work in more than 80 locations worldwide, providing ■ timely data delivery and operations support ■ interpretation and integration of all types of exploration and production data ■ expert consulting services for production enhancement, multidisciplinary reservoir and production solutions, and field development planning.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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Power Systems Analysis Applications ■ ■
Schlumberger power systems analysis uses field measurements and computer modeling to analyze power systems, make recommendations, and deliver custom products such as filters and power-factor correction capacitor banks, enabling the efficient and economic use of electric power. Projects have been performed in petroleum, mining, petrochemical, industrial, and utility sectors throughout the world. The power systems analysis database serves as the basis for improving system performance and power quality, reducing operating costs, and providing a reliable supply of power during system operation. Using the latest software tools, Schlumberger engineers can deliver complete system optimization. Final reports detail the voltage, current, and power factor at various locations in the system. Typically, this type of study is used to optimize transformer, switchgear, and cable loadings. A mathematical model optimizes the electrical power consumption in a system by determining if loading can be redistributed or aided by powerfactor correction, or if a new load can be added.
Electrical power systems Petroleum, mining, petrochemical, industrial, and utility sectors
Benefits ■
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Improves efficiency and economical use of power Reduces operating costs Provides reliable supply of power during system operation
Features ■
■
Detailed voltage, current, and power factor reports at various locations in the system Total systems approach for complete and thorough evaluation
Optimization Services
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Power Systems Analysis
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Power systems analysis processes Schlumberger specialists study all parameters when performing a power systems analysis. The total system approach provides a complete and thorough evaluation. The following steps ensure that all information and conditions are understood and considered: ■ Field trips are made to gather data. ■ Close coordination with the power supply utility is necessary to obtain information about the power system in remote locations. ■ Proper coordination with the variable-frequency drive manufacturer is needed to obtain accurate harmonic characteristics for the specific drives. ■ Accurate modeling of the power system is used in the design of the filters and coordination of the protection devices.
Unfiltered Current Waveform
Current
Time
Filtered Current Waveform
Typical power system analysis ■
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Load flow—A base study is performed to determine the steadystate operating characteristics of the electrical system. Transient motor starting—This study examines how the electrical system will react when individual motors are started or when groups of motors are started simultaneously. Short circuit—The calculations of fault-current levels at all buses in the system are studied to minimize the consequences of a potential short circuit in the system. Protective device coordination— Protective devices, such as circuit breakers, fuses, and relays, are studied and their usage properly coordinated to protect personnel and equipment. Harmonics—This study is recommended on systems that have 20% or more nonlinear loading produced by equipment such as VSDs, arc welders, and fluorescent ballasts.
Current
Time
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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Advanced Applications
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REDA Hotline Systems Applications ■
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Wells with bottomhole temperature (BHT) to 425°F [218°C] Installations with insufficient motor cooling • Gassy wells • Low-production-rate wells • Wells with emulsified fluids
Benefits ■
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Extended ESP run life in hightemperature applications Expanded ESP application range
Features ■
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High-temperature motor insulation system High-temperature 562 Dominator* motor Protector available with labyrinth seal or high-temperature elastomeric bag configurations High-temperature pump High-temperature power cable and motor lead extension
High-temperature wells The REDA* Hotline* high-temperature ESP system is designed to address the special needs of high-temperature wells produced by steamflood operations. Steam injection has been used in many fields to improve mobility of heavy oil and bitumen, which are more difficult to recover than light oil. Because more than two-thirds of worldwide oil reserves are heavy oil, the role of steamflood as a recovery technique will likely play a much bigger role in fulfilling hydrocarbon demands in the near future.
Advanced Applications
■
REDA Hotline Systems
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The REDA Hotline ESP system operates reliably in wells with BHT to 425°F [218°C], making it ideally suited for steam-assisted gravity drainage (SAGD), and other high-temperature production methods. The REDA Hotline system can dramatically improve heavy-oil recovery economics by increasing production rates to levels unobtainable with other artificial lift methods, and decreasing the steam/oil ratio (SOR). A reduction in SOR means that operators can minimize natural gas volumes consumed when creating steam to boost oil production, reducing the effective lifting cost per barrel of fluid. Combined with the increased production rates afforded by an ESP system, operators are able to maximize well profitability. The temperatures associated with SAGD and other high-temperature steamflood applications generally far exceed the operating limits of conventional ESP technology. The REDA Hotline system benefits from a step change in ESP component design and construction to enable ESP operations in high-temperature applications. Each component of the REDA Hotline ESP is designed to extend system run life in steamfloods and ensure reliability at full downhole operating temperatures. The complete system is designed to compensate for variable thermal expansion and contraction rates of the different materials used in the pump design.
The system has a motor pothead design, special high-temperature motor insulation rated to 550°F [288°C], and an innovative power cable design to ensure electrical system reliability. Design features of the new pothead also make it very robust in H2S production environments. The REDA Hotline system includes the Advanced Motor Protector, which relies on metal bellows for motor oil expansion compensation. This feature allows for avoiding the risk of using rubber elastomers, which can be ineffective in such high-temperature applications. Unique to this protector is a dual ceramic bearing and a special sand shroud to prevent solids from accumulating in the protector head. These ESPs have been sized specifically for steamflood applications, enabling optimum well drawdown with the proper selection of gas-handling, gas-separation, or gas-avoidance devices. The Poseidon™ axial flow multiphase gas-handling system has been enhanced for these high-temperature operating conditions, allowing the ESP to produce large percentages of free gas without affecting performance. Additionally, gravity-controlled technology has been developed to orient the pump intake to the low side of the hole, limiting steam input to the ESP.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Poseidon™ is a trademark of Institut Français du Pétrole (IFP), Total, and Statoil; technology licensed to Schlumberger.
Back to Advanced Applications
For production optimization, the Sensa* fiber-optic monitoring system is installed to measure the distributed temperature profile along the wellbore. Monitoring temperature across the producing interval provides useful feedback to improve steamflood efficiency and identify steam breakthrough. Monitoring the ESP temperature helps identify pump performance degradation and gas-locking conditions, as well as providing key information to optimize production. In addition to steamflood operations, the REDA Hotline ESP system can be used in installations with insufficient motor cooling such as highgas-content wells, low-production-rate wells, wells with emulsified fluids, and geothermal wells.
ESP Catalog
Poseidon Systems Applications
Increased production
■
The Poseidon™ system, a multiphase, axial-flow gas-handling system, allows efficient treatment of high percentages of free gas. The system can be installed above a gas separator when gas is vented into the casing, or it can be installed above a standard intake if all the produced gas must go through the pump. The Poseidon system can increase production and extend the use of ESPs in oil wells with high gas cut where production is limited by the centrifugal pump’s ability to handle gas. Centrifugal pumps are primarily designed to handle fluids and will suffer from head degradation and gas locking in the presence of high percentages of free gas. The specially designed axial flow stages prime the main production pump and push the gas-liquid flow stream into the stages. Gas volume is reduced through the Poseidon system by compression. Laboratory tests and actual field applications have demonstrated that the system can successfully operate in ultrahigh gas-cut ESP wells with gas volume fractions (GVF) up to 75%, far exceeding the 40 to 45% GVF limitations of conventional gas-handling devices. The Poseidon system maintains high-boosting pressure with increasing amounts of inlet gas fraction. The Poseidon gas-handling system is designed to improve stability in gassy wells, provide better slug handling in horizontal wells, increase ESP performance, and increase the production rate and recovered reserves.
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Oil-producing wells with high gas cut Oil-producing wells with nonvented packers Subsea oil wells Oil wells with too much gas volume for conventional gas-handling equipment
Benefits ■
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Increased production and reservoir life in oil wells with high gas cut Increased production with fewer gas-locking production shutdowns Improved installation run life with stabilized motor current Extended pump run life
Features ■
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Axial flow, multiphase stage design to handle high percentages of free gas Special hydraulic design to minimize liquid-gas separation Abrasion-resistant construction suitable for sandy applications Stages available in 5530 and Ni-Resist metallurgies
Advanced Applications
■
Poseidon Systems
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Pump
Poseidon gas-handling system Standard intake/ gas separator
Protector
Motor
Pressure sensor
Poseidon system
Head relative to single-phase performance
Poseidon system
Oil production
Conventional gas-handling system
Conventional gas-handling system
Gas fraction
Time
Specifications
Outside diameter, in. [mm] Length, ft [m] Weight, lbm [kg] Power consumption, tested at 60 Hz and 1.0 sg water, hp Standard housing material Optional housing material Standard stage metallurgy Optional stage metallurgy Shaft material Shaft size, in. [mm] Shaft power rating at 60 Hz, hp Liquid and gas rate, B/D [m3/d] GVF, % Stage type † American
400 (D Series)
538 (S Series)
4.00 [101.6] 6.9 [2.1] 182 [82.6] 16
5.38 [136.65] 6.3 [1.9] 350 [158.9] 50
Carbon steel Redalloy* alloy Ni-Resist alloy ASM† 5530 INCONEL® 7/8 [22.2] 410 800–4,200 [127–667.8] Up to 75 Helicoaxial
Carbon steel Redalloy alloy Ni-Resist alloy ASM 5530 INCONEL 1 [25.4] 600 5,000–9,000 [795–1,431] Up to 75 Helicoaxial
Society for Metals
400 Series (D series), 800–4,200 B/D [127–668 m3/d] capacity
† to
Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy Part Number
CR-CT, carbon steel, high-strength shaft
6.9 [2.1]
182 [82.6]
100065824
tba†
Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy Part Number
CR-CT, carbon steel, high-strength shaft
6.3 [1.9]
350 [158.9]
2004352
100090034
be assigned
538 Series (S Series), 5,000–9,000 B/D [795–1,431 m3/d] capacity
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger INCONEL® is a registered trademark of Inco Alloys International, Inc. Poseidon™ is a trademark of Institut Français du Pétrole (IFP), Total, and Statoil; technology licensed to Schlumberger.
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ESP Catalog
Catalyst Systems Applications
Increase lift and production
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Catalyst* advanced artificial lift systems offer a range of completion designs to address production needs beyond those achieved by conventional ESP completions.
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Wells with production constraints that cannot be addressed with conventional ESP systems Wells having workover costs that threaten economic viability Reservoirs that need to be produced at different drawdown pressures in the same wellbore
Benefits ■
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Increases production compared with conventional ESP completions Provides dual-ESP completions to prevent total loss of production from pump failure Improves reservoir management by controlling drawdown across multiple zones Enhances reservoir monitoring ability for accurate productivity analysis and well remediation decisions Reduces intervention costs compared with conventional ESP completions
Features ■ ■
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Custom ESP completion design Access to wellbore below ESP for intervention Redundant ESP systems Ultrahigh-horsepower systems ESP systems for multizone completions Reduce slickline or coiled tubing interventions, or automatically switch between multiple ESP systems Reduce restrictions in free-flowing or multiple-ESP configurations
Advanced Applications
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Bypass completions ESP bypass completions create a conduit for wireline or coiled tubing intervention below an ESP, as shown in Fig. 1. Catalyst completions permit production logging and other evaluation techniques below the ESP for obtaining critical information needed in making decisions on subsequent perforating, stimulation, and plugging operations. These operations can be made without removing the ESP system.
Parallel completions Because of surface equipment, casing size, or shaft torque limitations, some wells produce at levels far below their potential. Catalyst parallel pumping completions, as illustrated in Fig. 2, use multiple ESPs to substantially increase production from these types of wells. Not only does total production increase, but each ESP operates independently such that failure of one ESP does not result in a total production loss.
Dual-boost completions Multiple ESPs can be used in series where design constraints include high power requirements due to depth and desired production rate, casing collapse because of high differential pressures, and a rapid reservoir decline rate. This Catalyst completion is used to share the load between two independent ESP systems.
Catalyst Systems
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Figure 1
Figure 3 illustrates an ESP deployed within a pod module assembly that diverts fluids from the discharge of the lower ESP into the intake of the upper ESP. As a result, the well can produce from deeper reservoirs and at higher production rates.
Tandem completions The opportunity to reduce workover costs justifies investment in a Catalyst tandem ESP completion system because it enables deploying a backup ESP system in a well. In the event of an ESP failure, the backup ESP can be run to extend well production, saving workover costs and deferred production. This Catalyst completion is especially applicable in offshore and subsea environments.
Multizone completions Multiple reservoirs can be produced through the same wellbore by using the Catalyst completion system illustrated in Fig. 4. Typically, two reservoirs are produced by entirely separate ESP systems, which allow for applying a differential drawdown across the wellbore to manage zonal contribution, prevent crossflow during shutdown, and conduct isolated well tests to establish reservoir parameters, production characteristics, and production allocation.
Coiled tubing completions Field and well economics can be greatly improved, in areas where rig availability is poor or cost-prohibitive, by using RedaCoil* coiled tubingdeployed ESP systems.
RedaCoil systems are an efficient alternative for new and existing field developments where intervention costs and lost production are major considerations. RedaCoil applications have proven to reduce intervention costs, minimize lost production, and increase production in high flow-rate and/or viscous oil wells. RedaCoil completions decrease chances of formation damage with livewell intervention and full pressurecontrol capabilities.
Innovative engineering The Y-tool is a key completion component that enables Catalyst specialized ESP completion designs. Incorporating the Y-tool in the completion design leads to significant costs savings by eliminating the need to pull the completion string when remedial borehole intervention is required. The Y-tool, which permits access to the well below the ESP, allows for logging and other intervention operations. In multi-ESP completion designs, the Auto Y-Tool* subsurface automatic diverter system opens automatically when an ESP is not running, permitting access below the operating pump while preventing fluid recirculation. The Auto Flow Sub* subsurface automatic flow check allows unassisted flow to bypass an ESP that is not running. A stationary pump impedes natural flow and can restrict flow as it moves through the pump stages. This choking effect will raise bottomhole pressure, effectively reducing production. The Auto Flow Sub device automatically creates an unrestricted bypass path for production flow.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Artificial Lift Center of Excellence More than 75 Catalyst ESP completion systems have been designed and installed in oil wells around the world. Schlumberger specialists at the Artificial Lift Center of Excellence in Inverurie, Scotland, support field locations worldwide in the design of Catalyst completion systems using proprietary software tools such as PIPESIM* production system analysis software and DesignPro* ESP design software to model tubing size, stress analysis, and ESP performance. All completions are designed to incorporate Phoenix* artificial lift monitoring systems and record parameters, including both intake and discharge pressures, which can be used in validating system performance versus the nodal analysis model created during the design phase. Through application of the espWatcher* surveillance and control system for ESPs, these data can be made available to the design team in the Center of Excellence for validation purposes.
ESP Catalog
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Production tubing
Auto Flow Sub* system Discharge head
Auto Y-Tool* system Nipple Discharge head Bypass tubing
Discharge pressure assembly
Upper pod assembly
Upper pump assembly
Nipple
Upper pump assembly Bypass tubing
Cable protector
Cable penetrator Auto Flow Sub system Discharge head
Auto Y-Tool system
Discharge pressure assembly
Phoenix gauge
Phoenix* gauge
Pump support sub
Discharge head
Auto Y-Tool system
Upper pump assembly
Discharge pressure assembly
Bypass clamp
Dual-cable cross coupling clamp
Discharge pressure assembly
Lower pod assembly
Lower pump assembly
Phoenix gauge
Pump support sub Cable protector
Cable penetrator
Pod assembly
Discharge head
Discharge pressure assembly
Lower pump assembly
Phoenix gauge
Phoenix gauge
Discharge head Bypass tubing
Discharge pressure assembly Lower pump assembly
Bypass clamp
Phoenix gauge Reentry guide
Production tubing
Production tubing
Stinger assembly
Stinger assembly
Polished bore receptacle
Polished bore receptacle
Upper zone
Sump packer
Packer assembly
Lower zone
Figure 2
Advanced Applications
■
Figure 3
Figure 4
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Catalyst Systems
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RedaCoil Systems Applications ■
Pump workovers where rig availability is limited
Benefits ■
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Reduces operating expenses with less well downtime and rig costs Reduces installation and workover time with no cable bands or clamps required Decreases chances of formation damage with live-well intervention and full pressure-control capabilities Reduces or eliminates power cable damage from pressure cycles, mechanical damage, and well fluid chemical attack Minimizes cost and lead time possible with standard coiled tubing surface equipment Reduces friction losses in highflow-rate and low-viscosity oil wells
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Power cable installed inside the coiled tubing Friction-supported power cable 2-, 2 3⁄8-, or 2 5⁄8-in. coiled tubing option Bottom intake (or discharge) ESP systems Annular flow or 7-in. production tubing Horizontal wellhead used Standard production packer employed Wellhead electrical penetrator deployed above hanger system Cost-efficient pump deployment
Advanced Applications
Minimize lost production In isolated areas, rig availability is often a problem. Production lost while waiting to mobilize a rig can significantly impact the economics of field production. RedaCoil* coiled tubingdeployed ESP systems offer an efficient alternative for new and existing field developments where intervention costs and lost production are major considerations.
Coiled tubing for high-flow-rate wells
Features ■
Schlumberger has pioneered the use of coiled tubing-deployed ESP systems, avoiding conventional drilling rigs for workover requirements. As a result, intervention costs and lost production are minimized. Offshore, swamp, jungle, and desert areas often carry a high cost of intervention. The use of coiled tubing for pump workovers, in lieu of high-cost jackup drilling rigs, has lowered overall operating costs.
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The RedaCoil ESP system and cables are capable of producing high-flow-rate wells (up to 4,770 m3/d [30,000 B/D] in 7-in. casing) by flowing around instead of through the coiled tubing. For environments that do not allow flow up the casing, an alternative configuration requires the deployment of a 7-in. production pipe inside of the 9 5⁄8-in. well casing. A 7-in. production pipe, in conjunction with the RedaCoil system, allows well fluid isolation from both the well casing and the pump power cable.
RedaCoil Systems
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Patented technology
Protect against formation damage
The fundamental technology of the RedaCoil system is the Friction Deployed* self-supporting power cable installed and supported inside of 2-in. or 2 3⁄8-in. coiled tubing. Coiled tubing rig time is minimized because the power cable is installed in the coiled tubing at the manufacturing location. Once the RedaCoil ESP system is installed in the well, the cable sits protected in inhibited fluid within the coiled tubing. The coiled tubing can also be used as a conduit for hydraulic actuation of packers, subsurface safety valves, and other downhole devices.
Killing wells during intervention is expensive and time-consuming. It often results in reduced well productivity because of the resulting formation damage. The RedaCoil system—with surface lubricator, dual mechanical barriers, and power cable inside the coiled tubing—ensures well control is maintained during all operations. This permits secure and efficient deployment of the ESP system in a live well, saving time and reducing the potential for formation damage.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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Downhole Monitoring
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Phoenix Select Gauges Applications ■
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Lift system- and completionperformance monitoring Wells with potential startup or instability problems Wells with changing production and sandface conditions Reservoir drainage and depletion monitoring
Benefits ■ ■
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Increased lift system run life Decreased lift system operating costs Decreased early lift system failures Increased production and ultimate recovery Added information for wellintervention planning
Features ■
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Flexible equipment configurations adaptable to any artificial lift system or application Accurate, continuous monitoring of key parameters System compatible with SCADA systems using Modbus™ protocol System operation independent of pump power Continuous data stream via RS232 and RS485 ports on surface equipment Programmable trip and alarm relays for all monitored parameters Analog outputs and inputs for interfacing with older SCADA systems Onsite historical data storage when using optional data logger Selectable rapid sampling rate for reservoir monitoring
Downhole Monitoring
■
Phoenix* Select* artificial lift monitoring system tools feature the newest generation of downhole sensors for in-depth diagnostics and analysis. By accurately identifying operating problems or anomalies in real time, Phoenix Select monitoring systems facilitate effective intervention strategies, protect lift systems, improve well integrity, and help optimize production and maximize ultimate recovery. Phoenix downhole systems can be used to monitor ESPs, beam pumps (rod pumps), progressing cavity pumps (PCPs), and gas lift systems.
Configuration flexibility Phoenix Select systems transmit ESP data to the surface via the pump cable. For other types of artificial lift, data are transmitted via an independent cable. Monitored parameters include pressure, temperature, vibration, and electrical insulation. Each parameter can be programmed to protect both the pump and the well. This flexibility allows operators to select the appropriate level of monitoring for any artificial lift system.
ESP monitoring When monitoring an ESP, the sensor is connected to the pump motor. Monitoring options are ■ Lite—basic ESP monitoring and protection ■ Standard—adds discharge pressure, temperature, and vibration for improved pump protection and performance analysis ■ Advanced—complete monitoring of pump discharge and intake conditions ■ Reservoir—extends pressure, temperature, and vibration measurements to the sandface.
Phoenix Select Gauges
Back to Downhole Monitoring
Monitoring other types of lift systems For monitoring other types of artificial lift systems, the Phoenix Select sensor is mounted on the production tubing, either above or below the artificial lift equipment. Monitoring options for beam pumps, PCPs, and gas lift systems are listed in the previous section.
Performance Advanced transducer technology, stateof-the-art microelectronic components, and digital telemetry ensure that the most reliable and accurate information is provided to analyze artificial lift performance. Certain monitoring applications require that data be sampled at higher rates. The Phoenix Select system can adapt the sampling rate for key downhole parameters so that valid data are available for the intended application. The gauge metrology table shows the data sample rate for each monitored parameter. Trip and alarm relays for all monitored parameters are field-programmable to match individual reservoir, well, and operating conditions. This feature decreases false alarms. Phoenix Select technology reduces compatibility issues by using a single data-acquisition and communications platform for all monitored wells.
Integrated monitoring system Phoenix Select monitoring systems are fully compatible with other monitoring and control technology. They are SCADA-ready and have a Modbus remote terminal-protocol port, in addition to RS232 and RS485 ports for continuous data output. Phoenix systems can be combined with other components to achieve an integrated monitoring and control system consisting of a sensor unit, an integrated surface panel or UniConn*
universal site controller, a surface choke assembly, software for manual data retrieval, and an optional portable data collector. The downhole and field components can be further integrated with the espWatcher* surveillance and control system for real-time remote data acquisition, alarms and alerts via satellite, remote pump startup and speed control, and remote resolution of a variety of pump problems.
ESP Applications
Motor temperature Motor vibration (3-axis) Motor Y-point voltage Intake pressure Intake temperature Intake vibration (3-axis) Discharge pressure Discharge temperature Discharge vibration (3-axis) Sandface pressure Sandface temperature Sandface vibration (3-axis) † not
Lite
Standard
Advanced
Reservoir
• • • • • na† na na na na na na
• • • • • na • • • na na na
• • • At pump intake At pump intake At pump intake • • • na na na
• • • • • na • • • • • •
applicable
Example Cable-to-Surface Measurements
Annulus pressure Tubing pressure Intake pressure Discharge pressure Temperature Vibration (3-axis) Current leakage † not
Beam Pump
PCP
Gas Lift
na†
na na • • • • •
• • na na • • •
na • na • • •
applicable
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Modbus™ is a trademark of Gould, Inc.
ESP Catalog
Back to Downhole Monitoring
Gauge Specifications ESP Sensors Length, in. [cm] Dimensions
OD, in. [cm]
Ratings
Materials Surface equipment requirement † not
Pressure, psi [kPa] Temperature, °F [°C] Insulation test rating, VDC Metallurgy Elastomers High-voltage coupling Data acquisition options
Cable-to-Surface Sensors
22 [55.88] 13.9 [35.18] 4.5 [11.43] 4.7 [11.98] (with 2.875-in. [7.3-cm] tubing clamp) na† 5.6 [14.30] (with 3.5-in. [8.9-cm] tubing clamp) na 7.3 [18.64] (with 5.5-in. [14.0-cm] tubing clamp) na 1.1 [2.86] (gauge only) 5,800 [39,990] 5,800 [39,990] 302 [150] 302 [150] 5,000 500 Stainless steel AISI420 Stainless steel AISI420 As required As required Surface choke na UniConn universal site controller, integrated surface panel, integrated surface unit
available
Gauge Metrology Measurement
Range
Accuracy
Resolution
Drift
Data Rate
Pressure (reservoir enhanced) Intake pressure Discharge pressure Motor oil and winding temperature Temperature Vibration Current leakage Y-point voltage
0–5,000 psi [0–34,474 kPa] 0–5,000 psi [0–34,474 kPa] 0–5,000 psi [0–34,474 kPa] 0–768°F [0–409°C] 0–302°F [0–150°C] 0–30 gn 0–25 mA 0–900 V rms
0.06% of full scale 0.10% of full scale 0.10% of full scale 0.67% of full scale 0.67% of full scale 1.67% of full scale 0.20% of full scale 2.00% of full scale at 60 Hz
0.03 psi [0.210 kPa] 0.1 psi [0.69 kPa] 0.1 psi [0.69 kPa] 32.2°F [0.1°C] 32.2°F [0.1°C] 0.1 gn 0.001 mA 10 V rms
5 psi/yr [34.5 kPa/yr] 5 psi/yr [34.5 kPa/yr] 5 psi/yr [34.5 kPa/yr] na† na na na na
2s 6s 6s 31 s 6s Variable Variable Variable
† not
available
Downhole Monitoring
■
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Modbus™ is a trademark of Gould, Inc.
Phoenix Select Gauges
Back to Downhole Monitoring
Phoenix MultiSensor XT Gauges Applications ■ ■
ESP performance monitoring Wells with potential startup or instability problems
Benefits ■
■
■
■ ■
Optimized pump and production performance Reduced deferred production through longer ESP system run life Lower operating costs through better ESP system management Reduced early-well-life failures Optimized well intervention planning
Features ■
■
■
■
■
■ ■
Accurate, continuous monitoring of multiple key parameters Compatible with SCADA systems using Modbus™ protocol System operation independent of pump power Continuous data stream via RS232 and RS485 ports on surface equipment Programmable trip and alarm relays for all monitored parameters Analog outputs and inputs Onsite remote terminal unit data logger memory to store historical data
Downhole Monitoring
■
Phoenix* artificial lift monitoring systems include the MultiSensor* XT gauge for submersible pump completions. This gauge monitors downhole pressure, temperature, and vibration, providing the accurate data needed to protect the ESP system integrity from harmful operating conditions and to keep both the ESP system and the well at optimum performance. The MultiSensor XT monitoring system’s exemplary record is the result of extensive, ongoing research and development. The units are manufactured to rigorous standards and qualified for use in harsh environments.
Choice of configurations MultiSensor XT units are available in two configurations: Type 0 and Type 1. The Type 0 configuration has a sensor that fits all ESP manufacturers’ motors—either directly or through a simple motor-base crossover. This sensor measures motor oil or motor winding temperature, intake pressure and temperature, vibration, and current leakage. The Type 1 configuration enhances pump protection and analysis capability by measuring discharge pressure, in addition to providing all the measurements made by the Type 0 tool. Connection to the ESP discharge is through a hydraulic control line. Both models allow each measured parameter to be programmed to protect the ESP system and the well. This flexibility enables users to select the level of monitoring most appropriate for each ESP completion.
Phoenix MultiSensor XT Gauges
Back to Downhole Monitoring
MultiSensor XT gauges communicate with the surface through the ESP cable. The same surface data acquisition equipment is used for all Phoenix downhole monitoring system configurations, which greatly reduces compatibility issues.
SCADA-system ready with a Modbus remote terminal protocol port and RS232 and RS485 ports for continuous data output. Phoenix systems can be combined with other components to achieve an integrated monitoring and control system, consisting of a sensor unit, an integrated surface panel (ISP) or UniConn* universal site controller, a surface choke assembly, software for manual data retrieval, and an optional portable data collector.
Integrated monitoring system Phoenix monitoring systems are fully compatible with other monitoring and control technology. They are
The downhole and field components can be further integrated with the espWatcher* surveillance and control system for real-time remote data acquisition, alarms and alerts via satellite, remote pump startup and speed control, and remote resolution of a variety of pump problems.
Gauge Specifications Length, in. [cm] OD, in. [cm] Pressure, psi [kPa] Temperature, °F [°C] Insulation test rating, VDC Metallurgy Elastomers High-voltage coupling Data acquisition options
Dimensions
Ratings
Materials Surface equipment requirement
22 [55.88] 4.50 [11.43]; 3.75 (optional) [9.53] 5,800 [39,990] 257 [125] 5,000 Stainless steel AISI420 As required Surface choke UniConn universal site controller, integrated surface unit (ISP)
Gauge Metrology Measurement
Range
Accuracy
Resolution
Drift
Data Rate
Intake pressure Discharge pressure Motor oil and winding temperature Intake temperature Vibration Current leakage
0–5,000 psi [0–34,474 kPa] 0–5,000 psi [0–34,474 kPa] 32–617°F [0–325°C] 32–257°F [0–125°C] 0–30 gn 0–25 mA
0.17% of full scale 0.17% of full scale 0.67% of full scale 0.67% of full scale 1.67% of full scale 0.20% of full scale
1 psi [6.9 kPa] 1 psi [6.9 kPa] 0.18°F [0.1°C] 0.18°F [0.1°C] 0.1 gn 0.001 mA
5 psi/yr [34.5 kPa/yr] 5 psi/yr [34.5 kPa/yr] na‡ na na na
20 s (1-s RSR†) 20 s 20 s 20 s 20 s 20 s
Parameter Measured
Type 0
Type 1
Intake pressure Discharge pressure Intake temperature Motor temperature Vibration Current leakage
Yes No Yes Yes Yes Yes
Yes Yes Yes Yes Yes Yes
† Rapid † not
sample rate for buildup survey applicable
MultiSensor XT Configurations
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Modbus™ is a trademark of Gould, Inc.
ESP Catalog
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Phoenix Select Gauges Phoenix* Select* ESP Gauge—Lite Application Description
Stainless Steel Part Number
Select ESP gauge, Viton® elastomers Select ESP gauge, Aflas® elastomers
100247227 100260273
Phoenix Select ESP Gauge—Standard Application Description
Stainless Steel Part Number
400 Series Stainless Steel Part Number
538 Series Stainless Steel Part Number
540 Series Stainless Steel Part Number
562 Series Stainless Steel Part Number
675 Series Stainless Steel Part Number
Select ESP gauge, Viton elastomers Select ESP gauge, Aflas elastomers Integral REDA* ESP pump discharge bolt-on sensor, Viton O-rings Integral REDA ESP pump discharge bolt-on sensor, Aflas O-rings
100247227 100260273 na
na† na 100260203
na na 100252035
na na 100252035
na na 100260206
na na 100260208
na
100260204
100260311
100260311
100260207
100260209
† not
applicable
Phoenix Select ESP Gauge—Advanced Application Description
Stainless Steel Part Number
400 Series Stainless Steel Part Number
538 Series Stainless Steel Part Number
540 Series Stainless Steel Part Number
562 Series Stainless Steel Part Number
675 Series Stainless Steel Part Number
Select ESP Gauge, Viton elastomers Select ESP Gauge, Aflas elastomers Integral REDA ESP pump discharge bolt-on sensor, Viton O-rings Integral REDA ESP pump discharge bolt-on sensor, Aflas O-rings Integral REDA ESP pump intake bolt-on sensor, Viton O-rings Integral REDA ESP pump intake bolt-on sensor, Aflas O-rings REDA pump intake extended high-strength coupling, 0.688-in. [17.48-mm] shaft diameter REDA pump intake extended high-strength coupling, 0.875-in. [22.23-mm] shaft diameter REDA pump intake extended high-strength coupling, 1.0-in. [25.4-mm] shaft diameter REDA pump intake extended high-strength coupling, 1.188-in. [30.18-mm] shaft diameter REDA pump intake extended high-strength coupling, 1.375-in. [34.93-mm] shaft diameter
100247227 100260273 na
na† na 100260203
na na 100252035
na na 100252035
na na 100260206
na na 100260208
na
100260204
100260311
100260311
100260207
100260209
na
100260203
100252035
100252035
100260206
100260208
na
100260204
100260311
100260311
100260207
100260209
na
100260278
100260278
100260278
100260278
100260278
na
100260279
100260279
100260279
100260279
100260279
na
100256010
100256010
100256010
100256010
100256010
na
100260280
100260280
100260280
100260280
100260280
na
100260281
100260281
100260281
100260281
100260281
† not
applicable
Downhole Monitoring
■
Phoenix Select Gauges
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Phoenix Select ESP Gauge—Reservoir Application Description
Stainless Steel Part Number
400 Series Stainless Steel Part Number
538 Series Stainless Steel Part Number
540 Series Stainless Steel Part Number
562 Series Stainless Steel Part Number
675 Series Stainless Steel Part Number
Select ESP gauge, sapphire transducer, Viton elastomers Select ESP gauge, sapphire transducer, Aflas elastomers Optional remote reservoir sapphire sensor suspended below the ESP Integral REDA* ESP pump discharge bolt-on sensor, Viton O-rings Integral REDA ESP pump discharge bolt-on sensor, Aflas O-rings Integral REDA ESP pump intake bolt-on sensor, Viton O-rings Integral REDA ESP pump intake bolt-on sensor, Aflas O-rings REDA pump intake extended high-strength coupling, 0.688-in. [17.48-mm] shaft diameter REDA pump intake extended high-strength coupling, 0.875-in. [22.23-mm] shaft diameter REDA pump intake extended high-strength coupling, 1.0-in. [25.4-mm] shaft diameter REDA pump intake extended high-strength coupling, 1.188-in. [30.18-mm] shaft diameter REDA pump intake extended high-strength coupling, 1.375-in. [34.93-mm] shaft diameter
100259314
na†
na
na
na
na
100260274
na
na
na
na
na
100260300
na
na
na
na
na
na
100260203
100252035
100252035
100260206
100260208
na
100260204
100260311
100260311
100260207
100260209
na
100260203
100252035
100252035
100260206
100260208
na
100260204
100260311
100260311
100260207
100260209
na
100260278
100260278
100260278
100260278
100260278
na
100260279
100260279
100260279
100260279
100260279
na
100256010
100256010
100256010
100256010
100256010
na
100260280
100260280
100260280
100260280
100260280
na
100260281
100260281
100260281
100260281
100260281
† not
applicable
Instrument Cable for Integral REDA ESP Sensors and Remote Reservoir Sensor Description
Stainless Steel Part Number material†
Instrument cable for remote reservoir sensor, AISI 316L Instrument cable rated for 302°F [150°C], 160 ft [48.7 m], AISI 316L material† Instrument cable rated for 392°F [200°C], 160 ft [48.7 m], AISI 316L material† † Other
P486021 100260321 100260322
cable material available on request
REDA ESP Motor Base Crossovers for Phoenix Select Gauges Description
Length, in. [cm]
Max. OD, in. [cm]
Carbon Steel Part Number
Stainless Steel Part Number
Redalloy* Part Number
REDA 456 Series, Viton O-rings REDA 456 Series, Aflas O-rings REDA 540 Series, Viton O-rings REDA 540 Series, Aflas O-rings REDA 562 Series, Viton O-rings REDA 562 Series, Aflas O-rings
8 [20.32] 8 [20.32] 8 [20.32] 8 [20.32] 27.75 [70.49] 27.75 [70.49]
4.56 [11.58] 4.56 [11.58] 5.4[13.72] 5.4 [13.72] 5.62 [14.28] 5.62 [14.28]
A346036-232 A346036-233 A346015-231 A346015-232 tba 1250034
A346036-432 A346036-433 A346015-431 A346015-432 tba tba
tba† 100013197 tba tba 1297159 B250034
Note: Not required for motors equipped with Phoenix MSB be assigned
† to
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Aflas® is a registered trademark of Asahi Glass Company, Ltd. Viton® is a registered trademark of E. I. duPont de Nemours and Company.
ESP Catalog
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Phoenix Select Gauges Phoenix* Select* Cable-to-Surface (CTS) Gauges Description
Max. Working Max. Temperature, Discharge °F [°C] Pressure, psi [kPa]
Stainless Steel Part Number
Select CTS gauge, single pressure Select CTS gauge, dual pressure Select CTS gauge for jet pumps
5,000 [34,474] 5,000 [34,474] 5,000 [34,474]
100177674 100177675 100241528
302 [150] 302 [150] 302 [150]
Protector Clamps for Select CTS Gauges Description
OD, in. [cm]
Carbon Steel Part Number
2.375-in. [6.03-mm] API EUE 2.875-in. [7.30-cm] API NU for 5 1⁄2-in., 17-lbm/ft [25.3-kg/m] casing and greater 2.875-in. [7.30-cm] API EUE for 6 5⁄8-in., 38-lbm/ft [56.6-kg/m] casing and greater 3.5-in. [8.89-cm] API EUE for 7-in., 38-lbm/ft [56.6-kg/m] casing and greater 4.5-in. [11.43-cm] API EUE for 7 5⁄8-in., 29.7-lbm/ft [44.2-kg/m] casing and greater 5.5-in. [13.97-cm] API buttress for 8 5⁄8-in., 49-lbm/ft [72.9-kg/m] casing and greater
tba† 4.71 [11.96]
tba 100102153
4.71 [11.96]
tba
5.63 [14.30]
100111445
6.69 [16.99]
100111446
7.34 [18.64]
100160208
Description
OD, in. [cm]
Carbon Steel Part Number
2.375-in. [6.03-cm] API EUE† 2.875-in. [7.30-cm] API NU for 5 1⁄2-in., 17-lbm/ft [25.3 kg/m] casing and greater 2.875-in. [7.30-cm] API EUE for 5 1⁄2-in., 17-lbm/ft [25.3-kg/m] casing and greater 3.5-in. [8.89-cm] API EUE for 7-in., 38-lbm/ft [56.6-kg/m] casing and greater 4.5-in. [11.43-cm] API EUE for 7 5⁄8-in., 29.7-lbm/ft [44.2-kg/m] casing and greater 5.5-in. [13.97-cm] API Buttress for 8 5⁄8-in., 49-lbm/ft [72.9-kg/m] casing and greater
2.375 [6.03] 2.875 [7.30]
100229109 100155024
2.875 [7.30]
100229111
3.5 [8.89]
100162447
4.5 11.43]
100162448
5.5 [13.97]
100162449
† to
be assigned
Ported Tubing Pressure Subs for Select CTS Gauges
† Casing
size to be determined
Downhole Monitoring
■
Phoenix Select Gauges
Back to Downhole Monitoring
Permanent Downhole Instrument Cable for Select CTS Gauges Description
Body Material
Temperature Rating, °F [°C]
Part Number
Instrument cable, 0.028-in. [0.71-mm] wall, unencapsulated Instrument cable, 0.035-in. [0.89-mm] wall, unencapsulated Instrument cable, 0.028-in. [0.71-mm] wall, encapsulated Instrument cable, 0.035-in. [0.89-mm] wall, encapsulated
AISI 316L AISI 316L AISI 316L AISI 316L
302 [150] 302 [150] 302 [150] 302 [150]
P486021 P486033 P485879 P486035
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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Phoenix MultiSensor XT Gauges MultiSensor* XT Gauges Description
Max. Working Pressure, psi [kPa]
Temperature Rating, °F [°C]
Makeup Length, in. [cm]
Carbon Steel Part Number
Stainless Steel Part Number
MultiSensor XT slimline gauge, 375 Series, Viton® elastomers MultiSensor XT gauge, Type 0, Viton elastomers MultiSensor XT gauge, Type 0, Aflas® elastomers MultiSensor XT gauge, Type 1, Viton elastomers MultiSensor XT gauge, Type 1, Aflas elastomers
5,000 [34,474]
257 [125]
47 [119]
na†
100232520
5,000 [34,474]
257 [125]
22 [56]
na
100079628
5,000 [34,474]
257 [125]
22 [56]
na
100135997
5,000 [34,474]
257 [125]
22 [56]
na
100079631
5,000 [34,474]
257 [125]
22 [56]
na
100135995
† not
available
REDA* ESP Motor Base Crossovers Description
Length, in. [cm]
Carbon Steel Part Number
Stainless Steel Part Number
Redalloy* Part Number
375 Series, MultiSensor XT slimline gauge, Viton O-rings 375 Series, Viton O-rings 375 Series, Aflas O-rings 456 Series, Viton O-rings 456 Series, Aflas O-rings 540 Series, Viton O-rings 540 Series, Aflas O-rings 562 Series, Viton O-rings 562 Series, Aflas O-rings
8.00 [20.3] 8.00 [20.3] 8.00 [20.3] 8.00 [20.3] 8.00 [20.3] 8.00 [20.3] 8.00 [20.3] 27.75 [70.5] 27.75 [70.5]
100047668 tba tba A346036-232 A346036-233 A346015-231 A346015-232 tba 1250034
tba† A346044-432 A346044-433 A346036-432 A346036-433 A346015-431 A346015-432 tba tba
tba tba tba tba 100013197 tba tba 1297159 B250034
† to
be assigned
Flange-Mounted REDA ESP Discharge Pressure Subs for MultiSensor XT Type 1 Gauge Description
Max. OD, in. [cm]
Min. ID, in. [cm]
Makeup Length, in. [cm]
Carbon Steel Part Number
Stainless Steel Part Number
400 Series pumps, Viton O-rings 400 Series pumps, Aflas O-rings 513 Series pumps, Viton O-rings 513 Series pumps, Aflas O-rings 538 Series pumps, Viton O-rings 538 Series pumps, Aflas O-rings 562 Series pumps, Viton O-rings 562 Series pumps, Aflas O-rings 675 Series pumps, Viton O-rings 675 Series pumps, Aflas O-rings
4.625 [11.75] 4.625 [11.75] 5.135 [13.04] 5.135 [13.04] 5.380 [13.67] 5.380 [13.67] 5.615 [14.26] 5.615 [14.26] 6.760 [17.17] 6.760 [17.17]
1.875 [4.76] 1.875 [4.76] 2.615 [6.64] 2.615 [6.64] 2.865 [7.28] 2.865 [7.28] 2.990 [7.59] 2.990 [7.59] 3.740 [9.50] 3.740 [9.50]
12 [30.48] 12 [30.48] 12 [30.48] 12 [30.48] 12 [30.48] 12 [30.48] 9 [22.86] 9 [22.86] 9 [22.86] 9 [22.86]
100144512 100144513 100134145 100134146 100134132 100134133 100134154 100134156 100134300 100134302
100144516 100144517 100134148 100134149 100134136 100134139 100134158 100134159 100134305 100134308
Downhole Monitoring
■
Phoenix MultiSensor XT Gauges
Back to Downhole Monitoring
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Aflas® is a registered trademark of Asahi Glass Company, Ltd. Viton® is a registered trademark of E. I. duPont de Nemours and Company.
Tubing-Mounted Discharge Pressure Subs for MultiSensor XT Type 1 Gauge Description
Max. OD, in. [cm]
Min. ID, in. [cm]
3.5 in. [8.89 cm], 9.3 lbm/ft [13.8 kg/m], EUE thread type 4.5 in. [11.43 cm], 12.75 lbm/ft [19.0 kg/m], EUE thread type 4.5 in. [11.43 cm], 12.6 lbm/ft [18.8 kg/m], IBMT thread type 4.5 in. [11.43 cm], 12.6 lbm/ft [18.8 kg/m], Vam thread type
5.760 [14.63]
2.982 [7.57]
6.938 17.62]
† to
Makeup Length, in. [cm]
Carbon Steel Part Number
Stainless Steel Part Number
9.6 24.38]
100126588
tba†
3.948 [10.03]
9.4 [23.88]
100134322
tba
5.923 [15.04]
3.948 [10.03]
16.0 [40.64]
100033291
tba
6.625 [16.83]
3.750 [9.53]
16.2 [41.15]
100134336
tba
be assigned
Discharge Pressure Instrument Cable for the MultiSensor XT Type 1 Gauge Description
Length, ft [m]
Part Number
Instrument cable, AISI 316L body material Instrument cable, INCONEL® 825 body material
160 [48.8] 160 [48.8]
100120402 100194202
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Aflas® is a registered trademark of Asahi Glass Company, Ltd. INCONEL® is a registered trademark of Inco Alloys International, Inc. Viton® is a registered trademark of E. I. duPont de Nemours and Company.
ESP Catalog
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Phoenix Surface Data Acquisition Equipment UniConn* Universal Site Controller Description
Part Number
Base unit Base unit with outdoor enclosure USC 100 communication card Memory module for storing operating performance data, 4-MB storage capacity Memory module USB reader for downloading data to StarView* software Base unit with SpeedStar* variable speed drive retrofit kit to replace HMI units
100018805 100188994 100169107 100203033 100171741 100189002
UniConn Controller Options for Phoenix* Downhole Monitoring Systems Description
Part Number
USC 200 Phoenix downhole monitoring gauge interface card Phoenix downhole monitoring surface kit, complete with USC 200 card, memory module, and ESP power cable interface. For use with UniConn controller in medium-voltage FixStar* applications. Factory installed. Phoenix downhole monitoring surface kit c/w USC 200 card, memory module and ESP power cable interface. For use with UniConn controller in medium-voltage FixStar applications. Field installed. Phoenix downhole monitoring surface kit, complete with USC 200 card, memory module, and ESP power cable interface. For use with UniConn controller in low-voltage FixStar or SpeedStar VSD applications. Field installed. Phoenix downhole monitoring surface kit, complete with USC 200 card, memory module, and ESP power cable interface. For use with UniConn controller in low-voltage FixStar or SpeedStar VSD applications. Factory installed. Choke console with ESP power cable interface for Phoenix ESP gauges (with enclosure) Choke plate, with ESP power cable interface for Phoenix ESP gauges (without enclosure) UniConn controller base unit for Select CTS, complete with USC 200 card, memory module, and outdoor enclosure Surface cable pack for Select CTS applications, complete with surface cable and junction box
100129807 100139602
Downhole Monitoring
■
Phoenix Surface Data Acquisition Equipment
Back to Downhole Monitoring
100139654 100139655 100139603 A446020-031 A446021 100240291 100075758
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
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Pumps
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Pump Summary Pump Summary—338 Series–562 Series Capacity Range, Recommended Limits Series
OD, in. [mm]
338
3.38 [85.85]
387
3.87 [98.30]
400
4.00 [101.60]
540
5.13 [130.30]
538
5.38 [136.65]
562
5.62 [142.75]
Pumps
■
Pump Type
60 Hz, B/D
50 Hz, m3/d
AN550 AN900 AN1200 AN1500 A2700N D3050N D3400N D5850N D475N D725N DN1100 D1400N DN1750 DN1800 DN2150 D2400N DN3000 DN3100 D4300N D5800N GN1600 GN2100 GN3200 GN4000 GN5200 G6200N GN7000 GN10000 SN2600 SN3600 S5000N SN8500 S8900N HN13500 HN15000 H15500N H21500N H28000N
400–700 700–1,060 800–1,650 1,000–2,000 1,800–3,400 2,000–3,700 2,400–4,400 4,400–7,000 200–625 350–925 600–1,350 960–1,700 1,200–2,050 1,200–2,400 1,300–2,600 1,500–3,200 2,100–3,700 2,100–3,900 3,500–5,400 4,400–7,000 1,000–2,150 1,650–2,700 2,200–4,100 3,200–4,800 3,900–6,600 4,500–8,000 5,000–9,000 7,000–12,000 1,600–3,200 2,400–4,600 4,000–5,400 6,000–11,000 4,000–11,000 5,000–18,000 12,000–18,000 11,000–20,000 17,500–24,000 28,000–36,000
53–93 93–140 106–219 132–265 238–450 265–490 318–583 583–927 27–83 46–123 79–179 127–225 159–272 159–318 172–344 199–424 278–490 278–517 464–715 583–927 132–285 219–358 291–543 424–636 517–874 596–1,060 662–1,192 927–1,590 212–424 318–609 530–715 795–1,457 530–1,457 662–2,385 1,590–2,385 1,457–2,650 2,319–3,180 3,710–4,770
Pump Summary Table
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Return to Pumps Pump Summary—675 Series–1125 Series Capacity Range, Recommended Limits Series
OD, in. [mm]
675
6.75 [171.45]
725
7.25 [184.15]
862
8.62 [218.95]
950
9.50 [241.30]
1000
10.00 [254.00]
1125
11.25 [285.75]
Pump Type
60 Hz, B/D
50 Hz, m3/d
J7000N J12000N JN16000 JN21000 L16000N L43000N M520A M520B M520C M675A M675B M675C N1050A N1050B N1400A N1400B P2500A
4,500–9,000 8,000–18,500 12,800–19,500 16,000–25,000 11,000–20,000 36,000–54,000 12,000–20,000 12,000–23,000 12,000–22,000 19,000–32,000 19,000–29,000 19,000–28,000 24,000–47,500 24,000–43,000 35,000–64,000 35,000–60,000 53,486–96,001
596–1,192 1,060–2,451 1,696–2,584 2,120–3,312 1,497–2,650 4,770–7,155 1,590–3,180 1,590–3,047 1,590–2,915 2,517–4,306 2,517–3,842 2,517–3,710 3,180–6,294 3,180–5,697 4,637–8,480 4,637–7,950 7,087–12,720
ESP Catalog
© 2005 Schlumberger. All rights reserved.
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Pump Nomenclature Stage Construction (XX-XX-XXX-XX) Designation
Description
FL C CR
Floater design Compression, fixed-impeller design Compression ring, fixed-impeller design
Pump Configurations (XX-XX-XXX-XX) Designation
Description
UT CT
Upper tandem pump with integral discharge head Center tandem pump with no intake or discharge head; use as a single-section pump with bolt-on discharge and choice of bolt-on intake or gas separator, or as a section of a tandem pump Lower tandem pump with integral intake; use as single-section pump with bolt-on discharge or as a lower section of a tandem pump
LT
Pump Enhancements (XX-XX-XXX-XX) Designation
Description
ES ES-ZS ES-SS ES1 ESX ARZ ARZ-SS ARZ-ZS ARZ-TT FBH
Abrasion-resistant zirconia-carbide bearings in head and base Zirconia silicon-carbide-bearing pair in head and base Silicon-carbide bearings in head and base Abrasion-resistant zirconia-carbide bearings in head, base, and middle of pump Abrasion-resistant bearings in head, base, and X number distributed evenly through the pump Abrasion-resistant zirconia-carbide bearings distributed throughout pump Abrasion-resistant silicone-carbide bearings distributed throughout pump Abrasion-resistant zirconia-silicone carbide bearing pairs distributed throughout pump Tungsten-carbide bearings distributed throughout the pump Full-bearing housing, ceramic bearings located at every stage
Pumps
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Pump Nomenclature
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Bolt-On Pump Discharge Heads 338 Series Part Number
Description
Length, ft [m]
Weight, lbm [kg]
493015 492223
2 3⁄8-in. [60.33-mm] OD 8rd EUE—Carbon steel 2 3⁄8-in. [60.33-mm] OD 8rd EUE—Redalloy* alloy
0.5 [0.15] 0.5 [0.15]
6 [2.7] 4 [1.8]
Part Number
Description
Length, ft [m]
Weight, lbm [kg]
243485 364240
2 ⁄8-in. [60.33-mm] OD 8rd EUE—Carbon steel 2 3⁄8-in. [60.33-mm] OD 8rd EUE—Redalloy alloy
0.6 [0.18] 0.8 [0.24]
10 [4.5] 10 [4.5]
Part Number
Description
Length, ft [m]
Weight, lbm [kg]
194381 492231
3 ⁄2-in. [88.90-mm] OD 8rd EUE—Carbon steel 31⁄2-in. [88.90-mm] OD 8rd EUE—Redalloy alloy
0.8 [0.24] 0.8 [0.24]
22 [10.0] 21 [10.0]
Part Number
Description
Length, ft [m]
Weight, lbm [kg]
274795 1048339
31⁄2-in. [88.90-mm] OD 8rd EUE—Carbon steel 31⁄2-in. [88.90-mm] OD 8rd EUE—Redalloy alloy
0.8 [0.24] 0.8 [0.24]
25 [11.3] 25 [11.3]
Part Number
Description
Length, ft [m]
Weight, lbm [kg]
1006261 997353
5 ⁄2-in. [139.70-mm] OD 8rd LTC—Carbon steel 51⁄2-in. [139.70-mm] OD 8rd LTC—Redalloy alloy
0.8 [0.24] 0.8 [0.24]
30 [13.6] 33 [15.0]
Part Number
Description
Length, ft [m]
Weight, lbm [kg]
1311125
5 ⁄2-in. [139.70-mm] OD 8rd LTC—Carbon steel
0.8 [0.24]
45 [20.4]
400 Series
3
513/538 Series
1
562 Series
675 Series
1
725 Series
Pumps
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1
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Bolt-On Pump Discharge Heads
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AN550 Pump 338 Series, Min. Casing Size 41⁄2-in. [114.3-mm] OD Carbon Steel
ES Carbon Steel
ARZ Carbon Steel
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT-ES Part Number
Max. Stages
FL-CT-ARZ Part Number
10 20 30 40 50 60 70 80 90 100
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48]
38 [17.3] 63 [28.6] 88 [40.0] 113 [51.3] 138 [62.7] 163 [74.0] 188 [85.4] 213 [96.7] 238 [108.1] 263 [119.4]
16 35 54 74 93 112 132 151 170 190
tba† 883157 883165 883173 883181 883199 883207 883215 883223 883231
16 35 54 74 93 112 132 151 170 190
tba tba tba tba Q883181 Q883199 Q883207 C883215 Q883223 Q883231
13 29 45 62 80 96 112 130 146 164
1148261 1148279 1148287 1148295 1148303 1148311 1148329 1148337 1148345 1148352
† to
be assigned
Pumps
■
AN550 Pump
© 2005 Schlumberger. All rights reserved.
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Return to Pumps AN550 Pump, 338 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
50
60
110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320
205 224 244 264 283 302 321 340† 360† 380† 396† 415† 434† 453† 472† 492† 510† 530† 550† 570† 585† 604†
1
1 2 1
70
1 2 1
3 2 2
80
1 2 1
90
1 2 1
1 2
1 1 3 2 2
1 1 3 2 1
1
100
1 2 3
3 4
Note: Stage counts are for FL-CT-ES pumps. use of high-load bearing in protector
† Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
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REDA* ESP
AN550 Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
AN550 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
400–700 B/D 3.38 in. 0.625 in. 0.307 in.2 4.500 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
94 hp 150 hp Not applicable 6,000 psi 6,000 psi
Power (hp)
Efficiency (%)
Head 20
2.00
40
15
1.50
30
1.00
20
0.50
10
Head (ft)
Efficiency 10
Operating range 5
Power 0 0
100
200
300
400
500
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
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600
700
800
0 900
0
Return to Pumps REDA* Pump AN550 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz 25 65 Hz 20
60 Hz 55 Hz
Head (ft)
15 50 Hz
10
5
0.20
70 Hz 65 Hz
0.15 Power (hp)
60 Hz 0.10
55 Hz 50 Hz
0.05
0
100
200
300
400
500
600
700
800
900
1,000
1,100
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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REDA* ESP
AN550 Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
AN550 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
53–93 m3 ⁄d 8.59 cm 1.59 cm 1.98 cm2 11.43 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
78 hp 125 hp Not applicable 41,370 kPa 41,370 kPa
Power (hp)
Efficiency (%)
Head 2.00
40
3.00
1.50
30
2.00
1.00
20
0.50
10
0
0
4.00
Efficiency
Head (m)
Operating range 1.00
Power 0 0
25
50
75 Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
100
125
Return to Pumps REDA* Pump AN550 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz
8.00 7.00
65 Hz 60 Hz
6.00
55 Hz
5.00 Head (m)
50 Hz
4.00
3.00 2.00
1.00
0.20
70 Hz 65 Hz
0.15 Power (hp)
60 Hz 0.10
55 Hz 50 Hz
0.05
0
25
50
75
100
125
150
175
Capacity (m3/d)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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AN900 Pump 338 Series, Min. Casing Size 41⁄2 -in. [114.3-mm] OD Carbon Steel
ES Carbon Steel
ARZ Carbon Steel
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT-ES Part Number
Max. Stages
FL-CT-ARZ Part Number
10 20 30 40 50 60 70 80 90 100
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48]
38 [17.3] 63 [28.6] 88 [40.0] 113 [51.3] 138 [62.7] 163 [74.0] 188 [85.4] 213 [96.7] 238 [108.1] 263 [119.4]
16 35 54 74 93 112 132 151 170 190
tba† tba 883264 883272 883280 883298 883306 883314 883322 883330
16 35 54 74 93 112 132 151 170 190
tba tba tba tba tba C883298 Q883306 100022487 tba Q883330
13 29 45 62 80 96 112 130 146 164
1148162 1148170 1148188 1148196 1148204 1148212 1148220 1148238 1148246 1148253
† to
be assigned
Pumps
■
AN900 Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps AN900 Pump, 338 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
50
60
110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 330
205 224 244 264 283 302 321 340† 359† 378† 396† 415† 434† 453† 472† 491† 510† 529† 548† 567† 585† 604† 623†
1
1 2 1
70
1 2 1
3 2 2
80
1 2 1
90
1 2 1
1 2
1 1 3 2 2
1 1 3 2 1
1
100
3 4 3
1 2 3
1
Note: Stage counts are for FL-CT-ES pumps. † Requires use of high-load bearing in protector
ESP Catalog
© 2005 Schlumberger. All rights reserved.
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Return to Pumps Pumps
REDA* ESP
AN900 Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
AN900 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
700–1,060 B ⁄ D 3.38 in. 0.625 in. 0.307 in.2 4.500 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
94 hp 150 hp Not applicable 6,000 psi 6,000 psi
Power (hp)
Efficiency (%)
1.25
50
1.00
40
15
0.75
30
10
0.50
20
0.25
10
25
Efficiency
Head 20 Operating range Head (ft)
5 Power
0 0
250
500
750 Capacity (B ⁄ D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
1,000
1,250
0 1,500
0
Return to Pumps REDA* Pump AN900 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
25 70 Hz 20
65 Hz 60 Hz
Head (ft)
15
55 Hz 50 Hz
10
5
70 Hz 0.20 65 Hz 0.15 Power (hp)
60 Hz 55 Hz
0.10 50 Hz 0.05
0
250
500
750 1,000 Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
1,250
1,500
1,750
ESP Catalog
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REDA* ESP
AN900 Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
AN900 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
93–140 m3 ⁄d 8.59 cm 1.59 cm 1.98 cm2 11.43 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
78 hp 125 hp Not applicable 41,370 kPa 41,370 kPa
Power (hp)
Efficiency (%)
1.25
50
1.00
40
3.00
0.75
30
2.00
0.50
20
1.00
0.25
10
5.00
Efficiency Head
4.00 Operating range Head (m)
Power 0 0
25
50
75
100
125
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
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150
175
0 200
0
Return to Pumps REDA* Pump AN900 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
8.00 7.00
70 Hz 65 Hz
6.00
Head (m)
60 Hz
5.00
55 Hz 4.00 50 Hz 3.00 2.00 1.00
70 Hz 0.20 65 Hz 0.15
60 Hz
Power (hp)
55 Hz
0.10 50 Hz 0.05
0
25
50
75
100
125
150
175
200
225
250
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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AN1200 Pump 338 Series, Min. Casing Size 41⁄2 -in. [114.3-mm] OD Carbon Steel
ES Carbon Steel
ARZ Carbon Steel
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT-ES Part Number
Max. Stages
FL-CT-ARZ Part Number
10 20 30 40 50 60 70 80 90 100
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48]
38 [17.3] 63 [28.6] 88 [40.0] 113 [51.3] 138 [62.7] 163 [74.0] 188 [85.4] 213 [96.7] 238 [108.1] 263 [119.4]
13 29 45 61 77 93 108 124 140 156
883348 883355 tba 883371 883389 883397 883405 883413 883421 883439
13 29 45 61 77 93 108 124 140 156
tba† tba tba tba tba tba Q883405 Q883413 Q883421 tba
11 23 37 50 66 79 92 107 120 135
1147388 1147396 1147404 1147412 1147420 1147438 1147446 1147453 1147461 1147479
† to
be assigned
Pumps
■
AN1200 Pump
© 2005 Schlumberger. All rights reserved.
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Return to Pumps AN1200 Pump, 338 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
50
60
110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 330 340 350 360 370 380 390 400 410 420
170 186 201 216 232 248 264 280 296 312 324 340 356† 372† 388† 404† 420† 436† 452† 468† 480† 496† 512† 528† 544† 560† 576† 592† 608† 624† 636† 652†
1
1 2 1
70
1 2 1
3 2 2
80
1 2 1
90
1 2 1
1 1 1 3 2‡ 1‡ 3‡ 4‡ 3‡ 3‡ 1‡
1‡ 3‡
1‡ 1‡
1‡
1‡ 2‡ 3‡
1‡
4‡ 3‡
2‡ 1‡
1 2
1 3 2 2
1‡
100
1‡ 3‡ 3‡ 4‡
3‡ 3‡
Note: Stage counts are for FL-CT-ES pumps. use of high-load bearing in protector ‡ Requires use of high-strength shaft in lowermost pump † Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
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REDA* ESP
AN1200 Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
AN1200 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
800–1,650 B ⁄D 3.38 in. 0.625 in. 0.307 in.2 4.500 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
94 hp 150 hp Not applicable 6,000 psi 6,000 psi
Power (hp)
Efficiency (%)
1.25
50
1.00
40
15
0.75
30
10
0.50
20
0.25
10
25
Efficiency
Head
20
Operating range Head (ft)
5
Power
0 0
250
500
750
1,000
1,250
Capacity (B ⁄ D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
1,500
1,750
0 2,000
0
Return to Pumps REDA* Pump AN1200 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
25 70 Hz 65 Hz
20
60 Hz Head (ft)
55 Hz
15
50 Hz 10
5
0.35
70 Hz
0.30
65 Hz
0.25 60 Hz Power (hp)
0.20 55 Hz 0.15
50 Hz
0.10 0.05
0
250
500
750
1,000
1,250
1,500
1,750
2,000
2,250
2,500
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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REDA* ESP
AN1200 Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
AN1200 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
106–219 m3 ⁄d 8.59 cm 1.59 cm 1.98 cm2 11.43 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
78 hp 125 hp Not applicable 41,370 kPa 41,370 kPa
Power (hp)
Efficiency (%)
1.25
50
1.00
40
3.00
0.75
30
2.00
0.50
20
1.00
0.25
10
Efficiency
5.00 Head 4.00
Operating range Head (m)
Power 0 0
25
50
75
100
125
150
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
175
200
225
250
0 275
0
Return to Pumps REDA* Pump AN1200 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
8.00 70 Hz
7.00
65 Hz 6.00 60 Hz 5.00 Head (m)
55 Hz 4.00
50 Hz
3.00 2.00
1.00
70 Hz
0.35 0.30
65 Hz
0.25 60 Hz Power (hp)
0.20 55 Hz 0.15
50 Hz
0.10 0.05 0
50
100
150
200
250
300
350
400
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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AN1500 Pump 338 Series, Min. Casing Size 41⁄2 -in. [114.3-mm] OD Carbon Steel
ES Carbon Steel
ARZ Carbon Steel
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT-ES Part Number
Max. Stages
FL-CT-ARZ Part Number
10 20 30 40 50 60 70 80 90 100
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48]
38 [17.3] 63 [28.6] 88 [40.0] 113 [51.3] 138 [62.7] 163 [74.0] 188 [85.4] 213 [96.7] 238 [108.1] 263 [119.4]
10 23 35 48 60 73 85 98 110 123
tba† 883561 tba 883587 883595 883603 883611 883629 883637 883645
10 23 35 48 60 73 85 98 110 123
tba tba tba tba tba Q883603 Q883611 Q883629 Q883637 Q883645
8 19 29 40 51 62 73 84 95 106
1147172 1147180 1147198 1147206 1147214 1147222 1147230 1147248 1147255 1147263
† to
be assigned
Pumps
■
AN1500 Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps AN1500 Pump, 338 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
50
60
110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 330 340 350 360 370 380 390 400 410 420 430 440 450 460 470 480 490 500
133 146 158 170 183 196 208 220 233 246 255 268 280 294 306 319 330 343† 356† 369† 379† 392† 404† 417† 428† 440† 453† 467† 479† 492† 502† 514† 526† 538† 550† 563† 576† 589† 602† 615†
1
1 2 1
70
1 2 1
3 2 2
80
1 2 1
90
1 2 1
1 2
1 1 3 2 2
1 1 3 2 1
1
100
3 4‡ 3‡ 3‡ 1‡
1‡ 1‡ 3‡ 4‡ 3‡
1‡ 1‡ 4‡ 3‡ 2‡ 1‡
1 2 3
1‡ 2‡ 3‡ 4‡ 5‡ 4‡ 3‡ 2‡ 1‡
1‡ 3‡ 3‡ 4‡
1‡ 2‡ 3‡ 4‡ 5‡
Note: Stage counts are for FL-CT-ES pumps. use of high-load bearing in protector ‡ Requires use of high-strength shaft in lowermost pump † Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
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REDA* ESP
AN1500 Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
AN1500 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
1,000–2,000 B/D 3.38 in. 0.688 in. 0.371 in.2 4.500 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
125 hp 200 hp Not applicable 6,000 psi 6,000 psi
Efficiency
Power (hp)
Efficiency (%)
2.00
40
15
1.50
30
10
1.00
20
5
0.50
10
20 Head
Operating range
Head (ft)
Power
0 0
250
500
750
1,000
1,250
1,500
1,750
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
2,000
2,250
2,500
0 2,750
0
Return to Pumps REDA* Pump AN1500 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
22.50 70 Hz 20.00 65 Hz
17.50
60 Hz
15.00 Head (ft)
55 Hz
12.50
50 Hz 10.00 7.50 5.00 2.50
0.50
70 Hz
0.45 0.40
65 Hz
0.35 Power (hp)
60 Hz
0.30 0.25
55 Hz
0.20
50 Hz
0.15 0.10 0.05 0
500
1,000
1,500
2,000
2,500
3,000
3,500
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
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REDA*ESP
AN1500 Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
AN1500 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
132–265 m3 ⁄d 8.59 cm 1.75 cm 2.39 cm2 11.43 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
104 hp 167 hp Not applicable 41,370 kPa 41,370 kPa
Power (hp)
Efficiency (%)
2.00
40
1.50
30
2.00
1.00
20
1.00
0.50
10
4.00 Head Operating range 3.00 Head (m)
Efficiency
Power 0 0
50
100
150
200
250
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
300
350
0 400
0
Return to Pumps REDA* Pump AN1500 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz 6.00 65 Hz 5.00 60 Hz 4.00 Head (m)
55 Hz 50 Hz
3.00
2.00
1.00
0.50
70 Hz
0.45 0.40
65 Hz
0.35 60 Hz
0.30 Power (hp)
0.25
55 Hz
0.20
50 Hz
0.15 0.10 0.05 0
50
100
150
200
250
300
350
400
450
500
550
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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A2700N Pump 338 Series, Min. Casing Size 41⁄2 -in. [114.3-mm] OD ES Carbon Steel
ARZ Carbon Steel
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
FL-CT-ES Part Number
Max. Stages
CR-CT-ARZ Part Number
10 20 30 40 50 60 70 80 90 100 110 120 130 140 150
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
38 [17.3] 63 [28.6] 88 [40.0] 113 [51.3] 138 [62.7] 163 [74.0] 188 [85.4] 213 [96.7] 238 [108.1] 263 [119.4] 288 [130.8] 313 [142.1] 338 [153.5] 363 [164.8] 388 [176.2]
4 10 15 20 26 31 37 42 48 53 59 64 70 75 81
100142518 100160591 100160605 100160606 100150209 100160608 100160609 100160610 100150210 100160611 100160613 100150211 100176477 100176480 100176481
4 10 15 21 26 31 37 42 48 53 59 64 70 75 81
100144727 100160184 100160183 100159837 100151494 100159833 100159826 100159721 100151513 100159718 100159710 100151536 100167674 100167678 100167679
338 Series, Min. Casing Size 41⁄2 -in. [114.3-mm] OD ES Carbon Steel
ARZ Carbon Steel
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
FL-LT-ES Part Number
Max. Stages
CR-LT-ARZ Part Number
10 20 30 40 50 60 70 80 90 100 110 120 130 140 150
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
38 [17.3] 63 [28.6] 88 [40.0] 113 [51.3] 138 [62.7] 163 [74.0] 188 [85.4] 213 [96.7] 238 [108.1] 263 [119.4] 288 [130.8] 313 [142.1] 338 [153.5] 363 [164.8] 388 [176.2]
4 10 15 20 26 31 37 42 48 53 59 64 70 75 81
100146112 100155822 100155824 100155827 100151727 tba† 100156087 100156088 100151728 100156090 100156093 100151729 100177056 100177058 100177060
4 10 15 21 26 31 37 42 48 53 59 64 70 75 81
100145843 100158103 100158104 100158105 100158106 100158107 100158109 100158110 100158111 100158112 100158113 100158116 100173493 100173494 100173495
† to
be assigned
Pumps
■
A2700N Pump
© 2005 Schlumberger. All rights reserved.
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Return to Pumps A2700N Pump, 338 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
80
90
160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 330 340 350 360 370 380 390 400 410 420 430 440 450 460 470 480 490 500 510 520 530 540 550 560 570 580 590 600
84† 90† 95† 101† 106† 112† 118† 123† 128† 134† 140† 145† 150† 156† 162† 165† 171† 177† 182† 187† 192† 198† 204† 210† 215† 220† 225† 231† 237† 243† 245† 251† 256† 262† 267† 274† 280† 285† 291† 296† 302†, § 307†, § 312† 318†, § 324†, §
2 1 1
1 1
100
1 1 2 1
2 1
110
1 2 1
1 2 3 2 1
1 1
120
1 2 1
1 2 3 2 1
3 3 4 3‡ 3‡ 1‡
130
1 2 1
1 2 3 2 1
140
1 2 1
1 2 3 2 1
150
1 2
1 2 3
1‡ 1‡ 3‡ 4‡ 3‡ 3‡ 2‡ 2‡ 1‡
1‡ 0‡ 1‡ 0‡ 1‡ 2‡ 1‡
1‡ 1‡ 2‡ 2‡ 2‡ 3‡ 4‡
Note: Stage counts are for FL-CT-ES pumps. use of high-load bearing in protector for compression pumps ‡ Requires use of high-strength shaft in lowermost pump § Requires use of high-load bearing in protector for floater pumps † Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
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REDA* ESP
A2700N Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
A2700N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
1,800–3,400 B/D 3.38 in. 0.688 in. 0.371 in.2 4.500 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
125 hp 200 hp Not applicable 6,000 psi 6,000 psi
Power (hp)
Efficiency (%)
3.00
60
2.50
50
20
2.00
40
15
1.50
30
1.00
20
0.50
10
30 Operating range 25 Head Head (ft)
Efficiency 10
5
Power
0 0
500
1,000
1,500
2,000
2,500
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
3,000
3,500
0 4,000
0
Return to Pumps REDA* Pump A2700N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
30
70 Hz
25
65 Hz 20
60 Hz
Head (ft)
55 Hz 15 50 Hz 10
5
70 Hz
0.70 0.60
65 Hz
0.50 60 Hz Power (hp)
0.40 55 Hz 0.30
50 Hz
0.20 0.10
0
500
1,000
1,500
2,000
2,500
3,000
3,500
4,000
4,500
5,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
A2700N Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
A2700N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
238–450 m3 ⁄d 8.59 cm 1.75 cm 3.40 cm2 11.43 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
104 hp 167 hp Not applicable 41,370 kPa 41,370 kPa
Power (hp)
Efficiency (%)
6.00
3.00
60
5.00
2.50
50
2.00
40
1.50
30
1.00
20
0.50
10
Head 4.00 Head (m)
Efficiency
3.00
2.00 Operating range 1.00 Power 0 0
50
100
150
200
250
300
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
350
400
450
500
0 550
0
Return to Pumps REDA* Pump A2700N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
8.00 70 Hz 7.00 65 Hz 6.00 60 Hz 5.00 Head (m)
55 Hz
4.00
50 Hz
3.00 2.00
1.00
70 Hz
0.70 0.60
65 Hz
0.50 60 Hz Power (hp)
0.40 55 Hz 0.30
50 Hz
0.20 0.10
0
100
200
300
400
500
600
700
800
Capacity (m3/d)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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D3050N Pump 387 Series, Min. Casing Size 5 1⁄2-in. [139.7-mm] OD ES1 Carbon Steel Housing 40 50 60 70 80 90 100 110 120 130 140 150
ES1 Redalloy* Alloy
Length, ft [m]
Weight, lbm [kg]
Max. Stages
CR-CT-ES1† Part Number
Max. Stages
CR-CT-ES1† Part Number
6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
135 [61.3] 165 [74.9] 195 [88.5] 225 [102.2] 255 [115.8] 285 [129.4] 315 [143.0] 345 [156.6] 375 [170.3] 405 [183.9] 435 [197.5] 465 [211.1]
28 35 43 50 58 65 73 80 88 95 103 110
100168634 100119587 100168640 100168641 100168644 100168649 100119586 100168651 100168658 100168663 100168668 100119584
28 35 43 50 58 65 73 80 88 95 103 110
tba‡ tba tba tba tba tba 100168675 100168677 100167679 100168680 100168683 100168685
† This
factory-shimmed pump type should always be installed with a factory-shimmed coupling. If this pump type is mated with other factory-shimmed equipment, no shimming is required during assembly. Conversely, if this pump type is mated with nonfactory-shimmed equipment, the field shimming procedures must be followed. be assigned
‡ to
387 Series, Min. Casing Size 5 1⁄2-in. [139.7-mm] OD ARZ Carbon Steel
ARZ Redalloy Alloy
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
CR-CT-ARZ † Part Number
Max. Stages
CR-CT-ARZ † Part Number
40 50 60 70 80 90 100 110 120 130 140 150
6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
135 [61.3] 165 [74.9] 195 [88.5] 225 [102.2] 255 [115.8] 285 [129.4] 315 [143.0] 345 [156.6] 375 [170.3] 405 [183.9] 435 [197.5] 465 [211.1]
26 33 40 47 54 61 68 75 82 89 96 103
tba‡ tba tba tba tba tba tba tba tba tba tba tba
26 33 40 47 54 61 68 75 82 89 96 103
tba tba tba tba tba tba tba tba tba tba tba tba
† This
factory-shimmed pump type should always be installed with a factory-shimmed coupling. If this pump type is mated with other factory-shimmed equipment, no shimming is required during assembly. Conversely, if this pump type is mated with nonfactory-shimmed equipment, the field shimming procedures must be followed. be assigned
‡ to
Pumps
■
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
D3050N Pump
Return to Pumps
Return to Pumps Advanced Designs—387 Series, Min. Casing Size 5 1⁄2-in. [139.7-mm] OD Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
Part Number
Configuration
Housing Material
Integral Intake
130 150 150 150 150
19.0 [5.8] 21.8 [6.7] 21.8 [6.7] 21.8 [6.7] 21.8 [6.7]
504 [229] 577 [262] 577 [262] 577 [262] 577 [262]
95 99 99 99 99
100149448 100204009 100123022 100204063 100169384
C-UT-ES1† C-CT-ES1† C-LT-ES1† C-CT-ES1† C-LT-ES1†
Carbon steel Carbon steel Carbon steel Redalloy* alloy Redalloy alloy
Yes Yes
Integral AGH* Device Yes Yes Yes Yes
† This
factory-shimmed pump type should always be installed with a factory-shimmed coupling. If this pump type is mated with other factory-shimmed equipment, no shimming is required during assembly. Conversely, if this pump type is mated with nonfactory-shimmed equipment, the field shimming procedures must be followed.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
D3050N Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
D3050N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
2,000–3,700 B/D 3.87 in. 0.875 in. 0.601 in.2 5.5 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
256 hp 410 hp Not applicable 4,800 psi 4,800 psi
Power (hp)
Efficiency (%)
Head 30
3.00
60
25
2.50
50
20
2.00
40
15
1.50
30
1.00
20
0.50
10
Efficiency Head (ft)
Operating range 10 Power 5
0 0
500
1,000
1,500
2,000
2,500
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
3,000
3,500
4,000
0 4,500
0
Return to Pumps REDA* Pump D3050N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
45 40 70 Hz 35 65 Hz 30 60 Hz Head (ft)
25 55 Hz 20
50 Hz
15 10 5
70 Hz 1.00 65 Hz 0.75
60 Hz
Power (hp)
55 Hz 0.50 50 Hz 0.25
0
500
1,000
1,500
2,000
2,500
3,000
3,500
4,000
4,500
5,000
5,500
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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REDA* ESP
D3050N Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
D3050N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
265–490 m3 ⁄d 9.83 cm 2.22 cm 3.88 cm2 13.97 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
213 hp 342 hp Not applicable 33,095 kPa Not applicable
Power (hp)
Efficiency (%)
3.50
70
6.00
3.00
60
5.00
2.50
50
2.00
40
1.50
30
1.00
20
0.50
10
7.00 Head
Efficiency Head 4.00 (m) 3.00
Operating range
2.00
Power
1.00
0 0
100
200
300 Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
400
500
0 600
0
Return to Pumps REDA* Pump D3050N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
12.50 70 Hz 10.00
65 Hz 60 Hz
Head (m)
7.50 55 Hz 50 Hz 5.00
2.50
70 Hz 10.00 65 Hz 7.50 Power (hp)
60 Hz 55 Hz
5.00 50 Hz 2.50
0
100
200
300
400
500
600
700
800
900
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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D3400N Pump 387 Series, Min. Casing Size 5 1⁄2-in. [139.7-mm] OD ES1 Carbon Steel Housing 40 50 60 70 80 90 100 110 120 130 140 150
CR-CT-ES1†
ES1 Redalloy* Alloy
Length, ft [m]
Weight, lbm [kg]
Max. Stages
Part Number
Max. Stages
CR-CT-ES1† Part Number
6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
135 [61.3] 165 [74.9] 195 [88.5] 225 [102.2] 255 [115.8] 285 [129.4] 315 [143.0] 345 [156.6] 375 [170.3] 405 [183.9] 435 [197.5] 465 [211.1]
21 27 33 38 44 49 55 61 67 72 78 83
100173649 100154930 100173650 100173651 100173655 100173657 100138334 100173659 100173661 100173664 100173666 100138336
21 27 33 38 44 49 55 61 67 72 78 83
tba‡ tba tba tba tba tba 100173961 100173963 100173966 100173967 100173969 100173970
† This
factory-shimmed pump type should always be installed with a factory-shimmed coupling. If this pump type is mated with other factory-shimmed equipment, no shimming is required during assembly. Conversely, if this pump type is mated with nonfactory-shimmed equipment, the field shimming procedures must be followed. be assigned
‡ to
387 Series, Min. Casing Size 5 1⁄2-in. [139.7-mm] OD ARZ Carbon Steel Housing
Length, ft [m]
Weight, lbm [kg]
40 50 60 70 80 90 100 110 120 130 140 150
6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
135 [61.3] 165 [74.9] 195 [88.5] 225 [102.2] 255 [115.8] 285 [129.4] 315 [143.0] 345 [156.6] 375 [170.3] 405 [183.9] 435 [197.5] 465 [211.1]
Max. Stages 21 27 33 38 44 49 55 61 67 72 78 83
ARZ Redalloy Alloy
CR-CT-ARZ † Part Number
Max. Stages
CR-CT-ARZ † Part Number
100218644 100218648 100218651 100218657 100218659 100218660 100218661 100218663 100218665 100218666 100218668 100218670
21 27 33 38 44 49 55 61 67 72 78 83
tba‡ tba tba tba tba tba 100219689 100219690 100219691 100219692 100219693 100219694
† This
factory-shimmed pump type should always be installed with a factory-shimmed coupling. If this pump type is mated with other factory-shimmed equipment, no shimming is required during assembly. Conversely, if this pump type is mated with nonfactory-shimmed equipment, the field shimming procedures must be followed. be assigned
‡ to
Pumps
■
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
D3400N Pump
Return to Pumps
Return to Pumps Advanced Designs—387 Series, Min. Casing Size 5 1⁄2-in. [139.7-mm] OD Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
Part Number
Configuration
Housing Material
50 130 150 150 150 150
7.9 [2.4] 19.0 [5.8] 21.8 [6.7] 21.8 [6.7] 21.8 [6.7] 21.8 [6.7]
205 [93] 504 [229] 577 [262] 577 [262] 577 [262] 577 [262]
27 72 80 80 80 80
100163980 100138337 100188486 100174910 100188508 100174920
C-UT-ES1† C-UT-ES1† C-CT-ES1† C-LT-ES1† C-CT-ES1† C-LT-ES1†
Carbon steel Carbon steel Carbon steel Carbon steel Redalloy* alloy Redalloy alloy
Integral Intake
Yes Yes
Integral AGH* Device
Yes Yes Yes Yes
† This
factory-shimmed pump type should always be installed with a factory-shimmed coupling. If this pump type is mated with other factory-shimmed equipment, no shimming is required during assembly. Conversely, if this pump type is mated with nonfactory-shimmed equipment, the field shimming procedures must be followed.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
D3400N Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
D3400N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
2,400–4,400 B/D 3.87 in. 0.875 in. 0.601 in.2 5.500 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
256 hp 410 hp Not applicable 4,800 psi Not applicable
Power (hp)
Efficiency (%)
3.00
60
2.50
50
2.00
40
15
1.50
30
10
1.00
20
0.50
10
30 Head Operating range
25
20 Head (ft)
Efficiency
Power 5
0 0
500
1,000
1,500
2,000
2,500
3,000
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
3,500
4,000
4,500
0 5,000
0
Return to Pumps REDA* Pump D3400N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
40 35 70 Hz 30 65 Hz 25 Head (ft)
60 Hz 55 Hz
20
50 Hz 15 10 5
70 Hz
1.25 65 Hz
1.00 Power (hp)
60 Hz
0.75 55 Hz 0.50
50 Hz
0.25
0
1,000
2,000
3,000
4,000
5,000
6,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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REDA*ESP
D3400N Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
D3400N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
318–583 m3 ⁄d 9.83 cm 2.22 cm 3.88 cm2 13.97 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
213 hp 342 hp Not applicable 33,095 kPa Not applicable
Head
Power (hp)
Efficiency (%)
3.00
60
5.00
2.50
50
4.00
2.00
40
3.00
1.50
30
2.00
1.00
20
0.50
10
6.00
Operating range
Head (m)
Efficiency
1.00
Power
0 0
100
200
300
400 Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
500
600
0 700
0
Return to Pumps REDA* Pump D3400N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz 10.00 65 Hz 60 Hz
7.50
55 Hz
Head (m)
50 Hz 5.00
2.50
70 Hz
1.25 65 Hz
1.00 60 Hz Power (hp)
0.75 55 Hz 0.50
50 Hz
0.25
0
100
200
300
400
500
600
700
800
900
1,000
Capacity (m3/d)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
D5850N Pump 387 Series, Min. Casing Size 5 1⁄2-in. [139.7-mm] OD ES1 Carbon Steel Housing 40 50 60 70 80 90 100 110 120 130 140 150
ES1 Redalloy* Alloy
Length, ft [m]
Weight, lbm [kg]
Max. Stages
CR-CT-ES1† Part Number
Max. Stages
CR-CT-ES1† Part Number
6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
135 [61.3] 165 [74.9] 195 [88.5] 225 [102.2] 255 [115.8] 285 [129.4] 315 [143.0] 345 [156.6] 375 [170.3] 405 [183.9] 435 [197.5] 465 [211.1]
17 22 26 31 35 40 44 49 54 58 63 67
100130938 100164985 100164987 100164988 100164989 100164990 100164991 100164993 100164994 100164995 100164996 100131728
17 22 26 31 35 40 44 49 54 58 63 67
tba‡ tba tba tba tba tba 100166174 100166175 100166177 100166179 100166180 100166181
† This
factory-shimmed pump type should always be installed with a factory-shimmed coupling. If this pump type is mated with other factory-shimmed equipment, no shimming is required during assembly. Conversely, if this pump type is mated with nonfactory-shimmed equipment, the field shimming procedures must be followed. be assigned
‡ to
387 Series, Min. Casing Size 5 1⁄2-in. [139.7-mm] OD ARZ Carbon Steel Housing
Length, ft [m]
Weight, lbm [kg]
40 50 60 70 80 90 100 110 120 130 140 150
6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
135 [61.3] 165 [74.9] 195 [88.5] 225 [102.2] 255 [115.8] 285 [129.4] 315 [143.0] 345 [156.6] 375 [170.3] 405 [183.9] 435 [197.5] 465 [211.1]
Max. Stages 17 22 26 31 35 40 44 49 54 58 63 67
ARZ Redalloy Alloy
CR-CT-ARZ † Part Number
Max. Stages
CR-CT-ARZ † Part Number
tba‡ tba tba tba tba tba tba tba tba tba tba tba
17 22 26 31 35 40 44 49 54 58 63 67
tba tba tba tba tba tba tba tba tba tba tba tba
† This
factory-shimmed pump type should always be installed with a factory-shimmed coupling. If this pump type is mated with other factory-shimmed equipment, no shimming is required during assembly. Conversely, if this pump type is mated with nonfactory-shimmed equipment, the field shimming procedures must be followed. be assigned
‡ to
Pumps
■
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
D5850N Pump
Return to Pumps
Return to Pumps Advanced Designs—387 Series, Min. Casing Size 5 1⁄2-in. [139.7-mm] OD Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
Part Number
Configuration
Housing Material
40 150 150 150 150 150
6.3 [1.92] 21.8 [6.65] 21.8 [6.65] 21.8 [6.65] 21.8 [6.65] 21.8 [6.65]
168 [76] 577 [262] 577 [262] 577 [262] 577 [262] 577 [262]
17 67 67 67 67 67
100138401 100131226 100188076 100096754 100188089 100166317
C-UT-ES1† C-UT-ES1† C-CT-ES1† C-LT-ES1† C-CT-ES1† C-LT-ES1†
Carbon steel Carbon steel Carbon steel Carbon steel Redalloy* alloy Redalloy alloy
Integral Intake
Yes Yes
Integral AGH* Device
Yes Yes Yes Yes
† This
factory-shimmed pump type should always be installed with a factory-shimmed coupling. If this pump type is mated with other factory-shimmed equipment, no shimming is required during assembly. Conversely, if this pump type is mated with nonfactory-shimmed equipment, the field shimming procedures must be followed.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
D5850N Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
D5850N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
4,400–7,000 B/D 3.87 in. 0.875 in. 0.601 in.2 5.500 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
256 hp 410 hp Not applicable 4,800 psi Not applicable
Efficiency (%)
3.50
70
3.00
60
25
2.50
50
20
2.00
40
15
1.50
30
1.00
20
0.50
10
35 Efficiency
30
Operating range
Head
Head (ft)
Power (hp)
10
Power
5
0 0
1,000
2,000
3,000
4,000
5,000
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
6,000
7,000
0 8,000
0
Return to Pumps REDA* Pump D5850N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
40 35
70 Hz
30
Head (ft)
65 Hz 60 Hz
25
55 Hz 20 50 Hz 15 10
5
2.25
70 Hz
2.00 65 Hz
1.75 1.50 Power (hp)
60 Hz
1.25 55 Hz
1.00 50 Hz
0.75 0.50 0.25 0
1,000
2,000
3,000
4,000
5,000
6,000
7,000
8,000
9,000
10,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
D5850N Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
D5850N Pump
583–927 m3 ⁄d 9.83 cm 2.22 cm 3.88 cm2 13.97 cm
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
213 hp 342 hp Not applicable 33,095 kPa Not applicable
7.00
6.00
Head
5.00
Head (m)
4.00
Efficiency
3.00
Operating range
2.00 Power
1.00
0 0
100
200
300
400
500
600
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
700
800
900
1,000
Power (hp)
Efficiency (%)
3.50
70
3.00
60
2.50
50
2.00
40
1.50
30
1.00
20
0.50
10
0 1,1 00
0
Return to Pumps REDA* Pump D5850N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz 10.00 65 Hz 60 Hz
7.50 Head (m)
55 Hz 50 Hz 5.00
2.50
2.25
70 Hz
2.00 65 Hz
1.75 1.50 Power (hp)
60 Hz
1.25 55 Hz
1.00 50 Hz
0.75 0.50 0.25 0
250
500
750
1,000
1,250
1,500
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
D475N Pump 400 Series, Min. Casing Size 51⁄2-in. [139.7-mm] OD Carbon Steel
ES Carbon Steel
ARZ Carbon Steel
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT-ES Part Number
Max. Stages
FL-CT-ARZ Part Number
10 20 30 40 50 60 70 80 90 100 110 120
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34]
45 [20.4] 75 [34.1] 105 [47.7] 135 [61.3] 165 [74.9] 195 [88.5] 225 [102.2] 255 [115.8] 285 [129.4] 315 [143.0] 345 [156.6] 375 [170.3]
16 34 52 70 88 106 124 142 160 178 196 214
tba† tba tba 1320712 1323310 1323328 1323336 1323344 1323351 1323369 1323377 1323385
16 34 52 70 88 106 124 142 160 178 196 214
tba tba tba D320712 D323310 tba tba tba D323351 D323369 100004493 tba
13 29 45 60 77 93 109 126 141 158 174 190
tba tba tba 1323450 1323468 1323476 1323484 1323492 1323500 1323518 1323526 1323534
† to
be assigned
Pumps
■
D475N Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps D475N Pump, 400 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
60
70
130 140 150 160 170 180 190 200 210 220 230
230 248 266 284 302 320 338 356† 374† 392† 410†
1
1 2 1
80
1 2 1
90
1 2 1
100
1 2 1
110
120
1 2 1
1
Note: Stage counts are for FL-CT-ES pumps. † Requires use of buttress threads in uppermost pump
ESP Catalog
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps Pumps
REDA* ESP
D475N Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
D475N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
200–625 B ⁄ D 4.00 in. 0.625 in. 0.307 in.2 5.500 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
94 hp 150 hp 5,000 psi 6,000 psi 6,000 psi
Power (hp)
Efficiency (%)
1.25
50
1.00
40
0.75
30
20
0.50
20
10
0.25
10
50
40 Operating range Head Head (ft)
30
Efficiency
Power 0 0
100
200
300
400
500
Capacity (B ⁄ D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
600
700
0 800
0
Return to Pumps REDA* Pump D475N Performance Curve Curve computed for one stage in fluid of 1.00 sg. 70 Hz 40 65 Hz 35 60 Hz 30 55 Hz Head (ft)
25 50 Hz 20
15 10
5
70 Hz 0.25 65 Hz 0.20 60 Hz Power (hp)
0.15 55 Hz 50 Hz
0.10 0.05
0
100
200
300
400
500
600
700
800
900
1,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
D475N Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
D475N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
27–83 m3 ⁄d 4.00 in. 0.625 in. 0.307 in.2 5.500 in.
Shaft brake-power limit Housing burst-pressure limit
78 hp 125 hp 34,475 kPa 41,370 kPa 44,370 kPa
Power (hp)
Efficiency (%)
12.50
1.25
50
10.00
1.00
40
0.75
30
5.00
0.50
20
2.50
0.25
10
Operating range
Efficiency Head (m)
Standard High strength Standard Buttress Welded
7.50
Head
Power 0 0
10
20
30
40
50
60
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
70
80
90
100
0 110
0
Return to Pumps REDA* Pump D475N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz 12.50 65 Hz 10.00
60 Hz 55 Hz
Head (m)
7.50 50 Hz
5.00
2.50
70 Hz 0.25 65 Hz 0.20 60 Hz Power (hp)
0.15
55 Hz 50 Hz
0.10 0.05
0
25
50
75
100
125
150
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
D725N Pump 400 Series, Min. Casing Size 51⁄2-in. [139.7-mm] OD Carbon Steel
ES Carbon Steel
ARZ Carbon Steel
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT-ES Part Number
Max. Stages
FL-CT-ARZ Part Number
10 20 30 40 50 60 70 80 90 100 110 120
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34]
45 [20.4] 75 [34.1] 105 [47.7] 135 [61.3] 165 [74.9] 195 [88.5] 225 [102.2] 255 [115.8] 285 [129.4] 315 [143.0] 345 [156.6] 375 [170.3]
18 38 58 79 99 119 139 159 179 199 219 240
tba† 1344183 tba 1324318 1324326 1324334 1324342 1324359 1324367 1324375 1324383 1324391
18 38 58 79 99 119 139 159 179 199 219 240
D344175 R344183 2004945 D324318 D324326 D324334 D324342 D324359 D324367 D324375 D324383 D324391
15 32 50 68 87 104 122 141 158 177 195 213
tba tba tba 1324433 1324441 1324458 1324466 1324474 1324482 1324490 1324508 1324516
† to
be assigned
Pumps
■
D725N Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps D725N Pump, 400 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
60
70
130 140 150 160 170 180 190 200 210
258 278 298 318 338 358† 378† 398† 418†
1
1 2 1
80
1 2 1
90
1 2 1
100
110
1 2 1
1
120
Note: Stage counts are for FL-CT-ES pumps. † Requires use of buttress threads in uppermost pump
ESP Catalog
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps Pumps
REDA* ESP
D725N Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
D725N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
350–925 B ⁄ D 4.00 in. 0.625 in. 0.307 in.2 5.500 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
94 hp 150 hp 5,000 psi 6,000 psi 6,000 psi
Power (hp)
Efficiency (%)
60
1.50
60
50
1.25
50
1.00
40
30
0.75
30
20
0.50
20
0.25
10
Efficiency
Operating range
40 Head (ft)
Head
10 Power 0 0
100
200
300
400
500
600
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
700
800
900
1,000
0 1,100
0
Return to Pumps REDA* Pump D725N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz 40 65 Hz
35
60 Hz
30
Head (ft)
55 Hz
25
50 Hz 20
15 10
5
70 Hz 0.30 65 Hz
0.25
Power (hp)
60 Hz
0.20 55 Hz
0.15 50 Hz 0.10 0.05
0
250
500
750
1,000
1,250
1,500
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
D725N Pump Performance Curve
50Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
D725N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
46–123 m3 ⁄d 10.16 cm 1.59 cm 1.98 cm2 13.97 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
78 hp 125 hp 34,475 kPa 41,370 kPa 41,370 kPa
Power (hp)
Efficiency (%)
15.00
1.50
60
12.50
1.25
50
1.00
40
0.75
30
5.00
0.50
20
2.50
0.25
10
Efficiency 10.00
Operating range
Head (m) 7.50
Head
Power 0 0
25
50
75 Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
100
125
0 150
0
Return to Pumps REDA* Pump D725N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz
12.50
65 Hz 10.00 60 Hz Head (m)
55 Hz 7.50 50 Hz 5.00
2.50
70 Hz 0.30 65 Hz
0.25
Power (hp)
60 Hz
0.20 55 Hz
0.15 50 Hz 0.10 0.05
0
25
50
75
100
125
150
175
200
225
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
DN1100 Pump 400 Series, Min. Casing Size 51⁄2-in. [139.7-mm] OD Carbon Steel
ES Carbon Steel
ARZ Carbon Steel
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT-ES Part Number
Max. Stages
FL-CT-ARZ Part Number
10 20 30 40 50 60 70 80 90 100 110 120
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34]
45 [20.4] 75 [34.1] 105 [47.7] 135 [61.3] 165 [74.9] 195 [88.5] 225 [102.2] 255 [115.8] 285 [129.4] 315 [143.0] 345 [156.6] 375 [170.3]
17 36 54 73 92 110 129 148 166 185 204 222
1191204 1191212 1191220 1191238 1191246 1191253 1191261 1191279 1191287 1191295 1191303 1191311
17 36 54 73 92 110 129 148 166 185 204 222
tba† 100023096 D191220 D191238 100023111 tba R191261 R191279 R191287 1246677 R191303 tba
13 29 45 61 78 94 110 127 143 160 176 192
1188309 1188317 1188325 1188333 1188341 1188358 1188366 1188374 1188382 1188390 1188408 1188416
† to
be assigned
Pumps
■
DN1100 Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps DN1100 Pump, 400 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
60
70
130 140 150 160 170 180 190 200 210 220 230 240
239 258 277 296 314 332 351 370 389† 408† 426† 444†
1
1 2 1
80
1 2 1
90
1 2 1
100
1 2 1
110
1 2 1‡
120
1‡ 2‡
Note: Stage counts are for FL-CT-ES pumps. use of buttress threads in uppermost pump ‡ Requires use of high-strength shaft in lowermost pump † Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps Pumps
REDA* ESP
DN1100 Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
DN1100 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
30
600–1,350 B/D 4.00 in. 0.688 in. 0.371 in.2 5.500 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
125 hp 200 hp 5,000 psi 6,000 psi 6,000 psi
Head
25
20
Power (hp)
Efficiency (%)
3.00
60
2.50
50
2.00
40
1.50
30
1.00
20
0.50
10
Efficiency
Head (ft)
Operating range
15
10
5 Power 0 0
250
500
750
1,000
1,250
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
1,500
1,750
0 2,000
0
Return to Pumps REDA* Pump DN1100 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
40 70 Hz 35 65 Hz 30 60 Hz 25 Head (ft)
55 Hz 20
50 Hz
15 10 5
70 Hz
0.45 0.40 65 Hz
0.35 0.30 Power (hp)
60 Hz
0.25
55 Hz
0.20
50 Hz
0.15 0.10 0.05 0
250
500
750
1,000
1,250
1,500
1,750
2,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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Return to Pumps Pumps
REDA* ESP
DN1100 Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
DN1100 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
79–179 m3 ⁄d 10.16 cm 1.75 cm 2.39 cm2 13.97 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
104 hp 167 hp 34,475 kPa 41,370 kPa 41,370 kPa
Power (hp)
Efficiency (%)
3.00
60
5.00
2.50
50
4.00
2.00
40
1.50
30
2.00
1.00
20
1.00
0.50
10
6.00 Head
Operating range
Head (m) 3.00 Efficiency
Power 0 0
25
50
75
100
125
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
150
175
200
0 225
0
Return to Pumps REDA* Pump DN1100 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
12.50 70 Hz 10.00
65 Hz 60 Hz
Head (m)
7.50
55 Hz 50 Hz
5.00
2.50
0.45
70 Hz
0.40 65 Hz
0.35 0.30 Power (hp)
60 Hz
0.25 55 Hz
0.20 50 Hz
0.15 0.10 0.05 0
50
100
150
200
250
300
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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Return to Pumps
D1400N Pump 400 Series, Min. Casing Size 51⁄2-in. [139.7-mm] OD Carbon Steel
ES Carbon Steel
ARZ Carbon Steel
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT-ES Part Number
Max. Stages
FL-CT-ARZ Part Number
10 20 30 40 50 60 70 80 90 100 110 120
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34]
45 [20.4] 75 [34.1] 105 [47.7] 135 [61.3] 165 [74.9] 195 [88.5] 225 [102.2] 255 [115.8] 285 [129.4] 315 [143.0] 345 [156.6] 375 [170.3]
17 36 54 73 92 110 129 147 166 184 202 221
tba† tba tba 1346386 2005388 tba 1326156 1326164 1328103 1315571 1334176 1328111
17 36 54 73 92 110 129 147 166 184 202 221
tba tba tba tba 100030084 2004453 tba tba 100023140 100023147 D334176 tba
13 29 45 61 78 94 110 127 143 160 176 192
tba tba tba tba tba 2006230 2006228 tba tba tba tba tba
† to
be assigned
Pumps
■
D1400N Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps D1400N Pump, 400 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
60
70
130 140 150 160 170 180 190 200 210 220 230
239 258 276 294 313 332 351 370† 387† 404† 423†
1
1 2 1
80
1 2 1
90
1 2 1
100
1 2‡ 1‡
110
120
1‡ 2‡ 1‡
1‡
Note: Stage counts are for FL-CT-ES pumps. use of buttress threads in uppermost pump ‡ Requires use of high-strength shaft in lowermost pump † Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
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REDA* ESP
D1400N Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
D1400N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
960–1,700 B/D 4.00 in. 0.688 in. 0.371 in.2 5.500 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
125 hp 200 hp 5,000 psi 6,000 psi 6,000 psi
Power (hp)
Efficiency (%)
3.00
60
25
2.50
50
20
2.00
40
1.50
30
10
1.00
20
5
0.50
10
30
Head
Efficiency
Head (ft) 15
Operating range
Power 0 0
250
500
750
1,000
1,250
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
1,500
1,750
0 2,000
0
Return to Pumps REDA* Pump D1400N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
40 70 Hz
35
65 Hz
30
60 Hz
25 Head (ft)
55 Hz 20 50 Hz 15 10
5
70 Hz
0.50 65 Hz
0.40 Power (hp)
60 Hz
0.30 55 Hz 0.20
50 Hz
0.10
0
250
500
750
1,000
1,250
1,500
1,750
2,000
2,250
2,500
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
D1400N Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
D1400N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
127–225 m3 ⁄d 10.16 cm 1.75 cm 2.39 cm2 13.97 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
104 hp 167 hp 34,475 kPa 41,370 kPa 41,370 kPa
Head
Power (hp)
Efficiency (%)
3.00
60
5.00
2.50
50
4.00
2.00
40
3.00
1.50
30
2.00
1.00
20
0.50
10
6.00
Efficiency
Head (m)
Operating range 1.00 Power 0 0
25
50
75
100
125
150
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
175
200
225
250
0 275
0
Return to Pumps REDA* Pump D1400N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
12.50
70 Hz 10.00 65 Hz Head (m)
60 Hz 7.50 55 Hz 50 Hz 5.00
2.50
70 Hz
0.50 65 Hz
0.40 Power (hp)
60 Hz
0.30 55 Hz 0.20
50 Hz
0.10
0
50
100
150
200
250
300
350
400
Capacity (m3/d)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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DN1750 Pump 400 Series, Min. Casing Size 51⁄2-in. [139.7-mm] OD Carbon Steel
ES Carbon Steel
ARZ Carbon Steel
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT-ES Part Number
Max. Stages
FL-CT-ARZ Part Number
10 20 30 40 50 60 70 80 90 100 110 120 130 140 150
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
45 [20.4] 75 [34.1] 105 [47.7] 135 [61.3] 165 [74.9] 195 [88.5] 225 [102.2] 255 [115.8] 285 [129.4] 315 [143.0] 345 [156.6] 375 [170.3] 405 [183.9] 435 [197.5] 465 [211.1]
8 16 24 33 41 50 58 67 75 83 92 100 108 116 125
717405 400754 400762 400770 400788 400796 806414 643015 707554 400804 810929 400812 883868 883876 883884
8 16 24 33 41 50 58 67 75 83 92 100 108 116 125
100023209 tba† C400762 C400770 C400788 C400796 C806414 C643015 tba C400804 C810929 C400812 Q883868 C883876 C883884
7 15 23 31 39 47 55 63 71 79 87 95 103 111 118
1131077 1131085 1131093 1131101 1131119 1131127 1131135 1131143 1131150 1131168 1131176 1131184 1131192 1131200 1131218
† to
be assigned
Pumps
■
DN1750 Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps DN1750 Pump, 400 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
80
90
160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 330 340 350 360 370 380 390 400 410 420 430 440 450 460 470 480 490 500 510 520 530
134 142 150 158 166 175 184 192 200 208 216 224 232 241 250 258 267 276 284† 292† 300† 308† 316† 324† 332† 340† 348† 357† 366† 375†, § 383†, § 392†, § 400†, § 408†, § 416†, § 424†, § 432†, § 440†, §
2 1 1
1 1
100
1 1 2 1
2 1
110
1 2 1
1 2 3 2 1
1‡ 1‡
120
1 2 1
1 2 3 2 1
3‡ 3‡ 4‡ 3‡ 3‡ 1‡
130
1 2 1
1 2 3 2 1‡
140
1 2 1
1 2‡ 3‡ 2‡ 1‡
150
1 2
1‡ 2‡ 3‡
1‡ 1‡ 3‡ 4‡ 3‡
1‡
Note: Stage counts are for FL-CT-ES pumps. † Requires use of buttress threads in uppermost pump ‡ Requires use of high-strength shaft in lowermost pump § Requires use of high-load bearing in protector
ESP Catalog
© 2005 Schlumberger. All rights reserved.
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REDA* ESP
DN1750 Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
DN1750 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
1,200–2,050 B/D 4.00 in. 0.688 in. 0.371 in.2 5.500 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
125 hp 200 hp 5,000 psi 6,000 psi 6,000 psi
Power (hp)
Efficiency (%)
3.00
60
25
2.50
50
20
2.00
40
15
1.50
30
10
1.00
20
0.50
10
30
Head Operating range
Head (ft)
Efficiency
5 Power 0 0
250
500
750
1,000
1,250
1,500
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
1,750
2,000
2,250
0 2,500
0
Return to Pumps REDA* Pump DN1750 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
40 35
70 Hz
30
Head (ft)
65 Hz 60 Hz
25
55 Hz
20
50 Hz 15 10 5
70 Hz 0.50 65 Hz 0.40 60 Hz Power (hp)
0.30
55 Hz 50 Hz
0.20 0.10
0
500
1,000
1,500
2,000
2,500
3,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
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REDA*ESP
DN1750 Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
DN1750 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
159–272 m3 ⁄d 10.16 cm 1.75 cm 2.39 cm2 13.97 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
104 hp 167 hp 34,475 kPa 41,370 kPa 41,370 kPa
Head
Power (hp)
Efficiency (%)
3.00
60
5.00
2.50
50
4.00
2.00
40
3.00
1.50
30
2.00
1.00
20
1.00
0.50
10
6.00
Operating range
Head (m)
Efficiency
Power 0 0
50
100
150
200 Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
250
300
0 350
0
Return to Pumps REDA* Pump DN1750 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
12.50
70 Hz
10.00
65 Hz Head (m)
60 Hz
7.50
55 Hz 50 Hz
5.00
2.50
70 Hz 0.50 65 Hz 0.40 60 Hz Power (hp)
0.30
55 Hz 50 Hz
0.20 0.10
0
50
100
150
200
250
300
350
400
450
Capacity (m3/d)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
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DN1800 Pump 400 Series, Min. Casing Size 51⁄2-in. [139.7-mm] OD Carbon Steel
ES Carbon Steel
ARZ Carbon Steel
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT-ES Part Number
Max. Stages
FL-CT-ARZ Part Number
10 20 30 40 50 60 70 80 90 100 110 120 130 140 150
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
45 [20.4] 75 [34.1] 105 [47.7] 135 [61.3] 165 [74.9] 195 [88.5] 225 [102.2] 255 [115.8] 285 [129.4] 315 [143.0] 345 [156.6] 375 [170.3] 405 [183.9] 435 [197.5] 465 [211.1]
8 16 24 33 41 50 58 67 75 83 92 100 108 116 125
1183441 1183458 1183466 1183474 1183482 1183490 1183508 1183516 1183524 1183532 1183540 1183557 1183565 1183573 1183581
8 16 24 33 41 50 58 67 75 83 92 100 108 116 125
tba† tba tba tba tba tba tba tba 100030085 tba tba 100030086 tba 100030088 100030089
7 15 23 31 39 47 55 63 71 77 87 95 103 111 118
tba tba tba tba tba tba tba tba tba 1296136 tba tba 1329473 tba 1345727
† to
be assigned
Pumps
■
DN1800 Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps DN1800 Pump, 400 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
60
70
130 140 150 160 170 180 190 200 210 220 230 240
176 190 203 216 230 244 258 272 286‡ 300‡ 313‡ 326‡
1
1 2 1†
80
1† 2† 1†
90
1† 2† 1†
100
1† 2† 1†
110
1† 2† 1†
120
1† 2†
Note: Stage counts are for FL-CT-ES pumps. use of high-strength shaft in lowermost pump ‡ Requires use of high-load bearing in protector † Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps Pumps
REDA* ESP
DN1800 Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
DN1800 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
1,200–2,400 B/D 4.00 in. 0.688 in. 0.371 in.2 5.500 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
125 hp 200 hp 5,000 psi 6,000 psi 6,000 psi
Power (hp)
Efficiency (%)
1.75
70
1.50
60
1.25
50
1.00
40
15
0.75
30
10
0.50
20
0.25
10
35
30
Head Operating range
25 Head (ft)
20 Efficiency
Power 5
0 0
500
1,000
1,500 Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
2,000
2,500
0 3,000
0
Return to Pumps REDA* Pump DN1800 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
40 35
70 Hz
30
Head (ft)
65 Hz 60 Hz
25
55 Hz 20 50 Hz 15 10 5
0.50
70 Hz
0.40 Power (hp)
65 Hz 60 Hz
0.30 55 Hz 0.20
50 Hz
0.10
0
500
1,000
1,500
2,000
2,500
3,000
3,500
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
DN1800 Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
DN1800 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
159–318 m3 ⁄d 10.16 cm 1.75 cm 2.39 cm2 13.97 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
104 hp 167 hp 34,475 kPa 41,370 kPa 41,370 kPa
Power (hp)
Efficiency (%)
1.75
70
1.50
60
5.00
1.25
50
4.00
1.00
40
3.00
0.75
30
2.00
0.50
20
0.25
10
7.00 Head
6.00
Operating range
Head (m)
Efficiency
1.00
Power
0 0
50
100
150
200
250
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
300
350
0 400
0
Return to Pumps REDA* Pump DN1800 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
12.50
70 Hz
10.00
65 Hz Head (m)
60 Hz
7.50
55 Hz 50 Hz 5.00
2.50
0.50
70 Hz
0.40 Power (hp)
65 Hz 60 Hz
0.30 55 Hz 0.20
50 Hz
0.10
0
50
100
150
200
250
300
350
400
450
500
550
Capacity (m3/d)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
DN2150 Pump 400 Series, Min. Casing Size 51⁄2-in. [139.7-mm] OD Carbon Steel
ES Carbon Steel
ARZ Carbon Steel
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT-ES Part Number
Max. Stages
FL-CT-ARZ Part Number
10 20 30 40 50 60 70 80 90 100 110 120
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34]
45 [20.4] 75 [34.1] 105 [47.7] 135 [61.3] 165 [74.9] 195 [88.5] 225 [102.2] 255 [115.8] 285 [129.4] 315 [143.0] 345 [156.6] 375 [170.3]
12 26 40 54 67 81 95 108 122 136 150 163
0946624 0946632 0946640 0946657 0946665 0946673 0946681 0946699 1946707 0946715 0946723 0946731
12 26 40 54 67 81 95 108 122 136 150 163
tba† C946632 tba C946657 C946665 C946673 C946681 C946699 C946707 C946715 C946723 C946731
10 24 38 52 65 79 93 106 120 134 147 161
1131671 1131689 1131697 1131705 1131713 1131721 1131739 1131747 1131754 1131762 1131770 1131788
† to
be assigned
Pumps
■
DN2150 Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps DN2150 Pump, 400 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
60
70
130 140 150 160 170 180 190 200 210 220 230 240
176 190 203 216 230 244 258 272 286‡ 300‡ 313‡ 326‡
1
1 2 1†
80
1† 2† 1†
90
1† 2† 1†
100
1† 2† 1†
110
1† 2† 1†
120
1† 2†
Note: Stage counts are for FL-CT-ES pumps. use of high-strength shaft in lowermost pump ‡ Requires use of high-load bearing in protector † Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
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Return to Pumps Pumps
REDA* ESP
DN2150 Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
DN2150 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
1,300–2,600 B/D 4.00 in. 0.688 in. 0.371 in.2 5.500 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
125 hp 200 hp 5,000 psi 6,000 psi 6,000 psi
60
50
Power (hp)
Efficiency (%)
3.00
60
2.50
50
2.00
40
1.50
30
1.00
20
0.50
10
Efficiency 40
Operating range
Head (ft)
Head
30
20
10
Power
0 0
500
1,000
1,500
2,000 Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
2,500
3,000
0 3,500
0
Return to Pumps REDA* Pump DN2150 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz
40
65 Hz
35
60 Hz
30
55 Hz
25 Head (ft)
50 Hz
20
15 10 5
70 Hz
0.90 0.80
65 Hz
0.70 60 Hz
0.60 Power (hp)
0.50
55 Hz
0.40
50 Hz
0.30 0.20 0.10 0
500
1,000
1,500
2,000
2,500
3,000
3,500
4,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
DN2150 Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
DN2150 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
172–344 m3 ⁄d 10.16 cm 1.75 cm 2.39 cm2 13.97 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
104 hp 167 hp 34,475 kPa 41,370 kPa 41,370 kPa
Power (hp)
Efficiency (%)
15.00
1.50
60
12.50
1.25
50
1.00
40
0.75
30
0.50
20
0.25
10
Efficiency 10.00 Operating range
Head (m) 7.50 Head 5.00
Power
2.50
0 0
50
100
150
200
250
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
300
350
400
0 450
0
Return to Pumps REDA* Pump DN2150 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
12.50
70 Hz 65 Hz
10.00 60 Hz Head (m)
55 Hz
7.50
50 Hz 5.00
2.50
70 Hz
0.90 0.80
65 Hz
0.70 0.60 Power (hp)
60 Hz
0.50
55 Hz
0.40
50 Hz
0.30 0.20 0.10 0
100
200
300
400
500
600
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
D2400N Pump 400 Series, Min. Casing Size 51⁄2-in. [139.7-mm] OD ES Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150
ES Redalloy* Alloy
Length, ft [m]
Weight, lbm [kg]
Max. Stages
FL-CT † Part Number
Max. Stages
FL-CT † Part Number
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
45 [20.4] 75 [34.1] 105 47.7] 135 [61.3] 165 [74.9] 195 [88.5] 225 [102.2] 255 [115.8] 285 129.4] 315 [143.0] 345 [156.6] 375 [170.3] 405 [183.9] 435 [197.5] 465 [211.1]
8 16 24 33 41 50 58 67 75 83 92 100 108 117 125
100254333 100254342 100254343 100254345 100254346 100254348 100254349 100254351 100254353 100254354 100254355 100253356 100254357 100254358 100254359
8 16 24 33 41 50 58 67 75 83 92 100 108 117 125
100254892 100254893 100254895 100254896 100254897 100254899 100254900 100254901 100254902 100254903 100254904 100254905 100254906 100254907 100254908
† This
factory-shimmed pump type should always be installed with a factory-shimmed coupling. If this pump type is mated with other factory-shimmed equipment, no shimming is required during assembly. Conversely, if this pump type is mated with nonfactory-shimmed equipment, the field shimming procedures must be followed.
400 Series, Min. Casing Size 51⁄2-in. [139.7-mm] OD ES Carbon Steel
ES Redalloy Alloy
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
CR-CT † Part Number
Max. Stages
CR-CT † Part Number
10 20 30 40 50 60 70 80 90 100 110 120 130 140 150
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
45 [20.4] 75 [34.1] 105 47.7] 135 [61.3] 165 [74.9] 195 [88.5] 225 [102.2] 255 [115.8] 285 129.4] 315 [143.0] 345 [156.6] 375 [170.3] 405 [183.9] 435 [197.5] 465 [211.1]
7 15 23 32 40 49 57 66 74 82 91 99 108 116 125
100257674 100257675 100257676 100257677 100257678 100257679 100257680 100257681 100257682 100257684 100257685 100257686 100257688 100257690 100257691
7 15 23 32 40 49 57 66 74 82 91 99 108 116 125
100257927 100257948 100257949 100257950 100257951 100257952 100257953 100257954 100257955 100257956 100257957 100257958 100257960 100257961 100257962
† This
factory-shimmed pump type should always be installed with a factory-shimmed coupling. If this pump type is mated with other factory-shimmed equipment, no shimming is required during assembly. Conversely, if this pump type is mated with nonfactory-shimmed equipment, the field shimming procedures must be followed.
Pumps
■
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
D2400N Pump
Return to Pumps
Return to Pumps 400 Series, Min. Casing Size 51⁄2-in. [139.7-mm] OD ARZ Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150
ARZ Redalloy* Alloy
Length, ft [m]
Weight, lbm [kg]
Max. Stages
CR-CT † Part Number
Max. Stages
CR-CT † Part Number
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
45 [20.4] 75 [34.1] 105 47.7] 135 [61.3] 165 [74.9] 195 [88.5] 225 [102.2] 255 [115.8] 285 129.4] 315 [143.0] 345 [156.6] 375 [170.3] 405 [183.9] 435 [197.5] 465 [211.1]
6 14 22 30 38 46 53 62 70 78 86 93 102 109 117
100258448 100258449 100258450 100258451 100258452 100258454 100258455 100258458 100258459 100258460 100258461 100258462 100258463 100258464 100258465
6 14 22 30 38 46 53 62 70 78 86 93 102 109 117
100258876 100258877 100258878 100258879 100258881 100258882 100258883 100258884 100258885 100258886 100258887 100258888 100258889 100258890 100258891
† This
factory-shimmed pump type should always be installed with a factory-shimmed coupling. If this pump type is mated with other factory-shimmed equipment, no shimming is required during assembly. Conversely, if this pump type is mated with nonfactory-shimmed equipment, the field shimming procedures must be followed.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
D2400N Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
D2400N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
1,500–3,200 B/D 4.00 in. 0.688 in. 0.371 in.2 5.500 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
162 hp 245 hp 5,000 psi 6,000 psi 6,000 psi
Power (hp)
Efficiency (%)
3.00
60
2.50
50
2.00
40
30
1.50
30
20
1.00
20
0.50
10
60 Efficiency 50 Operating range 40 Head (ft)
Head
Power
10
0 0
500
1,000
1,500
2,000
2,500
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
3,000
3,500
0 4,000
0
Return to Pumps REDA* Pump D2400N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
50 45 70 Hz
40
65 Hz
35
60 Hz
30 Head (ft)
55 Hz
25
50 Hz
20 15 10 5
70 Hz 1.00 65 Hz 0.75 Power (hp)
60 Hz 55 Hz
0.50 50 Hz 0.25
0
500
1,000
1,500
2,000
2,500
3,000
3,500
4,000
4,500
5,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
D2400N Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
D2400N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
199–424 m3 ⁄d 10.16 cm 1.746 cm 2.395 cm2 13.970 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
135 hp 204 hp 34,475 kPa 41,370 kPa 41,370 kPa
15.00
Power (hp)
Efficiency (%)
3.00
60
2.50
50
2.00
40
1.50
30
1.00
20
0.50
10
Efficiency 12.50 Operating range 10.00 Head (m) 7.50
Head
5.00
2.50 Power 0 0
50
100
150
200
250
300
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
350
400
450
500
0 550
0
Return to Pumps REDA* Pump D2400N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
15.00
12.50
70 Hz 65 Hz
10.00 60 Hz
Head (m)
55 Hz
7.50
50 Hz 5.00
2.50
70 Hz 1.00 65 Hz 0.75 Power (hp)
60 Hz 55 Hz
0.50 50 Hz 0.25
0
100
200
300
400
500
600
700
800
Capacity (m3/d)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
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DN3000 Pump 400 Series, Min. Casing Size 51⁄2-in. [139.7-mm] OD Carbon Steel
ES Carbon Steel
ARZ Carbon Steel
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT-ES Part Number
Max. Stages
FL-CT-ARZ Part Number
10 20 30 40 50 60 70 80 90 100 110 120 130 140 150
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
45 [20.4] 75 [34.1] 105 [47.7] 135 [61.3] 165 [74.9] 195 [88.5] 225 [102.2] 255 [115.8] 285 [129.4] 315 [143.0] 345 [156.6] 375 [170.3] 405 [183.9] 435 [197.5] 465 [211.1]
6 14 21 29 36 44 51 59 66 74 81 89 96 104 111
tba† 400838 400846 400853 400861 400879 400887 400895 400903 400911 400929 400937 883926 883934 883942
6 14 21 29 36 44 51 59 66 74 81 89 96 104 111
tba tba tba tba tba tba tba tba C400903 C400911 C400929 C400937 C883926 Q883934 C883942
5 12 19 26 33 40 47 54 61 68 75 82 89 96 103
1151703 1151711 1151729 1151737 1151745 1151752 1151760 1151778 1151786 1151794 1151802 1151810 1151828 1151836 1151844
† to
be assigned
Pumps
■
DN3000 Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps DN3000 Pump, 400 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
80
90
160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 330 340 350 360 370 380 390 400 410 420 430 440 450 460 470 480 490 500 510 520 530
118 125 132 140 148 155 162 170 178 185† 192† 200† 208† 215† 222† 229† 236† 243† 251† 259† 267† 274† 281† 288† 296† 304† 312† 319† 326† 333† 341† 348† 356† 363† 369† 377† 384†, ‡ 392†, ‡
2 1 1
1 1
100
1 1 2 2
2 1
110
1 2 1
1 2 3 2 1
1 1
120
2 2 1
1 2 3 2 1
3 3 4 3 3 1
130
1 2 1
1 2 3 2 1
140
1 2 1
1 2 3 2 1
150
1 2
1 2 3
1 1 3 4 3§
1§
Note: Stage counts are for FL-CT-ES pumps. † Requires use of high-load bearing in protector ‡ Requires use of buttress threads in uppermost pump § Requires use of high-strength shaft in lowermost pump
ESP Catalog
© 2005 Schlumberger. All rights reserved.
Return to Pumps
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REDA* ESP
DN3000 Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
DN3000 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
2,100–3,700 B/D 4.00 in. 0.875 in. 0.601 in.2 5.500 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
256 hp 410 hp 5,000 psi 6,000 psi 6,000 psi
Power (hp)
Efficiency (%)
3.00
60
25
2.50
50
20
2.00
40
15
1.50
30
10
1.00
20
0.50
10
30
Head Operating range
Efficiency
Head (ft)
Power 5
0 0
500
1,000
1,500
2,000
2,500
3,000
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
3,500
4,000
4,500
0 5,000
0
Return to Pumps REDA* Pump DN3000 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
35
70 Hz
30
65 Hz 60 Hz
25
Head (ft)
55 Hz 20 50 Hz 15
10
5
1.00 70 Hz
0.90
65 Hz
0.80 0.70
60 Hz
0.60 Power (hp)
55 Hz
0.50 50 Hz
0.40 0.30 0.20 0.10 0
1,000
2,000
3,000
4,000
5,000
6,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
DN3000 Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
DN3000 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
278–490 m3 ⁄d 10.16 cm 2.22 cm 3.88 cm2 13.97 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
213 hp 342 hp 34,475 kPa 41,370 kPa 41,370 kPa
Head
Power (hp)
Efficiency (%)
3.00
60
2.50
50
2.00
40
3.00
1.50
30
2.00
1.00
20
0.50
10
6.00
Operating range
5.00
4.00
Efficiency
Head (m)
1.00 Power 0 0
100
200
300
400 Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
500
600
0 700
0
Return to Pumps REDA* Pump DN3000 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz 10.00 65 Hz 60 Hz
7.50
55 Hz
Head (m)
50 Hz 5.00
2.50
1.00 70 Hz
0.90 65 Hz
0.80 0.70 Power (hp)
60 Hz
0.60 55 Hz
0.50 0.40
50 Hz
0.30 0.20 0.10 0
100
200
300
400
500
600
700
800
900
1,000
Capacity (m3/d)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
DN3100 Pump 400 Series, Min. Casing Size 51⁄2-in. [139.7-mm] OD Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 † to
ES Carbon Steel
ARZ Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT-ES Part Number
Max. Stages
FL-CT-ARZ Part Number
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
45 [20.4] 75 [34.1] 105 [47.7] 135 [61.3] 165 [74.9] 195 [88.5] 225 [102.2] 255 [115.8] 285 [129.4] 315 [143.0] 345 [156.6] 375 [170.3] 405 [183.9] 435 [197.5] 465 [211.1]
6 14 21 29 36 44 51 59 66 74 81 89 96 104 111
tba† tba tba tba 1200294 1200302 1200310 1200328 1200336 1200344 1200351 1200369 1200377 1200385 1200393
6 14 21 29 36 44 51 59 66 74 81 89 96 104 111
tba 2007430 tba tba D200294 tba tba tba D200336 tba 100029759 D200369 tba D200385 D200393
5 12 19 26 33 40 47 54 61 68 75 82 89 96 103
tba tba tba tba tba tba tba 1200534 1200542 1200559 1200575 1200583 1200591 1200609 1200617
be assigned
Pumps
■
DN3100 Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps DN3100 Pump, 400 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
80
90
160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 330 340 350 360 370 380 390 400 410 420 430 440 450 460 470 480 490 500 510 520 530 540 550 560 570 580 590 600
118 125 133 140 148 155 162 170 178† 185† 192† 200† 208† 215† 222† 229† 236† 243† 251† 259†, ‡ 267†, ‡ 274†, ‡ 281†, ‡ 288†, ‡ 296†, ‡ 304†, ‡ 312†, ‡ 319†, ‡ 326†, ‡ 333†, ‡ 341†, ‡ 348†, ‡ 356†, ‡ 363†, ‡ 371†, ‡ 377†, ‡ 384†, ‡ 392†, ‡ 399†, ‡ 407†, ‡ 414†, ‡ 422†, ‡ 430†, ‡ 437†, ‡ 444†, ‡
2 1 1
1 1
100
1 1 2 1
2 1
110
1 2 1
1 2 3 2 1
1 1
120
1 2 1
1 2 3 2 1
3 3 4 3 3§ 1§
130
1 2 1
1 2 3 2 1
140
1 2 1
1 2 3 2 1
150
1 2
1 2 3
1 1§ 3§ 4§ 3§, †† 3§, †† 2§, †† 2§, †† 1§, ††
1§, †† 0§, †† 1§, †† 0§, †† 1§, †† 2§, †† 1§, ††
1§, †† 1§, †† 2§, †† 2§, †† 2§, †† 3§, †† 4§, ††
Note: Stage counts are for FL-CT-ES pumps. use of high-load bearing in protector for compression pumps ‡ Requires use of high-load bearing in protector for floater pumps § Requires use of high-strength shaft in lowermost pump †† Requires use of buttress head † Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
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REDA* ESP
DN3100 Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
DN3100 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
2,100–3,900 B/D 4.00 in. 0.875 in. 0.601 in.2 5.500 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
256 hp 410 hp 5,000 psi 6,000 psi 6,000 psi
Power (hp)
Efficiency (%)
3.00
60
25
2.50
50
20
2.00
40
15
1.50
30
10
1.00
20
0.50
10
30
Head Operating range
Efficiency
Head (ft)
Power 5
0 0
500
1,000
1,500
2,000
2,500
3,000
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
3,500
4,000
4,500
0 5,000
0
Return to Pumps REDA* Pump DN3100 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
35
70 Hz
30
65 Hz 60 Hz
25
55 Hz Head (ft)
20 50 Hz 15
10
5
70 Hz
1.00 0.90 65 Hz
0.80 0.70 60 Hz
0.60 Power (hp)
55 Hz
0.50 0.40
50 Hz
0.30 0.20 0.10 0
500
1,000
1,500
2,000
2,500
3,000
3,500
4,000
4,500
5,000
5,500
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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REDA* ESP
DN3100 Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
DN3100 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
278–517 m3 ⁄d 10.16 cm 2.22 cm 3.88 cm2 13.97 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
213 hp 342 hp 34,475 kPa 41,370 kPa 41,370 kPa
Head
Power (hp)
Efficiency (%)
3.00
60
5.00
2.50
50
4.00
2.00
40
3.00
1.50
30
2.00
1.00
20
0.50
10
6.00
Operating range
Efficiency
Head (m)
1.00
Power
0 0
100
200
300
400 Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
500
600
0 700
0
Return to Pumps REDA* Pump DN3100 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz 10.00 65 Hz 60 Hz
7.50 Head (m)
55 Hz 50 Hz 5.00
2.50
70 Hz
1.00 0.90 65 Hz
0.80 0.70 60 Hz
0.60 Power (hp)
55 Hz
0.50 0.40
50 Hz
0.30 0.20 0.10 0
100
200
300
400
500
600
700
800
900
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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Return to Pumps
D4300N Pump 400 Series, Min. Casing Size 51⁄2-in. [139.7-mm] OD Carbon Steel Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
C-CT Part Number
10 20 30 40 50 60 70 80 90 100 110 120 130 140 150
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
45 [20.4] 75 [34.1] 105 [47.7] 135 [61.3] 165 [74.9] 195 [88.5] 225 [102.2] 255 [115.8] 285 [129.4] 315 [143.0] 345 [156.6] 375 [170.3] 405 [183.9] 435 [197.5] 465 [211.1]
3 8 12 17 22 26 31 35 40 44 49 54 58 63 67
tba† tba tba tba tba tba tba tba tba 1325265 tba 1325281 tba tba 1325315
† to
ES Carbon Steel Max. Stages 3 8 12 17 22 26 31 35 40 44 49 54 58 63 67
ARZ-TT Carbon Steel
C-CT-ES Part Number
Max. Stages
C-CT-ARZ Part Number
tba tba tba tba D325216 tba D325232 D325240 R325257 R325265 D325273 D325281 D325299 D325307 D325315
3 8 12 17 22 26 31 35 40 44 49 54 58 63 67
tba tba tba tba tba tba tba tba tba 1325323 tba tba 1325554 tba 1325570
be assigned
Pumps
■
D4300N Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps D4300N Pump, 400 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
80
160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 330 340 350 360 370 380 390 400 410 420 430 440 450 460 470 480 490 500 510 520 530
70 75 80 84 88 93 98 103 108 112 116 121 126 130 134 137 142 147 152 157 162 166 170 174 179 184 189 193 197 201 206 211 216 220† 223† 228† 232† 237†
2 1
90
1 2 1
100
1 2 1
2 1
110
1 2 1
1 2 3 2 1
1 1
120
1 2 1
1 2 3 2 1
3 3 4 3
1 1
130
1 2 1
1 2 3 2 1
1 3 3 4 3
140
1 2 1
1 2 3 2 1
150
1 2
1 2 3
1
Note: Stage counts are for C-CT-ES pumps. † Requires use of high-load bearing in protector
ESP Catalog
© 2005 Schlumberger. All rights reserved.
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REDA* ESP
D4300N Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
D4300N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
3,500–5,400 B/D 4.00 in. 0.875 in. 0.601 in.2 5.500 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
256 hp 410 hp 5,000 psi 6,000 psi 6,000 psi
Power (hp)
Efficiency (%)
3.50
70
3.00
60
25
2.50
50
20
2.00
40
15
1.50
30
10
1.00
20
0.50
10
35
Efficiency
35
Operating range
Head
Head (ft)
Power 5
0 0
1,000
2,000
3,000 Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
4,000
5,000
0 6,000
0
Return to Pumps REDA* Pump D4300N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
35 70 Hz 30 65 Hz 25
Head (ft)
60 Hz 55 Hz
20 50 Hz 15
10
5
1.50
70 Hz
1.25 Power (hp)
65 Hz
1.00
60 Hz
0.75
55 Hz 50 Hz
0.50 0.25
0
1,000
2,000
3,000
4,000
5,000
6,000
7,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
D4300N Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
D4300N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
464–715 m3 ⁄d 10.16 cm 2.22 cm 3.88 cm2 13.97 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
213 hp 342 hp 34,475 kPa 41,370 kPa 41,370 kPa
Efficiency (%)
3.50
70
3.00
60
5.00
2.50
50
4.00
2.00
40
3.00
1.50
30
2.00
1.00
20
0.50
10
7.00 Efficiency
6.00
Operating range
Head
Head (m)
Power (hp)
1.00
Power
0 0
100
200
300
400
500
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
600
700
0 800
0
Return to Pumps REDA* Pump D4300N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
10.00
70 Hz 65 Hz
7.50
60 Hz
Head (m)
55 Hz 50 Hz
5.00
2.50
1.50
70 Hz
1.25
65 Hz
1.00 Power (hp)
60 Hz
0.75
55 Hz 50 Hz
0.50 0.25
0
250
500
750
1,000
1,250
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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D5800N Pump 400 Series, Min. Casing Size 51⁄2-in. [139.7-mm] OD Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 † to
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
C-CT Part Number
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
45 [20.4] 75 [34.1] 105 [47.7] 135 [61.3] 165 [74.9] 195 [88.5] 225 [102.2] 255 [115.8] 285 [129.4] 315 [143.0] 345 [156.6] 375 [170.3] 405 [183.9] 435 [197.5] 465 [211.1]
3 8 12 17 22 26 31 35 40 44 49 54 58 63 67
tba† tba tba tba tba tba tba tba tba tba tba tba 1319433 tba tba
ES Carbon Steel
Max. Stages 3 8 12 17 22 26 31 35 40 44 49 54 58 63 67
ARZ-ZT Carbon Steel
C-CT-ES Part Number
Max. Stages
C-CT-ARZ-ZT Part Number
tba tba tba tba tba tba tba 2003305 tba tba tba tba D319433 2003310 tba
3 8 12 17 22 26 31 35 40 44 49 54 58 63 67
tba tba tba tba tba tba tba tba tba tba tba 2000234 1319458 tba tba
be assigned
Pumps
■
D5800N Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps D5800N Pump, 400 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
80
160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 330 340 350 360 370 380 390 400 410 420 430 440 450 460 470 480 490 500 510 520 530
70 75 80 84 88 93 98 103 108 112 116 121 126 130 134 137 142 147 152 157 162 166 170 174 179 184 189 193 197† 201† 206† 211† 216† 220† 223† 228† 232† 237†
2 1
90
1 2 1
100
1 2 1
2 1
110
1 2 1
1 2 3 2 1
1‡ 1‡
120
1 2 1
1 2 3 2 1
3‡ 3‡ 4‡ 3‡
1‡ 1‡
130
1 2 1
1 2 3 2 1
1‡ 3‡ 3‡ 4‡ 3‡
140
1 2 1
1 2 3‡ 2‡ 1‡
150
1 2
1‡ 2‡ 3‡
1‡
Note: Stage counts are for C-CT-ES pumps. † Requires use of high-load bearing in protector ‡ Requires use of high-strength shaft in lowermost pump
ESP Catalog
© 2005 Schlumberger. All rights reserved.
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REDA* ESP
D5800N Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
D5800N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
4,400–7,000 B/D 4.00 in. 0.875 in. 0.601 in.2 5.500 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
255 hp 410 hp 5,000 psi 6,000 psi 6,000 psi
Efficiency (%)
3.50
70
3.00
60
25
2.50
50
20
2.00
40
15
1.50
30
1.00
20
0.50
10
35 Efficiency
30
Operating range
Head
Head (ft)
Power (hp)
10
Power
5
0 0
1,000
2,000
3,000
4,000
5,000
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
6,000
7,000
0 8,000
0
Return to Pumps REDA* Pump D5800N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
40 35
70 Hz
30
Head (ft)
65 Hz 60 Hz
25
55 Hz 20 50 Hz 15 10
5
2.25
70 Hz
2.00 65 Hz
1.75 1.50 Power (hp)
60 Hz
1.25 55 Hz
1.00 50 Hz
0.75 0.50 0.25 0
1,000
2,000
3,000
4,000
5,000
6,000
7,000
8,000
9,000
10,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
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REDA* ESP
D5800N Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
D5800N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
583–927 m3 ⁄d 10.16 cm 2.22 cm 3.88 cm2 13.97 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
213 hp 342 hp 34,475 kPa 41,370 kPa 41,370 kPa
7.00
6.00
Head
5.00
Head (m)
4.00
Efficiency
3.00
Operating range
2.00 Power
1.00
0 0
100
200
300
400
500
600
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
700
800
900
1,000
Power (hp)
Efficiency (%)
3.50
70
3.00
60
2.50
50
2.00
40
1.50
30
1.00
20
0.50
10
0 1,1 00
0
Return to Pumps REDA* Pump D5800N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz 10.00 65 Hz 60 Hz
7.50 Head (m)
55 Hz 50 Hz 5.00
2.50
2.25
70 Hz
2.00 65 Hz
1.75 1.50 Power (hp)
60 Hz
1.25 55 Hz
1.00 50 Hz
0.75 0.50 0.25 0
250
500
750
1,000
1,250
1,500
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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GN1600 Pump 540 Series, Min. Casing Size 6 5⁄8-in. [168.3-mm] OD Carbon Steel
Housing 10 20 30 40 50 60 70 80 90 † to
ES Carbon Steel
ARZ Carbon Steel
Length, ft [m]
Weight, lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT-ES Part Number
Max. Stages
FL-CT-ARZ Part Number
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06]
77 [35.0] 145 [65.8] 213 [96.7] 281 [127.6] 349 [158.4] 417 [189.3] 485 [220.2] 553 [251.1] 621 [281.9]
12 28 43 59 75 90 106 122 137
1019033 1019710 1019728 1019736 1019744 1019041 1019751 1019769 1019777
12 28 43 59 75 90 106 122 137
tba† D019710 tba D019736 D019744 D019041 D019751 1246685 tba
9 22 35 47 62 74 87 101 114
1132927 1132935 1132943 1132950 1132968 1132976 1132984 1132992 1133008
be assigned
Pumps
■
GN1600 Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps GN1600 Pump, 540 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
50
100 110 120 130 140 150
150 165 180 196† 212†, ‡ 228†, ‡
2 1
60
1 2 1
70
80
1 2 1
1
90
Note: Stage counts are for FL-CT-ES pumps. † Requires use of high-load bearing in protector ‡ Requires use of buttress threads in uppermost pump
ESP Catalog
© 2005 Schlumberger. All rights reserved.
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REDA* ESP
GN1600 Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
GN1600 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
1,000–2,150 B ⁄D 5.13 in. 0.875 in. 0.601 in.2 6.625 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
256 hp 410 hp 5,000 psi 6,000 psi 6,000 psi
60
Power (hp)
Efficiency (%)
3.00
60
2.50
50
2.00
40
1.50
30
1.00
20
0.50
10
Head 50
40 Efficiency
Head (ft) 30
Operating range
20 Power 10
0 0
250
500
750
1,000
1,250
1,500
1,750
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
2,000
2,250
2,500
0 2,750
0
Return to Pumps REDA* Pump GN1600 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz 70 65 Hz 60 60 Hz 50 55 Hz 40
50 Hz
Head (ft) 30
20
10
70 Hz
1.50 65 Hz
1.25 60 Hz
1.00 Power (hp)
55 Hz
0.75 0.50
50 Hz
0.25
0
500
1,000
1,500
2,000
2,500
3,000
3,500
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
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REDA* ESP
GN1600 Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
GN1600 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
132–285 m3 ⁄d 13.03 cm 2.22 cm 3.88 cm2 16.83 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
213 hp 342 hp 34,475 kPa 41,370 kPa 41,370 kPa
15.00
12.50
Head
Power (hp)
Efficiency (%)
3.00
60
2.50
50
2.00
40
1.50
30
1.00
20
0.50
10
Operating range 10.00 Head (m) 7.50 Efficiency 5.00
2.50
Power
0 0
50
100
150
200 Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
250
300
0 350
0
Return to Pumps REDA* Pump GN1600 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz
22.50 20.00
65 Hz
17.50 60 Hz 15.00 55 Hz Head (m)
12.50 50 Hz 10.00 7.50 5.00 2.50
70 Hz
1.50 65 Hz
1.25 1.00 Power (hp)
60 Hz 55 Hz
0.75 0.50
50 Hz
0.25
0
50
100
150
200
250
300
350
400
450
500
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
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GN2100 Pump 540 Series, Min. Casing Size 6 5⁄8-in. [168.3-mm] OD Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 † to
ES Carbon Steel
ARZ Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT-ES Part Number
Max. Stages
FL-CT-ARZ Part Number
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91]
77 [35.0] 145 [65.8] 213 [96.7] 281 [127.6] 349 [158.4] 417 [189.3] 485 [220.2] 553 [251.1] 621 [281.9] 689 [312.8] 757 [343.7]
10 22 35 48 61 74 86 99 111 124 137
1072198 1146489 1157262 1045269 1045277 1045285 1045293 1045301 1045319 1045327 1045335
10 22 35 48 61 74 86 99 111 124 137
tba† tba R157262 tba 1179464 tba tba 1235563 100030884 tba D045335
7 18 28 39 50 61 72 83 94 105 116
1130855 1130863 1130871 1070713 1070721 1070739 1070747 1070754 1070762 1070770 1070788
be assigned
Pumps
■
GN2100 Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps GN2100 Pump, 540 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
60
120 130 140 150 160 170 180 190 200
146 158 170 183† 196† 209†, ‡ 222†, ‡ 235†, ‡ 248†, ‡
2 1
70
1 2 1
80
1 2 1
90
1 2 1§
100
110
1§ 2§
Note: Stage counts are for FL-CT-ES pumps. use of high-load bearing in protector ‡ Requires use of buttress threads in uppermost pump § Requires use of high-strength shaft in lowermost pump † Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
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REDA* ESP
GN2100 Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
GN2100 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
1,650–2,700 B/D 5.13 in. 0.875 in. 0.601 in.2 6.625 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
256 hp 410 hp 5,000 psi 6,000 psi 6,000 psi
Power (hp)
Efficiency (%)
3.00
60
50
2.50
50
40
2.00
40
1.50
30
1.00
20
0.50
10
60 Head
Head (ft)
Efficiency 30
20
Power
10 Operating range 0 0
500
1,000
1,500
2,000 Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
2,500
3,000
0 3,500
0
Return to Pumps REDA* Pump GN2100 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70
70 Hz
60
65 Hz 60 Hz
50
Head (ft)
55 Hz 40 50 Hz 30
20
10
1.75
70 Hz
1.50 65 Hz 1.25 60 Hz Power (hp)
1.00 55 Hz 0.75 50 Hz 0.50 0.25
0
500
1,000
1,500
2,000
2,500
3,000
3,500
4,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
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REDA* ESP
GN2100 Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
GN2100 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
219–358 m3 ⁄d 13.03 cm 2.22 cm 3.88 cm2 16.83 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
213 hp 342 hp 34,475 kPa 41,370 kPa 41,370 kPa
15.00
Operating range
12.50
Power (hp)
Efficiency (%)
3.00
60
2.50
50
2.00
40
1.50
30
1.00
20
0.50
10
Head 10.00 Head (m) 7.50 Efficiency 5.00
Power
2.50
0 0
50
100
150
200
250
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
300
350
400
0 450
0
Return to Pumps REDA* Pump GN2100 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
22.50 70 Hz 20.00 65 Hz
17.50
60 Hz
15.00 Head (m)
55 Hz
12.50
50 Hz 10.00 7.50 5.00 2.50
1.75
70 Hz
1.50 65 Hz 1.25 Power (hp)
60 Hz
1.00 55 Hz 0.75 50 Hz 0.50 0.25
0
100
200
300
400
500
600
700
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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GN3200 Pump 540 Series, Min. Casing Size 6 5⁄8-in. [168.3-mm] OD Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 † to
ES Carbon Steel
ARZ Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT-ES Part Number
Max. Stages
FL-CT-ARZ Part Number
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34]
77 [35.0] 145 [65.8] 213 [96.7] 281 [127.6] 349 [158.4] 417 [189.3] 485 [220.2] 553 [251.1] 621 [281.9] 689 [312.8] 757 [343.7] 825 [374.6]
9 20 32 44 55 67 79 90 102 114 125 137
1250125 1316066 1156975 1041391 1041409 1041417 1041425 1041433 1041441 1041458 1041466 1041474
9 20 32 44 55 67 79 90 102 114 125 137
tba† tba D156975 tba 1243633 D041417 D041425 tba D041441 D041458 tba tba
7 17 26 36 47 56 66 76 86 97 106 116
1130822 1130830 1130848 1070804 1070812 1070820 1070838 1070846 1070853 1070861 1070879 1070887
be assigned
Pumps
■
GN3200 Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps GN3200 Pump, 540 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
60
70
130 140 150 160 170 180 190 200 210
144 156 168† 180† 191† 202†, § 214†, § 226†, § 237†, §
1
1 2 1
80
1 2‡ 1‡
90
1‡ 2‡ 1‡
100
110
1‡ 2‡ 1‡
1‡
120
Note: Stage counts are for FL-CT-ES pumps. use of high-load bearing in protector ‡ Requires use of high-strength shaft in lowermost pump § Requires use of buttress threads in uppermost pump † Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
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Return to Pumps Pumps
REDA* ESP
GN3200 Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
GN3200 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
2,200–4,100 B/D 5.13 in. 0.875 in. 0.601 in.2 6.625 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
256 hp 410 hp 5,000 psi 6,000 psi 6,000 psi
Power (hp)
Efficiency (%)
3.00
60
50
2.50
50
40
2.00
40
1.50
30
20
1.00
20
10
0.50
10
60 Head
Efficiency
Head (ft) 30
Power
Operating range 0 0
500
1,000
1,500
2,000
2,500
3,000
3,500
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
4,000
4,500
5,000
0 5,500
0
Return to Pumps REDA* Pump GN3200 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 70 Hz 60 65 Hz 50
Head (ft)
60 Hz 55 Hz
40
50 Hz 30
20
10
70 Hz
2.25 2.00
65 Hz
1.75 1.50 Power (hp)
60 Hz
1.25
55 Hz
1.00
50 Hz
0.75 0.50 0.25 0
1,000
2,000
3,000
4,000
5,000
6,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
GN3200 Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
GN3200 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
291–543 m3 ⁄d 13.03 cm 2.22 cm 3.88 cm2 16.83 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
213 hp 342 hp 34,475 kPa 41,370 kPa 41,370 kPa
15.00
12.50
Head
Power (hp)
Efficiency (%)
3.00
60
2.50
50
2.00
40
1.50
30
1.00
20
0.50
10
Operating range
10.00 Head (m) 7.50
Efficiency
5.00 Power 2.50
0 0
100
200
300
400 Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
500
600
0 700
0
Return to Pumps REDA* Pump GN3200 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
22.50 70 Hz
20.00 17.50
65 Hz
15.00 Head (m)
60 Hz 55 Hz
12.50
50 Hz
10.00 7.50 5.00 2.50
70 Hz
2.25 2.00 65 Hz
1.75 1.50 Power (hp)
60 Hz
1.25
55 Hz
1.00
50 Hz
0.75 0.50 0.25 0
100
200
300
400
500
600
700
800
900
1,000
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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Return to Pumps
GN4000 Pump 540 Series, Min. Casing Size 6 5⁄8-in. [168.3-mm] OD Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 † to
ES Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT-ES Part Number
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
77 [35.0] 145 [65.8] 213 [96.7] 281 [127.6] 349 [158.4] 417 [189.3] 485 [220.2] 553 [251.1] 621 [281.9] 689 [312.8] 757 [343.7] 825 [374.6] 893 [405.4] 961 [463.3] 1,029 [467.2]
5 12 18 25 32 39 46 52 59 66 73 79 86 93 100
884486 884494 884502 884510 884528 884536 884544 884551 884569 884577 656140 884585 884593 884601 884619
5 12 18 25 32 39 46 52 59 66 73 79 86 93 100
C884486 C884494 Q884502 C884510 tba† tba C884544 C884551 tba tba C656140 C884585 tba Q884601 C884619
ARZ Carbon Steel
Max. Stages 4 11 17 24 30 37 43 50 56 63 70 76 83 89 95
FL-CT-ARZ Part Number 1136977 1136985 1136993 1137009 1137017 1137025 1137033 1137041 1137470 1137488 1137496 1137504 1137512 1137520 1137538
be assigned
Pumps
■
GN4000 Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps GN4000 Pump, 540 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
60
160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 330 340 350 360 370 380 390
104 111 118 125 132 139† 146† 152† 158† 165† 172† 179† 186† 193† 200† 205† 212† 219†, § 225†, § 231†, § 237†, § 244†, § 251†, § 258†, §
2 1
70
1 2 1
80
1 2 1
2‡ 1‡
90
1 2 1
1‡ 2‡ 3‡ 2‡ 1‡
100
1 2 1
1‡ 2‡ 3‡ 2‡ 1‡
110
1 2 1‡
120
1‡ 2‡ 1‡
1‡ 2‡ 3‡
Note: Stage counts are for FL-CT-ES pumps. use of high-load bearing in protector ‡ Requires use of high-strength shaft in lowermost pump § Requires use of buttress threads in uppermost pump † Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
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Return to Pumps Pumps
REDA* ESP
GN4000 Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
GN4000 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
3,200–4,800 B/D 5.13 in. 1.000 in. 0.785 in.2 6.625 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
375 hp 600 hp 5,000 psi 6,000 psi 6,000 psi
Efficiency
Power (hp)
Efficiency (%)
3.00
60
2.50
50
2.00
40
1.50
30
20
1.00
20
10
0.50
10
60
50
Head
Operating range
40 Head (ft) 30
Power
0 0
1,000
2,000
3,000
4,000 Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
5,000
6,000
0 7,000
0
Return to Pumps REDA* Pump GN4000 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70
60
70 Hz 65 Hz
50
Head (ft)
60 Hz 40 55 Hz 50 Hz
30
20
10
70 Hz
2.25 2.00 65 Hz
1.75 1.50 Power (hp)
60 Hz
1.25
55 Hz
1.00
50 Hz
0.75 0.50 0.25 0
1,000
2,000
3,000
4,000
5,000
6,000
7,000
8,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
GN4000 Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
GN4000 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
424–636 m3 ⁄d 13.03 cm 2.54 cm 5.07 cm2 16.83 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
313 hp 500 hp 34,475 kPa 41,370 kPa 41,370 kPa
Power (hp)
Efficiency (%)
3.00
60
2.50
50
10.00
2.00
40
7.50
1.50
30
1.00
20
0.50
10
15.00 Efficiency 12.50 Operating range
Head Head (m)
5.00 Power 2.50
0 0
100
200
300
400
500
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
600
700
800
0 900
0
Return to Pumps REDA* Pump GN4000 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
20.00 70 Hz
17.50
65 Hz
15.00
60 Hz
12.50 Head (m)
55 Hz 10.00 50 Hz 7.50 5.00 2.50
70 Hz
2.25 2.00 65 Hz
1.75 1.50 Power (hp)
60 Hz
1.25
55 Hz
1.00 50 Hz
0.75 0.50 0.25 0
250
500
750
1,000
1,250
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
GN5200 Pump 540 Series, Min. Casing Size 6 5⁄8-in. [168.3-mm] OD Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 † to
Length,
Weight,
ft [m]
lbm [kg]
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
77 [35.0] 145 [65.8] 213 [96.7] 281 [127.6] 349 [158.4] 417 [189.3] 485 [220.2] 553 [251.1] 621 [281.9] 689 [312.8] 757 [343.7] 825 [374.6] 893 [405.4] 961 [463.3] 1,029 [467.2]
Max. Stages 3 8 13 17 22 27 31 36 41 45 50 54 59 64 68
FL-CT Part Number 0884627 0884635 0884643 0884650 0884668 0884676 0884684 0884692 0884700 0884718 0884726 0884734 0884742 0884759 0884767
ES Carbon Steel
Max. Stages 3 8 12 17 22 26 31 36 40 45 50 54 59 64 68
FL-CT-ES Part Number tba† tba tba tba tba tba C884684 C884692 tba tba tba tba tba tba tba
ARZ Carbon Steel
Max. Stages 3 8 12 17 22 26 31 36 40 45 50 54 59 64 68
FL-CT-ARZ Part Number 1135003 1135011 1135029 1133768 1133776 1133784 1133792 1133800 1133818 1133826 1133834 1133842 1137652 1137660 1137678
be assigned
Pumps
■
GN5200 Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps GN5200 Pump, 540 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
60
160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 330 340 350 360 370 380 390 400 410 420 430 440 450 460 470 480 490 500 510 520 530
72 76 80 85 90 95 100 104 108 113 118 123 128 132 136 140 145 150 154 158 162† 167† 172† 177† 182† 187† 192† 196† 200† 204† 207† 212† 216† 221† 227† 231† 236† 241†
2 1
70
1 2 1
80
1 2 1
2 1
90
1 2 1
1 2 3 2 1
1 1
100
1 2 1
1 2 3 2 1
3 3 4‡ 3‡
1‡ 1‡
110
1 2 1
1 2 3 2 1
1‡ 3‡ 3‡ 4‡ 3‡
120
1 2 1
1 2 3 2 1
1‡
Note: Stage counts are for FL-CT-ES pumps. † Requires use of high-load bearing in protector ‡ Requires use of high-strength shaft in lowermost pump
ESP Catalog
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps Pumps
REDA* ESP
GN5200 Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
GN5200 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
3,900–6,600 B/D 5.13 in. 1.000 in. 0.785 in.2 6.625 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
375 hp 600 hp 5,000 psi 6,000 psi 6,000 psi
Power (hp)
Efficiency (%)
Head 60
6.00
60
50
5.00
50
4.00
40
3.00
30
2.00
20
1.00
10
40 Efficiency
Head (ft) 30
Power
20
Operating range
10
0 0
1,000
2,000
3,000
4,000
5,000
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
6,000
7,000
8,000
0 9,000
0
Return to Pumps REDA* Pump GN5200 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
60
70 Hz
50
65 Hz 40 60 Hz
Head (ft)
55 Hz
30
50 Hz 20
10
70 Hz 2.50 65 Hz 2.00 60 Hz Power (hp)
1.50
55 Hz 50 Hz
1.00 0.50
0
1,000
2,000
3,000
4,000
5,000
6,000
7,000
8,000
9,000
10,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
GN5200 Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
GN5200 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
517–874 m3 ⁄d 13.03 cm 2.54 cm 5.07 cm2 16.83 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
313 hp 500 hp 34,475 kPa 41,370 kPa 41,370 kPa
15.00 Efficiency
12.50
Power (hp)
Efficiency (%)
3.00
60
2.50
50
2.00
40
1.50
30
1.00
20
0.50
10
Operating range Head
10.00 Head (m) 7.50
5.00
Power
2.50
0 0
100
200
300
400
500
600
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
700
800
900
1,000
0 1,100
0
Return to Pumps REDA* Pump GN5200 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
17.50
70 Hz
15.00
65 Hz 12.50 60 Hz Head (m)
10.00
55 Hz 50 Hz
7.50
5.00
2.50
70 Hz 2.50 65 Hz 2.00 60 Hz Power (hp)
1.50
55 Hz 50 Hz
1.00 0.50
0
250
500
750
1,000
1,250
1,500
Capacity (m3/d)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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Return to Pumps
G6200N Pump 540 Series, Min. Casing Size 6 5⁄8-in. [168.3-mm] OD ES Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 † to
ARZ Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
FL-CT-ES Part Number
Max. Stages
FL-CT-ARZ Part Number
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
77 [35.0] 145 [65.8] 213 [96.7] 281 [127.6] 349 [158.4] 417 [189.3] 485 [220.2] 553 [251.1] 621 [281.9] 689 [312.8] 757 [343.7] 825 [374.6] 893 [405.4] 961 [463.3] 1,029 [467.2]
3 8 13 17 22 27 31 36 41 45 50 54 59 64 68
tba† tba tba 100071150 100071153 100071168 100071170 100071171 100071172 100071173 100071176 100071177 100071178 100071180 100071183
3 8 12 17 22 26 31 36 40 45 50 54 59 64 68
tba tba tba 100071582 100071585 100071586 100071587 100071588 100071603 100071619 100071620 100071622 100071623 100071624 100071625
be assigned
Pumps
■
G6200N Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps G6200N Pump, 540 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
80
90
160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 330 340 350 360 370 380 390 400 410 420 430 440 450 460 470 480 490 500 510 520 530 540 550 560 570 580 590 600
72 77 81 86 90† 95† 100† 104† 108† 113† 118† 123† 128† 132† 136† 140† 145† 150† 154† 158† 162† 167† 172† 177†, § 182†, § 187†, § 192†, § 196†, § 200†, § 204†, § 207†, § 212†, § 216†, § 221†, § 226†, § 231†, § 236†, § 241†, § 245†, § 250†, § 254†, § 259†, § 264†, § 268†, § 272†, §
2 1 1
1 1
100
1 1 2 1
2 1
110
1 2 1
1 2 3 2 1
1‡ 1‡
120
1 2 1
1 2 3 2‡ 1‡
3‡ 3‡ 4‡ 3‡, †† 3‡, †† 1‡, ††
130
1 2 1
1‡ 2‡ 3‡ 2‡ 1‡
140
1 2 1
1‡ 2‡ 3‡ 2‡ 1‡
150
1 2
1‡ 2‡ 3‡
1‡, †† 1‡, †† 3‡, †† 4‡, †† 3‡, †† 3‡, †† 2‡, †† 2‡, †† 1‡, ††
1‡, †† 0‡, †† 1‡, †† 0‡, †† 1‡, †† 2‡, †† 1‡, ††
1‡, †† 1‡, †† 2‡, †† 2‡, †† 2‡, †† 3‡, †† 4‡, ††
Note: Stage counts are for FL-CT-ES pumps. use of high-load bearing in protector for compression pumps ‡ Requires use of high-strength shaft in lowermost pump § Requires use of high-load bearing in protector for floater pumps †† Requires use of buttress head † Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
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Return to Pumps Pumps
REDA* ESP
G6200N Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
G6200N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
4,500–8,000 B/D 5.13 in. 1.00 in. 0.785 in.2 6.625 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
375 hp 600 hp 5,000 psi 6,000 psi 6,000 psi
70
Power (hp)
Efficiency (%)
7.00
70
6.00
60
5.00
50
40
4.00
40
30
3.00
30
2.00
20
1.00
10
60 Efficiency
Head (ft)
Operating range
Head
50
Power
20
10
0 0
1,000
2,000
3,000
4,000
5,000
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
6,000
7,000
8,000
0 9,000
0
Return to Pumps REDA* Pump G6200N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70
60 70 Hz 50
65 Hz 60 Hz
40 Head (ft)
55 Hz 50 Hz
30
20
10
3.50
70 Hz
3.00 65 Hz 2.50 60 Hz
2.00 Power (hp)
55 Hz
1.50 50 Hz 1.00 0.50
0
1,000
2,000
3,000
4,000
5,000
6,000
7,000
8,000
9,000
10,000
11,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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Return to Pumps Pumps
REDA* ESP
G6200N Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
G6200N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
596–1,060 m3 ⁄d 13.03 cm 2.54 cm 5.07 cm2 16.83 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
17.50
313 hp 500 hp 34,475 kPa 41,370 kPa 41,370 kPa
Power (hp)
Efficiency (%)
3.50
70
3.00
60
2.50
50
10.00
2.00
40
7.50
1.50
30
5.00
1.00
20
2.50
0.50
10
15.00 Efficiency 12.50 Head Head (m)
Operating range
Power
0 0
250
500
750 Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
1,000
0 1,250
0
Return to Pumps REDA* Pump G6200N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
20.00 17.50
70 Hz 65 Hz
15.00
60 Hz
12.50 Head (m)
55 Hz 10.00 50 Hz 7.50 5.00
2.50
3.50
70 Hz
3.00 65 Hz 2.50 Power (hp)
60 Hz
2.00 55 Hz 1.50 50 Hz 1.00 0.50
0
250
500
750
1,000
1,250
1,500
1,750
Capacity (m3/d)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
GN7000 Pump 540 Series, Min. Casing Size 6 5⁄8-in. [168.3-mm] OD Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 † to
ES Carbon Steel
ARZ Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT-ES Part Number
Max. Stages
FL-CT-ARZ Part Number
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
77 [35.0] 145 [65.8] 213 [96.7] 281 [127.6] 349 [158.4] 417 [189.3] 485 [220.2] 553 [251.1] 621 [281.9] 689 [312.8] 757 [343.7] 825 [374.6] 893 [405.4] 961 [463.3] 1,029 [467.2]
3 8 13 17 22 27 31 36 41 45 50 54 59 64 68
885061 885079 885087 885095 707604 751438 885103 885111 783548 885129 885137 885145 885152 885160 885178
3 8 13 17 22 27 31 36 41 45 50 54 59 64 68
tba† tba tba C885095 tba tba tba C885111 C783548 C885129 C885137 tba C885152 C885160 C885178
3 8 12 17 22 26 31 36 40 45 50 54 59 64 68
1135037 1135045 1135052 1133388 1133396 1133404 1133412 1133420 1133438 1133446 1133453 1133461 1137686 1137694 1137702
be assigned
Pumps
■
GN7000 Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps GN7000 Pump, 540 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
60
160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 330 340 350 360 370 380 390 400 410 420 430 440 450 460 470 480 490 500
72 76 80 85 90 95 100 104 108 113 118 123 128 132 136 140 145 150 154† 158† 162† 167† 172† 177† 182† 187† 192† 196† 200† 204† 207† 212† 216† 221† 227†
2 1
70
1 2 1
80
1 2 1
2 1‡
90
1 2 1
1 2‡ 3‡ 2‡ 1‡
1‡ 1‡
1‡
100
1 2 1
1‡ 2‡ 3‡ 2‡ 1‡
3‡ 3‡ 4‡ 3‡
110
1 2 1
1‡ 2‡ 3‡ 2‡ 1‡
120
1 2 1
1‡ 2‡ 3‡ 2‡ 1‡
1‡ 3‡
Note: Stage counts are for FL-CT-ES pumps. use of high-load bearing in protector ‡ Requires use of high-strength shaft in lowermost pump † Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps Pumps
REDA* ESP
GN7000 Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
GN7000 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
5,000–9,000 B/D 5.13 in. 1.000 in. 0.785 in.2 6.625 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
375 hp 600 hp 5,000 psi 6,000 psi 6,000 psi
Power (hp)
Efficiency (%)
15.00
60
12.50
50
40
10.00
40
30
7.50
30
20
5.00
20
2.50
10
60 Efficiency Head
50
Operating range
Head (ft)
10
Power
0 0
2,500
5,000
7,500 Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
10,000
0 12,500
0
Return to Pumps REDA* Pump GN7000 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
60 70 Hz 50
65 Hz 60 Hz
40 Head (ft)
55 Hz 30
50 Hz
20
10
70 Hz
4.00 3.50
65 Hz
3.00 60 Hz
2.50 Power (hp)
55 Hz
2.00 50 Hz
1.50 1.00 0.50 0
2,500
5,000
7,500
10,000
12,500
15,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
GN7000 Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
GN7000 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
662–1,192 m3 ⁄d 13.03 cm 2.54 cm 5.08 cm2 16.83 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
313 hp 500 hp 34,475 kPa 41,370 kPa 41,370 kPa
Power (hp)
Efficiency (%)
6.00
60
5.00
50
10.00
4.00
40
7.50
3.00
30
5.00
2.00
20
1.00
10
15.00 Efficiency 12.50 Operating range Head Head (m)
Power 2.50
0 0
250
500
750
1,000 Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
1,250
1,500
0 1,750
0
Return to Pumps REDA* Pump GN7000 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
17.50
70 Hz
15.00
65 Hz 60 Hz
12.50 Head (m)
55 Hz 10.00 50 Hz 7.50
5.00
2.50
70 Hz
4.00 3.50
65 Hz
3.00 Power (hp)
60 Hz
2.50 55 Hz
2.00 50 Hz
1.50 1.00 0.50 0
250
500
750
1,000
1,250
1,500
1,750
2,000
2,250
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
GN10000 Pump 540 Series, Min. Casing Size 6 5⁄8-in. [168.3-mm] OD Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 † to
ES Carbon Steel
ARZ Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT-ES Part Number
Max. Stages
FL-CT-ARZ Part Number
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
77 [35.0] 145 [65.8] 213 [96.7] 281 [127.6] 349 [158.4] 417 [189.3] 485 [220.2] 553 [251.1] 621 [281.9] 689 [312.8] 757 [343.7] 825 [374.6] 893 [405.4] 961 [463.3] 1,029 [467.2]
2 6 10 14 18 22 26 30 34 38 42 46 50 54 58
0885194 0885202 0885210 0885228 0885236 0885244 0885251 0885269 0885277 0885285 0885293 0885301 0885319 0885327 0885335
2 6 10 14 18 22 26 30 34 38 42 46 50 54 58
tba† tba tba tba tba tba tba tba tba tba tba tba tba tba 100012580
2 6 10 14 18 22 26 30 34 38 42 46 50 54 58
tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba
be assigned
Pumps
■
GN10000 Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps GN10000 Pump, 540 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
80
160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 330 340 350 360 370 380 390 400 410 420 430 440 450 460 470 480 490 500 510 520 530
60 64 68 72 76 80 84 88 92 96 100 104 108 112 116 118† 122† 126† 130† 134† 138† 142† 146† 150† 154† 158† 162† 166† 170† 174† 178† 182† 186† 190† 194† 200† 204† 208†
2 1
90
1 2 1
100
1 2 1
2 1
110
1 2 1
1 2 3 2 1
1 1
120
1 2 1
1 2 3 2 1
3 3 4 3 1
130
1 2 1
1 2 3 2 1
1 3 3 4 3
140
1 2 1
1 2 3 2 1
1
Note: Stage counts are for FL-CT-ES pumps. † Requires use of high-load bearing in protector
ESP Catalog
© 2005 Schlumberger. All rights reserved.
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REDA* ESP
GN10000 Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
GN10000 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
7,000–12,000 B/D 5.13 in. 1.188 in. 1.108 in.2 6.625 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
637 hp 1,019hp 5,000 psi 6,000 psi 6,000 psi
Power (hp)
Efficiency (%)
17.50
70
15.00
60
12.50
50
10.00
40
30
7.50
30
20
5.00
20
2.50
10
70 Efficiency 60 Operating range 50 Head (ft)
Head
40
Power
10
0 0
2,500
5,000
7,500
10,000
12,500
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
15,000
17,500
0 20,000
0
Return to Pumps REDA* Pump GN10000 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
50
70 Hz 65 Hz
40 60 Hz Head (ft)
55 Hz
30
50 Hz 20
10
5.00
70 Hz
4.50 65 Hz
4.00 3.50 Power (hp)
60 Hz
3.00 2.50
55 Hz
2.00
50 Hz
1.50 1.00 0.50 0
2,500
5,000
7,500
10,000
12,500
15,000
17,500
20,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
GN10000 Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
GN10000 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
927–1,590 m3 ⁄d 13.03 cm 3.02 cm 7.15 cm2 16.83 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
531 hp 849 hp 34,475 kPa 41,370 kPa 41,370 kPa
Power (hp)
Efficiency (%)
7.00
70
6.00
60
12.50
5.00
50
10.00
4.00
40
3.00
30
2.00
20
1.00
10
17.50 Efficiency
15.00
Operating range
Head (m)
Head 7.50
5.00 Power 2.50
0 0
250
500
750
1,000
1,250
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
1,500
1,750
2,000
0 2,250
0
Return to Pumps REDA* Pump GN10000 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
17.50
15.00
70 Hz 65 Hz
12.50 Head (m)
60 Hz 10.00 55 Hz 50 Hz
7.50
5.00
2.50
5.00
70 Hz
4.50 4.00
65 Hz
3.50 60 Hz
3.00 Power (hp)
2.50
55 Hz
2.00
50 Hz
1.50 1.00 0.50 0
500
1,000
1,500
2,000
2,500
3,000
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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Return to Pumps
SN2600 Pump 538 Series, Min. Casing Size 7-in. [177.8-mm] OD Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 † to
ES Carbon Steel
ARZ Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT-ES Part Number
Max. Stages
FL-CT-ARZ Part Number
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34]
93 [42.2] 157 [71.3] 221 [100.3] 285 [129.4] 349 [158.4] 413 [187.5] 477 [216.6] 541 [245.6] 605 [274.7] 669 [303.7] 733 [332.8] 797 [361.8]
10 23 36 49 62 75 88 101 114 127 140 154
1238443 1238450 1238468 1238476 1238484 1238492 1238500 1238518 1238526 1238534 1238542 1238559
10 23 36 49 62 75 88 101 114 127 140 154
tba† tba tba D238476 D238484 D238492 D23850P D238518 D238526 D238534 D238542 100030144
8 18 29 40 52 63 74 86 97 109 120 131
1245513 1245521 1245539 1245547 1245554 1245562 1245570 1245588 1245596 1245604 1245612 1245620
be assigned
Pumps
■
SN2600 Pump
© 2005 Schlumberger. All rights reserved.
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Return to Pumps SN2600 Pump, 538 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
60
70
130 140 150 160 170
163† 176† 189†, ‡ 202†, ‡ 215†, ‡
1
1 2 1§
80
90
1§ 2§ 1§
1§
100
110
120
Note: Stage counts are for FL-CT-ES pumps. † Requires use of high-load bearing in protector ‡ Requires use of buttress threads in uppermost pump § Requires use of high-strength shaft in lowermost pump
ESP Catalog
© 2005 Schlumberger. All rights reserved.
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Return to Pumps Pumps
REDA* ESP
SN2600 Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
SN2600 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
1,600–3,200 B/D 5.38 in. 0.875 in. 0.601 in.2 7.000 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
256 hp 410 hp Not applicable 6,000 psi 6,000 psi
Head
60
50
40
Efficiency
Power (hp)
Efficiency (%)
3.00
60
2.50
50
2.00
40
1.50
30
1.00
20
0.50
10
Head (ft) 30
Power
20
Operating range 10
0 0
500
1,000
1,500
2,000
2,500
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
3,000
3,500
0 4,000
0
Return to Pumps REDA* Pump SN2600 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
80
70 Hz
70
65 Hz
60
60 Hz
50 Head (ft)
55 Hz 50 Hz
40
30 20
10
70 Hz
2.25 2.00 65 Hz
1.75 1.50 Power (hp)
60 Hz
1.25
55 Hz
1.00 0.75
50 Hz
0.50 0.25 0
500
1,000
1,500
2,000
2,500
3,000
3,500
4,000
4,500
5,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
SN2600 Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
SN2600 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
212–424 m3 ⁄d 13.67 cm 2.22 cm 3.88 cm2 17.78 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
213 hp 342 hp Not applicable 41,370 kPa 41,370 kPa
Power (hp)
Efficiency (%)
3.00
60
12.50
2.50
50
10.00
2.00
40
7.50
1.50
30
5.00
1.00
20
0.50
10
15.00 Operating range
Head
Head (m)
Efficiency
Power
2.50
0 0
50
100
150
200
250
300
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
350
400
450
500
0 550
0
Return to Pumps REDA* Pump SN2600 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
25.00 70 Hz 22.50 65 Hz
20.00
60 Hz
17.50 15.00 Head (m)
55 Hz 50 Hz
12.50 10.00 7.50 5.00 2.50
70 Hz
2.25 2.00 65 Hz
1.75 1.50 Power (hp)
60 Hz
1.25
55 Hz
1.00 50 Hz
0.75 0.50 0.25 0
100
200
300
400
500
600
700
800
Capacity (m3/d)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
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SN3600 Pump 538 Series, Min. Casing Size 7-in. [177.8-mm] OD Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 † to
ES Carbon Steel
ARZ Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT-ES Part Number
Max. Stages
FL-CT-ARZ Part Number
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
93 [42.2] 157 [71.3] 221 [100.3] 285 [129.4] 349 [158.4] 413 [187.5] 477 [216.6] 541 [245.6] 605 [274.7] 669 [303.7] 733 [332.8] 797 [361.8] 861 [390.9] 925 [420.0] 989 [449.0]
6 16 25 34 44 53 62 71 81 90 99 109 118 127 137
tba† 1275510 tba 1267525 1233667 1233675 1233683 1233691 1233709 1233717 1233725 1233733 1233741 1233758 1233766
6 16 25 34 44 53 62 71 81 90 99 109 118 127 137
tba tba tba tba D233667 D233675 D233683 R233691 D233709 D233717 D233725 D233733 D233741 D233758 D233766
5 13 21 28 37 45 52 61 69 77 85 93 101 109 117
tba tba 1290352 1290360 tba 1261668 tba 1240944 1261684 1261692 tba tba tba 1261734 tba
be assigned
Pumps
■
SN3600 Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps SN3600 Pump, 538 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
60
160 170 180 190 200 210 220 230
142† 152† 162† 171† 180† 189† 198† 208†
2‡ 1‡
70
1‡ 2‡ 1‡
80
1‡ 2‡ 1‡
90
100
1‡ 2‡ 1‡
1‡
110
120
Note: Stage counts are for FL-CT-ES pumps. use of high-load bearing in protector ‡ Requires use of high-strength shaft in lowermost pump † Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
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Return to Pumps Pumps
REDA* ESP
SN3600 Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
SN3600 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
2,400–4,600 B/D 5.38 in. 0.875 in. 0.601 in.2 7.000 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
256 hp 410 hp Not applicable 6,000 psi 6,000 psi
70
Power (hp)
Efficiency (%)
7.00
70
60
6.00
60
50
5.00
50
4.00
40
3.00
30
2.00
20
1.00
10
Head
Efficiency Head (ft)
40 Operating range 30
20 Power 10
0 0
500
1,000
1,500
2,000
2,500
3,000
3,500
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Revised 6/2006
Return to Pumps
4,000
4,500
5,000
0 5,500
0
Return to Pumps REDA* Pump SN3600 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz 80 65 Hz 70 60 Hz
60
55 Hz
50 Head (ft)
50 Hz 40
30 20
10
70 Hz
3.00 2.50
65 Hz
2.00 Power (hp)
60 Hz 55 Hz
1.50 50 Hz
1.00 0.50
0
1,000
2,000
3,000
4,000
5,000
6,000
7,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
SN3600 Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
SN3600 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
318–609 m3 ⁄d 13.67 cm 2.22 cm 3.88 cm2 17.78 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
213 hp 342 hp Not applicable 41,370 kPa 41,370 kPa
Efficiency (%)
3.50
70
3.00
60
12.50
2.50
50
10.00
2.00
40
7.50
1.50
30
1.00
20
0.50
10
17.50 Efficiency
15.00
Operating range
Head
Head (m)
Power (hp)
5.00
Power
2.50
0 0
100
200
300
400
500
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
600
700
0 800
0
Return to Pumps REDA* Pump SN3600 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz
25.00 22.50
65 Hz
20.00 60 Hz 17.50 55 Hz 15.00 Head (m)
50 Hz
12.50 10.00 7.50 5.00 2.50
70 Hz
3.00 2.50
65 Hz
2.00 Power (hp)
60 Hz 55 Hz
1.50 50 Hz
1.00 0.50
0
100
200
300
400
500
600
700
800
900
1,000
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
S5000N Pump 538 Series, Min. Casing Size 7-in. [177.8-mm] OD Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 † to
ES Carbon Steel
ARZ Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT-ES Part Number
Max. Stages
FL-CT-ARZ Part Number
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
93 [42.2] 157 [71.3] 221 [100.3] 285 [129.4] 349 [158.4] 413 [187.5] 477 [216.6] 541 [245.6] 605 [274.7] 669 [303.7] 733 [332.8] 797 [361.8] 861 [390.9] 925 [420.0] 989 [449.0]
5 11 18 25 31 38 44 51 57 64 71 77 84 90 97
tba† tba tba tba tba tba tba tba tba 2010176 tba tba tba tba tba
5 11 18 25 31 38 44 51 57 64 71 77 84 90 97
tba tba tba 100116107 100116110 100116113 100116205 100116207 100116209 2010040 100116212 100116220 100116223 100116225 100116226
4 10 16 21 28 33 39 45 51 57 63 69 75 81 87
tba tba tba 100115942 100115966 100115976 100116005 100116017 100116018 2010041 100116038 100116043 100116051 100116055 100116065
be assigned
Pumps
■
S5000N Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps S5000N Pump, 538 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
160 160 160 160 160 160 160 160 170 180 190 200 210 220 230 240
57† 64† 71† 77† 84† 90† 97† 102† 108† 115† 121† 128† 135†, ‡ 142†, ‡ 148†, ‡ 154†, ‡
80
90
100
110
120
130
140
150
1 1 1 1 1 1 1 2 1 1
1 1
1 1 2 1
1 2 1
1 2
Note: Stage counts are for FL-CT-ES pumps. use of high-load bearing in protector for compression pumps ‡ Requires use of high-load bearing in protector for floater pumps † Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
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Return to Pumps Pumps
REDA* ESP
S5000N Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
S5000N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
4,000–5,400 B/D 5.38 in. 1.000 in. 0.785 in.2 7.000 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
375 hp 600 hp Not applicable 6,000 psi 6,000 psi
Power (hp)
Efficiency (%)
7.00
70
6.00
60
50
5.00
50
40
4.00
40
30
3.00
30
2.00
20
1.00
10
70
Head Efficiency
60 Operating range
Head (ft)
Power
20
10
0 0
1,000
2,000
3,000
4,000 Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
5,000
6,000
0 7,000
0
Return to Pumps REDA* Pump S5000N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
90 80 70 Hz
70
65 Hz
60 Head (ft)
60 Hz 50 55 Hz 40
50 Hz
30 20 10
70 Hz 3.00 65 Hz
2.50 60 Hz
2.00 Power (hp)
55 Hz
1.50 50 Hz 1.00 0.50
0
1,000
2,000
3,000
4,000
5,000
6,000
7,000
8,000
9,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
S5000N Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
S5000N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
530–715 m3 ⁄d 13.67 cm 2.54 cm 5.07 cm2 17.78 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
313 hp 500 hp Not applicable 41,370 kPa 41,370 kPa
Power (hp)
Efficiency (%)
3.50
70
3.00
60
12.50
2.50
50
10.00
2.00
40
7.50
1.50
30
5.00
1.00
20
2.50
0.50
10
17.50 Efficiency 15.00
Head Operating range
Head (m)
Power
0 0
100
200
300
400
500
600
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
700
800
900
0 1,000
0
Return to Pumps REDA* Pump S5000N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
25 70 Hz 20 65 Hz 60 Hz Head (m)
15 55 Hz 50 Hz 10
5
70 Hz 3.00 65 Hz
2.50 60 Hz
2.00 Power (hp)
55 Hz
1.50 50 Hz 1.00 0.50
0
250
500
750
1,000
1,250
1,500
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
S6000N Pump 538 Series, Min. Casing Size 7-in. [177.8-mm] OD ES Carbon Steel
ES Redalloy* Alloy
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT Part Number
30 40 50 60 70 80 90 100 110 120 130 140 150
4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.4 [6.20] 21.8 [6.63]
220 [99.9] 284 [128.9] 347 [157.5] 412 [187.0] 473 [214.7] 537 [243.8] 602 [273.3] 665 [301.9] 729 [331.0] 793 [360.0] 857 [389.0] 921 [418.1] 985 [447.2]
15 21 26 32 38 43 49 55 60 66 71 77 83
100308860 100308872 100308873 100308874 100308876 100308877 100308878 100308879 100308880 100308881 100308882 100308884 100308886
15 21 26 32 38 43 49 55 60 66 71 77 83
100309542 100309544 100309545 100309546 100309547 100309548 100309550 100309551 100309552 100309553 100309554 100309555 100309556
538 Series, Min. Casing Size 7-in. [177.8-mm] OD ES Carbon Steel
ES Redalloy Alloy
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
CR-CT † Part Number
Max. Stages
CR-CT † Part Number
30 40 50 60 70 80 90 100 110 120 130 140 150
4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.4 [6.20] 21.8 [6.63]
220 [99.9] 284 [128.9] 347 [157.5] 412 [187.0] 473 [214.7] 537 [243.8] 602 [273.3] 665 [301.9] 729 [331.0] 793 [360.0] 857 [389.0] 921 [418.1] 985 [447.2]
15 21 26 32 37 43 49 54 60 66 71 77 82
100301480 100301494 100301495 100301496 100301497 100301498 100301499 100301500 100301501 100301502 100301503 100301504 100301505
15 21 26 32 37 43 49 54 60 66 71 77 82
tba‡ tba 100302192 100302193 100302194 100302196 100302197 100302198 100302200 100302201 100302203 100302204 100302205
† This
factory-shimmed pump type should always be installed with a factory-shimmed coupling. If this pump type is mated with other factory-shimmed equipment, no shimming is required during assembly. Conversely, if this pump type is mated with nonfactory-shimmed equipment, the field shimming procedures must be followed. be assigned
‡ to
Pumps
■
© 2006 Schlumberger. All rights reserved. *Mark of Schlumberger
S6000N Pump
Return to Pumps
Return to Pumps 538 Series, Min. Casing Size 7-in. [177.8-mm] OD ARZ Carbon Steel Housing 30 40 50 60 70 80 90 100 110 120 130 140 150
ARZ Redalloy* Alloy
Length, ft [m]
Weight, lbm [kg]
Max. Stages
CR-CT † Part Number
Max. Stages
CR-CT † Part Number
4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.4 [6.20] 21.8 [6.63]
220 [99.9] 284 [128.9] 347 [157.5] 412 [187.0] 473 [214.7] 537 [243.8] 602 [273.3] 665 [301.9] 729 [331.0] 793 [360.0] 857 [389.0] 921 [418.1] 985 [447.2]
15 20 26 31 37 43 48 54 59 65 71 76 82
100304066 100304068 100304069 100304070 100304071 100304072 100304074 100304075 100304076 100304077 100304079 100304080 100304081
15 20 26 31 37 43 48 54 59 65 71 76 82
tba‡ tba 100304978 100304979 100304980 100304981 100304982 100304984 100304985 100304986 100304987 100304988 100304989
† This
factory-shimmed pump type should always be installed with a factory-shimmed coupling. If this pump type is mated with other factory-shimmed equipment, no shimming is required during assembly. Conversely, if this pump type is mated with nonfactory-shimmed equipment, the field shimming procedures must be followed. ‡ to be assigned
© 2006 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
S6000N Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
S6000N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
3,500–7,800 B/D 5.38 in. 1.000 in. 0.785 in.2 7.000 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
487 hp 735 hp Not applicable 6,000 psi Not applicable
Efficiency (%)
17.5
70
15.0
60
12.5
50
10.0
40
30
7.5
30
20
5.0
20
2.5
10
70
Head
60 Efficiency
50 Head (ft)
Power (hp)
40 Operating range
10
Power
0 0
1,000
2,000
3,000
4,000
5,000
6,000
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2006 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
7,000
8,000
9,000
0 10,000
0
Return to Pumps REDA* Pump S6000N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
90 70 Hz 80 65 Hz
70
60 Hz
60 Head (ft)
55 Hz
50
50 Hz 40 30 20 10
70 Hz
5.00 4.50 65 Hz
4.00 3.50
60 Hz
3.00 Power (hp)
55 Hz
2.50 2.00
50 Hz
1.50 1.00 0.50 0
2,500
5,000
7,500
10,000
12,500
15,000
Capacity (B/D)
© 2006 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
S6000N Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
S6000N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
464–1,033 m3⁄d 13.67 cm 2.54 cm 5.06 cm2 17.78 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
406 hp 613 hp Not applicable 41,369 kPa Not applicable
Efficiency (%)
7.00
70
6.00
60
5.00
50
4.00
40
7.50
3.00
30
5.00
2.00
20
1.00
10
17.50
15.00
Operating range
Head 12.50 Head (m)
Power (hp)
10.00 Efficiency
Power 2.50
0 0
250
500
750 Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2006 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
1,000
1,250
0 1,500
0
Return to Pumps REDA* Pump S6000N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz
25
65 Hz 20 60 Hz
Head (m)
55 Hz 15 50 Hz
10
5
5.00
70 Hz
4.50 65 Hz
4.00 3.50 60 Hz
3.00 Power (hp)
55 Hz
2.50 2.00
50 Hz
1.50 1.00 0.50 0
250
500
750
1,000
1,250
1,500
1,750
2,000
Capacity (m3/d)
© 2007 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
SN8500 Pump 538 Series, Min. Casing Size 7-in. [177.8-mm] OD Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 † to
ES Carbon Steel
ARZ Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
FL-CT Part Number
Max. Stages
FL-CT-ES Part Number
Max. Stages
FL-CT-ARZ Part Number
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
93 [42.2] 157 [71.3] 221 [100.3] 285 [129.4] 349 [158.4] 413 [187.5] 477 [216.6] 541 [245.6] 605 [274.7] 669 [303.7] 733 [332.8] 797 [361.8] 861 [390.9] 925 [420.0] 989 [449.0]
3 8 13 18 23 28 33 38 43 48 53 58 63 68 73
tba† tba tba 1237494 1237957 1237965 1237973 1237981 1237999 1238005 1238013 1238021 1238039 1238047 1238054
3 8 13 18 23 28 33 38 43 48 53 58 63 68 73
tba tba tba D237494 D23795P D237965 D237973 D23798P D23799Y 100030432 1237668 D23802P D238039 D238047 D23805P
3 8 13 18 23 28 33 38 43 48 53 58 63 68 73
tba tba tba tba tba 1240415 1240423 1240431 1240449 1240456 1240464 1240472 1240480 1240498 1240506
be assigned
Pumps
■
SN8500 Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps SN8500 Pump, 538 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
80
160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 330 340 350 360 370 380
76 81 86 91 96 101 106 111 116 121 126 131 136 141 146 149 154 159 164 169 174 179 184
2 1
90
1 2 1
100
1 2 1
2† 1†
110
1 2 1
1† 2† 3† 2† 1†
120
1 2† 1†
1† 2† 3† 2† 1†
130
140
150
1† 2† 1†
1† 2†
Note: Stage counts are for FL-CT-ES pumps. use of high-strength shaft in lowermost pump
† Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps Pumps
REDA* ESP
SN8500 Performance Pump Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
SN8500 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
6,000–11,000 B/D 5.38 in. 1.000 in. 0.785 in.2 7.000 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
375 hp 600 hp Not applicable 6,000 psi 6,000 psi
Efficiency (%)
17.50
70
15.00
60
50
12.50
50
40
10.00
40
30
7.50
30
20
5.00
20
2.50
10
70
Efficiency
60 Head
Head (ft)
Power (hp)
Operating range
Power
10
0 0
2,500
5,000
7,500 Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
10,000
12,500
0 15,000
0
Return to Pumps REDA* Pump SN8500 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
80 70 70 Hz
60
65 Hz 50 Head (ft)
60 Hz 40
55 Hz 50 Hz
30 20
10
70 Hz
5.00 4.50 65 Hz
4.00 3.50 Power (hp)
60 Hz
3.00 55 Hz
2.50 2.00
50 Hz
1.50 1.00 0.50 0
2,500
5,000
7,500
10,000
12,500
15,000
17,500
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
SN8500 Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
SN8500 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
795–1,457 m3 ⁄d 13.67 cm 2.54 cm 5.07 cm2 17.78 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
313 hp 500 hp Not applicable 41,370 kPa 41,370 kPa
Power (hp)
Efficiency (%)
7.00
70
6.00
60
5.00
50
10.00
4.00
40
7.50
3.00
30
2.00
20
1.00
10
17.50 Efficiency 15.00
Head (m)
Operating range
Head
12.50
5.00 Power 2.50
0 0
250
500
750
1,000
1,250
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
1,500
1,750
0 2,000
0
Return to Pumps REDA* Pump SN8500 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
25.00 22.50 20.00 70 Hz 17.50 65 Hz 15.00 Head (m)
60 Hz 12.50
55 Hz 50 Hz
10.00 7.50 5.00 2.50
70 Hz
5.00 4.50 65 Hz
4.00 3.50 Power (hp)
60 Hz
3.00 55 Hz
2.50 2.00
50 Hz
1.50 1.00 0.50 0
250
500
750
1,000
1,250
1,500
1,750
2,000
2,250
2,500
2,750
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
S8900N Pump 538 Series, Min. Casing Size 7-in. [177.8-mm] OD ES1 Carbon Steel Housing 40 50 60 70 80 90 100 110 120 130 140 150
CR-CT-ES1†
ES1 Redalloy* Alloy
Length, ft [m]
Weight, lbm [kg]
Max. Stages
Part Number
Max. Stages
CR-CT-ES1† Part Number
6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
285 [129.4] 349 [158.4] 413 [187.5] 477 [216.6] 541 [245.6] 605 [274.7] 669 [303.7] 733 [332.8] 797 [361.8] 861 [390.9] 925 [420.0] 989 [449.0]
18 23 28 33 38 43 48 53 58 63 68 73
tba‡ tba tba tba 100164276 100164277 100164279 100164280 100164281 100164282 100164284 100121480
18 23 28 33 38 43 48 53 58 63 68 73
tba tba tba tba tba tba 100164403 100164405 100164407 100164408 100164409 100164410
† This
factory-shimmed pump type should always be installed with a factory-shimmed coupling. If this pump type is mated with other factory-shimmed equipment, no shimming is required during assembly. Conversely, if this pump type is mated with nonfactory-shimmed equipment, the field shimming procedures must be followed. be assigned
‡ to
538 Series, Min. Casing Size 7-in. [177.8-mm] OD ARZ Carbon Steel
ARZ Redalloy Alloy
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
CR-CT-ARZ† Part Number
Max. Stages
CR-CT-ARZ † Part Number
40 50 60 70 80 90 100 110 120 130 140 150
6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
285 [129.4] 349 [158.4] 413 [187.5] 477 [216.6] 541 [245.6] 605 [274.7] 669 [303.7] 733 [332.8] 797 [361.8] 861 [390.9] 925 [420.0] 989 [449.0]
18 23 28 33 38 43 48 53 58 63 68 73
tba‡ tba tba tba 100217185 100217186 100217188 100217189 100217190 100217191 100217192 100217603
18 23 28 33 38 43 48 53 58 63 68 73
tba tba tba tba tba tba 100217597 100217598 100217599 100217600 100217602 100217603
† This
factory-shimmed pump type should always be installed with a factory-shimmed coupling. If this pump type is mated with other factory-shimmed equipment, no shimming is required during assembly. Conversely, if this pump type is mated with nonfactory-shimmed equipment, the field shimming procedures must be followed. be assigned
‡ to
Pumps
■
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
S8900N Pump
Return to Pumps
Return to Pumps Advanced Designs—538 Series, Min. Casing Size 7-in. [177.8-mm] OD Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
Part Number
Configuration
Housing Material
150 150 150 150 150 150 150 150
21.7 [6.62] 21.7 [6.62] 21.7 [6.62] 21.7 [6.62] 21.7 [6.62] 21.7 [6.62] 21.7 [6.62] 21.7 [6.62]
989 [449.0] 989 [449.0] 989 [449.0] 989 [449.0] 989 [449.0] 989 [449.0] 989 [449.0] 989 [449.0]
73 73 73 73 73 73 73 73
100151317 100217644 100187803 100164598 100187848 100164602 100218178 100217760
CR-UT-ES1† CR-UT-ARZ† CR-CT-ES1† CR-LT-ES1† CR-CT-ES1† CR-LT-ES1† CR-CT-ARZ† CR-LT-ARZ†
Carbon Steel Carbon Steel Carbon Steel Redalloy* alloy Redalloy alloy Redalloy alloy Redalloy alloy Redalloy alloy
Integral Intake
Yes Yes Yes
Integral AGH* Device
Yes Yes Yes Yes Yes Yes
† This
factory-shimmed pump type should always be installed with a factory-shimmed coupling. If this pump type is mated with other factory-shimmed equipment, no shimming is required during assembly. Conversely, if this pump type is mated with nonfactory-shimmed equipment, the field shimming procedures must be followed.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
S8900N Performance Pump Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
S8900N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
4,000–11,000 B/D 5.38 in. 1.000 in. 0.785 in.2 7.000 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
375 hp 600 hp 5,000 psi 6,000 psi 6,000 psi
Efficiency (%)
17.50
70
15.00
60
12.50
50
10.00
40
30
7.50
30
20
5.00
20
2.50
10
70
60
Head
50 Head (ft)
Power (hp)
Operating range
40 Efficiency
Power 10
0 0
2,500
5,000
7,500 Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
10,000
12,500
0 15,000
0
Return to Pumps REDA* Pump S8900N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
80 70 70 Hz 60 65 Hz 50 Head (ft)
60 Hz
40
55 Hz 50 Hz
30 20
10
70 Hz 5.00 65 Hz 4.00 60 Hz Power (hp)
3.00
55 Hz 50 Hz
2.00 1.00
0
2,500
5,000
7,500
10,000
12,500
15,000
17,500
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
S8900N Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
S8900N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
530–1,457 m3 ⁄d 13.67 cm 2.54 cm 5.07 cm2 17.78 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
313 hp 500 hp 34,475 kPa 41,370 kPa 41,370 kPa
Power (hp)
Efficiency (%)
17.50
7.00
70
15.00
6.00
60
5.00
50
4.00
40
3.00
30
2.00
20
1.00
10
Head
12.50
Operating range Head (m)
10.00 Efficiency
7.50
5.00
Power
2.50
0 0
250
500
750
1,000
1,250
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
1,500
1,750
0 2,000
0
Return to Pumps REDA* Pump S8900N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
25.00 22.50 20.00
70 Hz
17.50
65 Hz
15.00 Head (m)
60 Hz
12.50
55 Hz
10.00
50 Hz
7.50 5.00 2.50
70 Hz 5.00 65 Hz 4.00 60 Hz Power (hp)
3.00 55 Hz 50 Hz
2.00 1.00
0
250
500
750
1,000
1,250
1,500
1,750
2,000
2,250
2,500
2,750
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
HN13500 Pump 562 Series, Min. Casing Size 7-in. [177.8-mm] OD Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 † to
ES Carbon Steel
ARZ Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
C-CT Part Number
Max. Stages
C-CT-ES Part Number
Max. Stages
C-CT-ARZ Part Number
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19]
98 [44.5] 163 [74.0] 228 [103.5] 293 [133.0] 356 [161.6] 410 [186.1] 473 [214.7] 532 [241.5] 599 [271.9] 658 [298.7] 716 [325.1] 774 [351.4] 833 [378.2] 891 [404.5]
3 7 11 15 20 24 28 32 37 41 45 49 54 58
tba† tba tba tba 1299734 1229327 1229244 1294651 tba 1229269 tba tba tba 1253988
3 7 11 15 20 24 28 32 37 41 45 49 54 58
tba tba tba tba 1241157 tba tba 1246644 tba 1246651 tba tba tba tba
3 7 11 15 20 24 28 32 37 41 45 49 54 58
1141514 1141522 1141530 1141548 1141555 1141563 1141571 1141589 1141597 1141605 1141613 1141621 1141639 1141647
be assigned
562 Series, Min. Casing Size 7-in. [177.8-mm] OD Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 † to
ES Carbon Steel
ARZ Carbon Steel
lbm [kg]
Max. Stages
C-LT Part Number
Max. Stages
C-LT-ES Part Number
Max. Stages
C-LT-ARZ Part Number
98 [44.5] 163 [74.0] 228 [103.5] 293 [133.0] 356 [161.6] 410 [186.1] 473 [214.7] 532 [241.5] 599 [271.9] 658 [298.7] 716 [325.1] 774 [351.4] 833 [378.2] 891 [404.5]
3 7 11 15 20 24 28 32 37 41 45 49 54 58
tba† tba tba tba tba tba tba tba tba tba tba tba tba tba
3 7 11 15 20 24 28 32 37 41 45 49 54 58
tba tba tba tba tba tba tba tba tba tba tba tba tba tba
3 7 11 15 20 24 28 32 37 41 45 49 54 58
1136142 1136159 1136167 1136175 1136183 1136191 1136209 1136217 1136225 1136233 1136241 1136258 1136266 1136274
Length,
Weight,
ft [m] 2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19]
be assigned
Pumps
■
HN13500 Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps HN13500 Pump, 562 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
70
80
150 160 170 180 190 200 210 220
60 64 69 74 78 82 86 90
1†
1† 2† 1†
90
1† 2† 1†
100
1† 2† 1†
110
120
130
140
1† 2†
Note: Stage counts are for C-CT-ES pumps. use of high-strength shaft in lower most pump
† Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps Pumps
REDA* ESP
HN13500 Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
HN13500 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
5,000–18,000 B/D 5.38 in. 1.000 in. 0.785 in.2 7.000 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
375 hp 600 hp 3,000 psi Not applicable 3,600 psi
Power (hp)
Efficiency (%)
Head 60
15.00
60
50
12.50
50
10.00
40
7.50
30
5.00
20
2.50
10
40 Efficiency
Head (ft) 30
Power
20
Operating range
10
0 0
2,500
5,000
7,500
10,000
12,500
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
15,000
17,500
20,000
0 22,500
0
Return to Pumps REDA* Pump HN13500 Performance Curve Curve computed for one stage in fluid of 1.00 sg. 70 Hz 80 65 Hz 70 60 Hz 60 55 Hz 50 Head (ft)
50 Hz 40
30 20
10
10.00
70 Hz
9.00 8.00
65 Hz
7.00 60 Hz
6.00 Power (hp)
5.00
55 Hz
4.00
50 Hz
3.00 2.00 1.00 0
2,500
5,000
7,500
10,000
12,500
15,000
17,500
20,000
22,500
25,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
HN13500 Performance Curve Pump
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
HN13500 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
662–2,385 m3 ⁄d 14.30 cm 2.54 cm 5.07 cm2 17.78 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
313 hp 500 hp 20,685 kPa Not applicable 24,822 kPa
Power (hp)
Efficiency (%)
15.00
60
12.50
50
10.00
40
7.50
7.50
30
5.00
5.00
20
2.50
10
15.00 Head 12.50
Operating range
10.00 Head (m)
Efficiency
Power 2.50
0 0
500
1,000
1,500 Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
2,000
2,500
0 3,000
0
Return to Pumps REDA* Pump HN13500 Performance Curve Curve computed for one stage in fluid of 1.00 sg. 70 Hz 25.00 65 Hz
22.50 20.00
60 Hz
17.50
55 Hz
15.00 Head (m)
50 Hz 12.50 10.00 7.50 5.00 2.50
10.00
70 Hz
9.00 8.00
65 Hz
7.00 60 Hz
6.00 Power (hp)
5.00
55 Hz
4.00
50 Hz
3.00 2.00 1.00 0
500
1,000
1,500
2,000
2,500
3,000
3,500
4,000
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
HN15000 Pump 562 Series, Min. Casing Size 7-in. [177.8-mm] OD Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 † to
ES Carbon Steel
ARZ Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
C-CT Part Number
Max. Stages
C-CT-ES Part Number
Max. Stages
C-CT-ARZ Part Number
2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19]
98 [44.5] 163 [74.0] 228 [103.5] 293 [133.0] 356 [161.6] 410 [186.1] 473 [214.7] 532 [241.5] 599 [271.9] 658 [298.7] 716 [325.1] 774 [351.4] 833 [378.2] 891 [404.5]
3 7 11 15 20 24 28 32 37 41 45 49 54 58
tba† tba tba 1114818 1194166 tba 1114792 1090448 tba tba tba tba tba tba
3 7 11 15 20 24 28 32 37 41 45 49 54 58
tba tba tba tba tba tba tba tba tba tba tba tba tba tba
3 7 11 15 20 24 28 32 37 41 45 49 54 58
1141654 1141662 1141670 1141688 1141696 1141704 1141712 1141720 1141738 1141746 1141753 1141761 1141779 1141787
be assigned
562 Series, Min. Casing Size 7-in. [177.8-mm] OD Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 † to
ES Carbon Steel
ARZ Carbon Steel
lbm [kg]
Max. Stages
C-LT Part Number
Max. Stages
C-LT-ES Part Number
Max. Stages
C-LT-ARZ Part Number
98 [44.5] 163 [74.0] 228 [103.5] 293 [133.0] 356 [161.6] 410 [186.1] 473 [214.7] 532 [241.5] 599 [271.9] 658 [298.7] 716 [325.1] 774 [351.4] 833 [378.2] 891 [404.5]
3 7 11 15 20 24 28 32 37 41 45 49 54 58
tba† tba 1075191 tba 1005354 tba 1114800 1035567 tba 1114826 1035575 tba tba 1035583
3 7 11 15 20 24 28 32 37 41 45 49 54 58
tba tba tba tba tba tba tba tba tba tba tba tba 1229392 tba
3 7 11 15 20 24 28 32 37 41 45 49 54 58
1136704 1136712 1136720 1136738 1136746 1136753 1136761 1136779 1136787 1136795 1136803 1136811 1136829 1136837
Length,
Weight,
ft [m] 2.1 [0.64] 3.5 [1.07] 4.9 [1.49] 6.3 [1.92] 7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19]
be assigned
Pumps
■
HN15000 Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps HN15000 Pump, 562 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
70
80
150 160 170 180 190 200
60 64 69 74 78 82
1†
1† 2† 1†
90
1† 2† 1†
100
110
120
130
1† 2†
Note: Stage counts are for C-CT-ES pumps. use of high-strength shaft in lowermost pump
† Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps Pumps
REDA* ESP
HN15000 Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
HN15000 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
12,000–18,000 B/D 5.63 in. 1.000 in. 0.785 in.2 7.000 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
375 hp 600 hp 3,000 psi Not applicable 3,600 psi
Head
Power (hp)
Efficiency (%)
15.00
60
12.50
50
10.00
40
7.50
30
20
5.00
20
10
2.50
10
60
Operating range 50
40
Efficiency
Head (ft) 30 Power
0 0
2,500
5,000
7,500
10,000
12,500
15,000
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
17,500
20,000
22,500
0 25,000
0
Return to Pumps REDA* Pump HN15000 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
90 80 70 70 Hz 60 65 Hz Head (ft)
50
60 Hz 55 Hz
40
50 Hz 30 20 10
70 Hz 10.00 65 Hz 7.50 Power (hp)
60 Hz 55 Hz
5.00 50 Hz 2.50
0
5,000
10,000
15,000
20,000
25,000
30,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
HN15000 Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
HN15000 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
1,590–2,385 m3 ⁄d 14.30 cm 2.54 cm 5.07 cm2 17.78 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
313 hp 500 hp 20,685 kPa Not applicable 24,822 kPa
Power (hp)
Efficiency (%)
15.00
60
12.50
50
10.00
40
7.50
7.50
30
5.00
5.00
20
2.50
10
15.00
Head Operating range
12.50
10.00
Efficiency
Head (m)
Power 2.50
0 0
500
1,000
1,500
2,000 Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
2,500
3,000
0 3,500
0
Return to Pumps REDA* Pump HN15000 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
25
20
70 Hz 65 Hz
Head (m)
15
60 Hz 55 Hz 50 Hz
10
5
70 Hz 10.00 65 Hz 7.50 Power (hp)
60 Hz 55 Hz
5.00 50 Hz 2.50
0
500
1,000
1,500
2,000
2,500
3,000
3,500
4,000
4,500
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
H15500N Pump 562 Series, Min. Casing Size 7-in. [177.8-mm] OD Carbon Steel Housing 50 60 70 80 90 100 110 120 130 140 150
ARZ Carbon Steel
ARZ Redalloy* Alloy
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
C-CT-ES-ZS Part Number
Max. Stages
C-CT-ARZ-ZS Part Number
Max. Stages
C-CT-ARZ-ZS Part Number
7.7 [2.35] 9.1[2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
356 [161.62] 410 [186.14] 473 [214.74] 532 [241.53] 599 [271.95] 658 [298.73] 716 [325.06] 774 [351.40] 833 [378.18] 891 [404.51] 949 [430.85]
15 18 21 24 27 30 33 37 40 43 46
100231116 100244668 100244669 100231131 100244670 100244671 100244672 100244673 100244674 100244675 100244678
15 18 21 24 27 30 33 37 40 43 46
100230445 100244394 100244396 100230456 100244397 100230464 100244398 100244399 100244401 100244402 100244403
15 18 21 24 27 30 33 37 40 43 46
100244572 100230523 100244574 100244576 100244577 100230529 100230556 100230892 100244580 100244581 100230896
562 Series, Min. Casing Size 7-in. [177.8-mm] OD Carbon Steel Housing 50 60 70 80 90 100 110 120 130 140 150
Pumps
■
ARZ Carbon Steel
ARZ Redalloy Alloy
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
C-LT-ES-ZS Part Number
Max. Stages
C-LT-ARZ-ZS Part Number
Max. Stages
C-LT-ARZ-ZS Part Number
7.9 [2.41] 9.3 [2.84] 10.7 [3.26] 12.1 [3.69] 13.5 [4.12] 14.9 [4.54] 16.3 [4.97] 17.7 [5.40] 19.1 [5.83] 20.5 [6.25] 21.9 [6.68]
356 [161.62] 410 [186.14] 473 [214.74] 532 [241.53] 599 [271.95] 658 [298.73] 716 [325.06] 774 [351.40] 833 [378.18] 891[404.51] 949 430.85]
15 18 21 24 27 30 33 37 40 43 46
100239713 100245723 100245725 100239714 100245727 100245731 100239715 100245735 100245736 100245739 100245741
15 18 21 24 27 30 33 37 40 43 46
100238658 100245402 100238659 100238660 100245403 100238661 100245404 100245405 100238662 100245406 100245407
15 18 21 24 27 30 33 37 40 43 46
100245440 100245441 100245442 100245444 100245446 100245447 100238587 100238596 100245448 100238612 100245449
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
H15500N Pump
Return to Pumps
Return to Pumps H15500 Pump, 562 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing 160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320
Number of Stages 48† 51† 54† 57† 60† 63† 66† 70† 74† 77† 80† 83† 86† 89† 92† 93† 96†, §
80
90
2 1 1
1 1
100
1 1 2 1
2‡ 1‡
110
1 2 1
120
1 2 1
130
1 2 1
140
1 2‡ 1‡
150
1‡ 2‡
1‡ 2‡
Note: Stage count for FL-CT-ES Pump use of high load bearing in protector for compression pumps use of high-strength shaft in lowermost pump § Requires use of high load bearing in protector for floater pumps † Requires ‡ Requires
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
H15500N Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
H15500N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
11,000–20,000 B/D 5.63 in. 1.188 in. 1.108 in.2 7.000 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
637 hp 1,019 hp 3,000 psi Not applicable Not applicable
70
60
Head
50 Head (ft)
Efficiency
40
Operating range
30
20 Power
10
0 0
2,500
5,000
7,500
10,000
12,500
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
15,000
17,500
20,000
Power (hp)
Efficiency (%)
35
70
30
60
25
50
20
40
15
30
10
20
5
10
0 22,500
0
Return to Pumps REDA* Pump H15500N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz
70 65 Hz
60
60 Hz 50 55 Hz Head (m)
40
50 Hz
30
20
10
12.50 70 Hz 10.00 Power (hp)
65 Hz
7.50
60 Hz 55 Hz
5.00
50 Hz
2.50
0
5,000
10,000
15,000
20,000
25,000
30,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
H15500N Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
H15500N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
1,457–2,650 m3 ⁄d 14.30 cm 3.016 cm 7.145 cm2 17.780 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
531 hp 849 hp 20,685 kPa Not applicable Not applicable
Power (hp)
Efficiency (%)
17.50
70
15.00
60
12.50
50
10.00
40
7.50
7.50
30
5.00
5.00
20
2.50
10
17.50
15.00 Operating range Head
12.50 Head (m)
10.00 Efficiency
Power 2.50
0 0
500
1,000
1,500 Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
2,000
2,500
0 3,000
0
Return to Pumps REDA* Pump H15500N Performance Curve Curve computed for one stage in fluid of 1.00 sg. 70 Hz 22.50 65 Hz 20.00 60 Hz
17.50 15.00 Head (m)
55 Hz
12.50
50 Hz
10.00 7.50 5.00 2.50
12.50 70 Hz 10.00 Power (hp)
65 Hz
7.50
60 Hz 55 Hz
5.00
50 Hz
2.50
0
500
1,000
1,500
2,000
2,500
3,000
3,500
4,000
4,500
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
H21500N Pump 562 Series, Min. Casing Size 7-in. [177.8-mm] OD ES Carbon Steel Housing 50 60 70 80 90 100 110 120 130 140 150 † to
ARZ Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
C-CT-ES Part Number
Max. Stages
C-CT-ARZ Part Number
7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
356 [161.6] 410 [186.1] 473 [214.7] 532 [241.5] 599 [271.9] 658 [298.7] 716 [325.1] 774 [351.4] 833 [378.2] 891 [404.5] 949 [430.8]
15 18 21 24 27 30 33 37 40 43 46
2010435 tba† tba 2010436 tba tba tba tba tba tba tba
15 18 21 24 27 30 33 37 40 43 46
2010433 tba tba 2010434 tba 2010446 tba tba tba tba tba
be assigned
562 Series, Min. Casing Size 7-in. [177.8-mm] OD ES Carbon Steel Housing 50 60 70 80 90 100 110 120 130 140 150 † to
Length,
Weight,
ft [m]
lbm [kg]
7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
356 [161.6] 410 [186.1] 473 [214.7] 532 [241.5] 599 [271.9] 658 [298.7] 716 [325.1] 774 [351.4] 833 [378.2] 891 [404.5] 949 [430.8]
Max. Stages 15 18 21 24 27 30 33 37 40 43 46
C-LT-ES Part Number 2010431 tba† tba 2010432 tba tba tba tba tba tba tba
ARZ Carbon Steel
Max. Stages 15 18 21 24 27 30 33 37 40 43 46
C-LT-ARZ Part Number 2010429 tba 2010461 2010430 tba 2010447 tba tba 2010437 tba tba
be assigned
Pumps
■
H21500N Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps H21500N Pump, 562 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
70
160 170 180 190 200 210 220 230 240 250 260 270
50 53 56 59 62 65 68 72 76 79 82 85
2 1
80
1 2† 1†
90
1† 2† 1†
100
1† 2† 1†
110
1† 2† 1†
120
130
1† 2† 1†
1†
140
Note: Stage counts are for C-CT-ES pumps. use of high-strength shaft in lowermost pump
† Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps Pumps
REDA* ESP
H21500N Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
H21500N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
17,500–24,000 B/D 5.63 in. 1.188 in. 1.108 in.2 7 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
637 hp 1,019 hp 3.000 psi Not applicable 3,600 psi
70
60
Head
50 Head (ft)
40
Power (hp)
Efficiency (%)
35
70
30
60
25
50
20
40
15
30
10
20
5
10
Efficiency 30
20 Power 10 Operating range 0 0
5,000
10,000
15,000 Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
20,000
25,000
0 30,000
0
Return to Pumps REDA* Pump H21500N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
80
70 Hz
70
65 Hz
60
60 Hz
50 Head (ft)
55 Hz 50 Hz
40
30 20
10
70 Hz 17.50 15.00
65 Hz
12.50 Power (hp)
60 Hz
10.00
55 Hz
7.50
50 Hz
5.00 2.50
0
5,000
10,000
15,000
20,000
25,000
30,000
35,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
H21500N Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
H21500N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
2,319–3,180 m3 ⁄d 14.30 cm 3.02 cm 7.15 cm2 17.78 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
531 hp 849 hp 20,685 kPa Not applicable 24,822 kPa
17.50
Efficiency (%)
17.50
70
15.00
60
12.50
50
10.00
10.00
40
7.50
7.50
30
5.00
20
2.50
10
Efficiency
15.00
Head
12.50 Head (m)
Power (hp)
5.00
Power Operating range
2.50
0 0
500
1,000
1,500
2,000
2,500
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
3,000
3,500
0 4,000
0
Return to Pumps REDA* Pump H21500N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz
22.50
65 Hz 20.00 60 Hz
17.50 15.00 Head (m)
55 Hz
12.50
50 Hz
10.00 7.50 5.00 2.50
70 Hz 17.50 65 Hz
15.00 12.50 Power (hp)
60 Hz
10.00
55 Hz
7.50
50 Hz
5.00 2.50
0
1,000
2,000
3,000
4,000
5,000
6,000
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
H28000N Pump 562 Series, Min. Casing Size 7-in. [177.8-mm] OD ES Carbon Steel Housing 50 60 70 80 90 100 110 120 130 140 150 † to
ARZ-SS Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
C-CT-ES Part Number
Max. Stages
C-CT-ARZ-SS Part Number
7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
356 [161.6] 410 [186.1] 473 [214.7] 532 [241.5] 599 [271.9] 658 [298.7] 716 [325.1] 774 [351.4] 833 [378.2] 891 [404.5] 949 [430.8]
13 16 19 21 24 27 30 33 35 38 41
tba† tba 1293117 tba tba tba tba tba tba tba tba
13 16 19 21 24 27 30 33 35 38 41
tba tba 1293075 1324599 tba tba tba tba tba tba tba
be assigned
562 Series, Min. Casing Size 7-in. [177.8-mm] OD ES Carbon Steel Housing 50 60 70 80 90 100 110 120 130 140 150 † to
ARZ-SS Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
C-LT-ES Part Number
Max. Stages
C-LT-ARZ-SS Part Number
7.7 [2.35] 9.1 [2.78] 10.5 [3.20] 11.9 [3.63] 13.3 [4.06] 14.7 [4.48] 16.1 [4.91] 17.5 [5.34] 18.9 [5.76] 20.3 [6.19] 21.7 [6.62]
356 [161.6] 410 [186.1] 473 [214.7] 532 [241.5] 599 [271.9] 658 [298.7] 716 [325.1] 774 [351.4] 833 [378.2] 891 [404.5] 949 [430.8]
13 16 19 21 24 27 30 33 35 38 41
tba† 100038869 1293133 tba tba 2011417 tba tba tba tba tba
13 16 19 21 24 27 30 33 35 38 41
tba tba 1293091 tba tba tba tba tba tba tba tba
be assigned
Pumps
■
H28000N Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps H28000N Pump, 562 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
80
160 170 180 190 200
50 53 56 59 62
2† 1†
90
1† 2† 1†
100
110
120
130
140
150
1† 2†
Note: Stage counts are for C-CT-ES pumps. use of high-strength shaft in lowermost pump
† Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps Pumps
REDA* ESP
H28000N Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
H28000N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
28,000–36,000 B/D 5.63 in. 1.188 in. 1.108 in.2 7.000 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
637 hp 1,019 hp 3,000 psi Not applicable 3,600 psi
Efficiency
Power (hp)
Efficiency (%)
60
60
50
50
50
40
40
40
30
30
20
20
10
10
60 Head
Head (ft) 30 Operating range 20 Power
10
0 0
5,000
10,000
15,000
20,000
25,000
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
30,000
35,000
0 40,000
0
Return to Pumps REDA* Pump H28000N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70
70 Hz
60
65 Hz 60 Hz
50
Head (ft)
55 Hz 40 50 Hz 30
20
10
70 Hz
25.00 22.50 65 Hz
20.00 17.50 Power (hp)
60 Hz
15.00 55 Hz
12.50 10.00
50 Hz
7.50 5.00 2.50 0
5,000
10,000
15,000
20,000
25,000
30,000
35,000
40,000
45,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
H28000N Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
H28000N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
3,710–4,770 m3 ⁄d 14.30 cm 3.02 cm 7.15 cm2 17.78 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
531 hp 849 hp 20,685 kPa Not applicable 24,822 kPa
Power (hp)
Efficiency (%)
30
60
25
50
10.00
20
40
7.50
15
30
5.00
10
20
5
10
15.00 Efficiency 12.50
Operating range Head
Head (m)
Power 2.50
0 0
500
1,000
1,500
2,000
2,500
3,000
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
3,500
4,000
4,500
0 5,000
0
Return to Pumps REDA* Pump H28000N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
22.50 70 Hz 20.00 65 Hz
17.50 60 Hz
15.00 Head (m)
55 Hz
12.50 50 Hz 10.00 7.50 5.00 2.50
70 Hz
25.00 22.50
65 Hz
20.00 17.50 Power (hp)
60 Hz
15.00 55 Hz
12.50 10.00
50 Hz
7.50 5.00 2.50 0
1,000
2,000
3,000
4,000
5,000
6,000
7,000
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
J7000N Pump 675 Series, Min. Casing Size 8 5⁄8-in. [219.1-mm] OD Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 † to
ES Carbon Steel
ARZ Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
C-CT Part Number
Max. Stages
C-CT-ES Part Number
Max. Stages
C-CT-ARZ Part Number
2.7 [0.82] 4.1 [1.25] 5.4 [1.65] 6.8 [2.07] 8.2 [2.50] 9.6 [2.93] 10.9 [3.32] 12.3 [3.75] 13.7 [4.18] 15.1 [4.61] 16.4 [5.00] 17.8 [5.43] 19.2 [5.86] 20.6 [6.28] 21.9 [6.68]
195 [88.5] 276 [125.3] 357 [162.1] 438 [198.9] 519 [235.6] 600 [272.4] 681 [309.2] 762 [345.9] 843 [382.7] 924 [419.5] 1,005 [456.3] 1,086 [493.0] 1,167 [529.8] 1,248 [566.6] 1,329 [603.4]
2 6 9 13 16 19 23 26 29 33 36 40 43 47 50
tba† tba tba tba tba tba 1307461 tba tba tba tba tba tba tba tba
2 6 9 13 16 19 23 26 29 33 36 40 43 47 50
tba tba tba tba tba tba 1307479 tba tba D32468V tba tba tba tba tba
2 6 9 13 16 19 23 26 29 33 36 40 43 47 50
tba tba 100051081 tba tba tba 1307487 tba tba tba tba tba tba tba tba
be assigned
675 Series, Min. Casing Size 8 5⁄8-in. [219.1-mm] OD Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 † to
ES Carbon Steel
ARZ Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
C-LT Part Number
Max. Stages
C-LT-ES Part Number
Max. Stages
C-LT-ARZ Part Number
2.9 [0.88] 4.3 [1.31] 5.6 [1.71] 7.0 [2.14] 8.4 [2.56] 9.8 [2.99] 11.1 [3.39] 12.5 [3.81] 13.9 [4.24] 15.3 [4.67] 16.6 [5.06] 18.0 [5.49] 19.4 [5.92] 20.8 [6.34] 22.1 [6.74]
207 [63.1] 288 [87.8] 369 [112.6] 450 [137.3] 531 [162.0] 612 [186.7] 693 [211.4] 774 [236.1] 855 [260.8] 936 [285.5] 1,017 [310.2] 1,098 [334.9] 1,179 [359.6] 1,260 [384.3] 1,341 [409.0]
2 6 9 13 16 19 23 26 29 33 36 40 43 47 50
tba† tba tba tba tba 2006213 1307495 tba tba tba tba tba 1339050 tba tba
2 6 9 13 16 19 23 26 29 33 36 40 43 47 50
tba tba tba tba tba tba 1307503 tba D32463V tba tba tba tba tba tba
2 6 6 13 16 19 23 26 29 33 36 40 43 47 50
tba tba tba tba tba tba 1307511 tba tba tba tba tba tba tba tba
be assigned
Pumps
■
J7000N Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps J7000N Pump, 675 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
80
160 170 180 190
52 55 58 62
2 1
90
100
1 2 1
1
110
120
130
140
150
Note: Stage counts are for C-CT-ES pumps
ESP Catalog
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps Pumps
REDA* ESP
J7000N Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
J7000N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
4,500–9,000 B/D 6.75 in. 1.188 in. 1.188 in.2 8.625 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
637 hp 1,019 hp Not applicable 3,060 psi 3,060 psi
Power (hp)
Efficiency (%)
35
70
30
60
25
50
100
20
40
75
15
30
50
10
20
5
10
175 Efficiency
150
Operating range 125 Head Head (ft)
25
Power
0 0
2,500
5,000
7,500 Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
10,000
0 12,500
0
Return to Pumps REDA* Pump J7000N Performance Curve Curve computed for one stage in fluid of 1.00 sg. 70 Hz
125
65 Hz
60 Hz 100 55 Hz Head (ft)
75
50 Hz
50
25
12.50 70 Hz 10.00 65 Hz Power (hp)
7.50
60 Hz 55 Hz
5.00 50 Hz
2.50
0
2,500
5,000
7,500
10,000
12,500
15,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
J7000N Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
J7000N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
596–1,192 m3 ⁄d 17.15 cm 3.02 cm 7.15 cm2 21.91 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
531 hp 849 hp Not applicable 21,099 kPa 21,099 kPa
Power (hp)
Efficiency (%)
17.50
70
15.00
60
12.50
50
20
10.00
40
15
7.50
30
10
5.00
20
2.50
10
35 Efficiency 30 Operating range 25 Head (m)
Head
Power
5
0 0
250
500
750
1,000 Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
1,250
1,500
0 1,750
0
Return to Pumps REDA* Pump J7000N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
45
70 Hz
40 65 Hz 35 60 Hz 30 55 Hz Head (m)
25 50 Hz 20 15 10 5
12.50 70 Hz 10.00 65 Hz Power (hp)
7.50
60 Hz 55 Hz
5.00
50 Hz
2.50
0
250
500
750
1,000
1,250
1,500
1,750
2,000
2,250
2,500
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
J12000N Pump 675 Series, Min. Casing Size 8 5⁄8-in. [219.1-mm] OD Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 † to
ES Carbon Steel
ARZ-ZS Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
C-CT Part Number
Max. Stages
C-CT-ES Part Number
Max. Stages
C-CT-ARZ-ZS Part Number
2.7 [0.82] 4.1 [1.25] 5.4 [1.65] 6.8 [2.07] 8.2 [2.50] 9.6 [2.93] 10.9 [3.32] 12.3 [3.75] 13.7 [4.18] 15.1 [4.61] 16.4 [5.00] 17.8 [5.43] 19.2 [5.86] 20.6 [6.28] 21.9 [6.68]
195 [88.5] 276 [125.3] 357 [162.1] 438 [198.9] 519 [235.6] 600 [272.4] 681 [309.2] 762 [345.9] 843 [382.7] 924 [419.5] 1,005 [456.3] 1,086 [493.0] 1,167 [529.8] 1,248 [566.6] 1,329 [603.4]
2 5 8 11 14 17 20 23 26 29 32 35 38 41 44
tba† tba 2005191 1324698 tba 1315464 tba 1315589 tba tba 2005311 1306901 100034562 tba tba
2 5 8 11 14 17 20 23 26 29 32 35 38 41 44
tba tba tba tba tba D315464 2000331 tba tba tba tba 1306927 tba 2003500 tba
2 5 8 11 14 17 20 23 26 29 32 35 38 41 44
tba tba tba tba tba tba tba tba tba tba tba 1306935 tba tba tba
be assigned
675 Series, Min. Casing Size 8 5⁄8-in. [219.1-mm] OD Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 † to
ES Carbon Steel
ARZ-ZS Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
C-LT Part Number
Max. Stages
C-LT-ES Part Number
Max. Stages
C-LT-ARZ-ZS Part Number
2.9 [0.88] 4.3 [1.31] 5.6 [1.71] 7.0 [2.14] 8.4 [2.56] 9.8 [2.99] 11.1 [3.39] 12.5 [3.81] 13.9 [4.24] 15.3 [4.67] 16.6 [5.06] 18.0 [5.49] 19.4 [5.92] 20.8 [6.34] 22.1 [6.74]
207 [63.1] 288 [87.8] 369 [112.6] 450 [137.3] 531 [162.0] 612 [186.7] 693 [211.4] 774 [236.1] 855 [260.8] 936 [285.5] 1,017 [310.2] 1,098 [334.9] 1,179 [359.6] 1,260 [384.3] 1,341 [409.0]
2 5 8 11 14 17 20 23 26 29 32 35 38 41 44
tba† tba tba tba tba 1344654 tba 1324664 tba tba 1324656 1306943 1309111 tba tba
2 5 8 11 14 17 20 23 26 29 32 35 38 41 44
tba tba tba tba 2003596 D344654 tba tba tba tba tba 1306950 tba tba tba
2 5 8 11 14 17 20 23 26 29 32 35 38 41 44
tba tba tba tba tba tba tba tba tba tba tba 1306968 tba tba tba
be assigned
Pumps
■
J12000N Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps J12000N Pump, 675 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
80
160 170 180 190 200 210 220
46 49 52 55 58 61 64
2 1
90
1 2 1†
100
1† 2† 1†
110
120
130
140
150
1† 2†
Note: Stage counts are for C-CT-ES pumps. use of high-strength shaft in lowermost pump
† Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps Pumps
REDA* ESP
J12000N Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
J12000N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
8,000–18,500 B/D 6.75 in. 1.188 in. 1.108 in.2 8.625 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
637 hp 1,019 hp Not applicable 3,060 psi 3,060 psi
Power (hp)
Efficiency (%)
35
70
30
60
25
50
100
20
40
75
15
30
50
10
20
5
10
175 Efficiency 150 Operating range 125 Head Head (ft)
Power 25
0 0
2,500
5,000
7,500
10,000
12,500
15,000
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
17,500
20,000
22,500
0 25,000
0
Return to Pumps REDA* Pump J12000N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz 125 65 Hz
60 Hz
100
55 Hz Head (ft)
75
50 Hz
50
25
70 Hz 17.50 65 Hz
15.00 12.50 Power (hp)
60 Hz
10.00
55 Hz
7.50
50 Hz
5.00 2.50
0
2,500
5,000
7,500
10,000
12,500
15,000
17,500
20,000
22,500
25,000
27,500
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
J12000N Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
J12000N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
1,060–2,451 m3 ⁄d 17.15 cm 3.02 cm 7.15 cm2 21.91 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
531 hp 849 hp Not applicable 21,099 kPa 21,099 kPa
Power (hp)
Efficiency (%)
17.50
70
15.00
60
12.50
50
20
10.00
40
15
7.50
30
5.00
20
2.50
10
35 Efficiency 30 Operating range 25 Head Head (m)
10
Power
5
0 0
500
1,000
1,500
2,000 Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
2,500
3,000
0 3,500
0
Return to Pumps REDA* Pump J12000N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
45 70 Hz 40 65 Hz
35
60 Hz
30 Head (m)
55 Hz
25
50 Hz 20 15 10 5
70 Hz 17.50 65 Hz
15.00 12.50 Power (hp)
60 Hz
10.00
55 Hz
7.50
50 Hz
5.00 2.50
0
500
1,000
1,500
2,000
2,500
3,000
3,500
4,000
4,500
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
JN16000 Pump 675 Series, Min. Casing Size 8 5⁄8-in. [219.1-mm] OD Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 † to
ES Carbon Steel
ARZ-ZS Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
C-CT Part Number
Max. Stages
C-CT-ES Part Number
Max. Stages
C-CT-ARZ-ZS Part Number
2.7 [0.82] 4.1 [1.25] 5.4 [1.65] 6.8 [2.07] 8.2 [2.50] 9.6 [2.93] 10.9 [3.32] 12.3 [3.75] 13.7 [4.18] 15.1 [4.61] 16.4 [5.00] 17.8 [5.43] 19.2 [5.86] 20.6 [6.28] 21.9 [6.68]
195 [88.5] 276 [125.3] 357 [162.1] 438 [198.9] 519 [235.6] 600 [272.4] 681 [309.2] 762 [345.9] 843 [382.7] 924 [419.5] 1,005 [456.3] 1,086 [493.0] 1,167 [529.8] 1,248 [566.6] 1,329 [603.4]
2 5 8 11 14 17 20 23 26 29 32 35 38 41 44
tba† tba tba tba tba 1006857 tba tba 2006265 1006899 tba tba tba tba tba
2 5 8 11 14 17 20 23 26 29 32 35 38 41 44
tba tba tba tba tba tba tba tba tba tba tba tba 100026820 tba tba
2 5 8 11 14 17 20 23 26 29 32 35 38 41 44
tba tba 2011896 tba tba 2004017 tba tba tba tba tba tba tba tba 2003230
be assigned
675 Series, Min. Casing Size 8 5⁄8-in. [219.1-mm] OD Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 † to
ES Carbon Steel
ARZ-ZS Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
C-LT Part Number
Max. Stages
C-LT-ES Part Number
Max. Stages
C-LT-ARZ-ZS Part Number
2.9 [0.88] 4.3 [1.31] 5.6 [1.71] 7.0 [2.14] 8.4 [2.56] 9.8 [2.99] 11.1 [3.39] 12.5 [3.81] 13.9 [4.24] 15.3 [4.67] 16.6 [5.06] 18.0 [5.49] 19.4 [5.92] 20.8 [6.34] 22.1 [6.74]
207 [63.1] 288 [87.8] 369 [112.6] 450 [137.3] 531 [162.0] 612 [186.7] 693 [211.4] 774 [236.1] 855 [260.8] 936 [285.5] 1,017 [310.2] 1,098 [334.9] 1,179 [359.6] 1,260 [384.3] 1,341 [409.0]
2 5 8 11 14 17 20 23 26 29 32 35 38 41 44
tba† tba 1007970 1007988 1007996 1008002 1008010 tba 1008036 1008044 1008184 2005357 1008200 1008218 1008226
2 5 8 11 14 17 20 23 26 29 32 35 38 41 44
tba tba tba tba tba tba tba tba tba tba tba tba tba 100026819 tba
2 5 8 11 14 17 20 23 26 29 32 35 38 41 44
tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba
be assigned
Pumps
■
JN16000 Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps JN16000 Pump, 675 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
80
160 170 180 190 200 210 220 230 240 250 260 270
46 49 52 55 58 61 64 67 70 73 76 79
2 1
90
1 2 1
100
1 2† 1†
110
1† 2† 1†
120
1† 2† 1†
130
140
1† 2† 1†
1†
150
Note: Stage counts are for C-CT-ES pumps. use of high-strength shaft in lowermost pump
† Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps Pumps
REDA* ESP
JN16000 Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
JN16000 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
12,800–19,500 B/D 6.75 in. 1.188 in. 1.108 in.2 8.625 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
637 hp 1,019 hp Not applicable 3,060 psi 3,060 psi
Power (hp)
Efficiency (%)
35
70
150
30
60
125
25
50
20
40
15
30
10
20
5
10
175 Efficiency
Operating range Head (ft)
100
Head
75
50
Power
25
0 0
2,500
5,000
7,500
10,000
12,500
15,000
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
17,500
20,000
22,500
0 25,000
0
Return to Pumps REDA* Pump JN16000 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
125 70 Hz 100 65 Hz 60 Hz Head (ft)
75 55 Hz 50 Hz 50
25
17.50
70 Hz
15.00
65 Hz
12.50 Power (hp)
60 Hz 10.00 55 Hz 7.50
50 Hz
5.00 2.50
0
5,000
10,000
15,000
20,000
25,000
30,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
JN16000 Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
JN16000 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
1,696–2,584 m3 ⁄d 17.15 cm 3.02 cm 7.15 cm2 21.91 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
531 hp 849 hp Not applicable 21,099 kPa 21,099 kPa
Power (hp)
Efficiency (%)
Head 17.50
17.50
70
15.00
15.00
60
12.50
12.50
50
10.00
10.00
40
7.50
7.50
30
5.00
20
2.50
10
Efficiency Head (m)
Power
5.00
2.50 Operating range 0 0
500
1,000
1,500
2,000 Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
2,500
3,000
0 3,500
0
Return to Pumps REDA* Pump JN16000 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
35 70 Hz 30 65 Hz 25
Head (m)
60 Hz 55 Hz
20
50 Hz 15
10
5
17.50
70 Hz
15.00
65 Hz
12.50 Power (hp)
60 Hz 10.00 55 Hz 7.50
50 Hz
5.00 2.50
0
500
1,000
1,500
2,000
2,500
3,000
3,500
4,000
4,500
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
JN21000 Pump 675 Series, Min. Casing Size 8 5⁄8-in. [219.1-mm] OD ES Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 † to
ARZ Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
C-CT-ES Part Number
Max. Stages
C-CT-ARZ Part Number
2.7 [0.82] 4.1 [1.25] 5.4 [1.65] 6.8 [2.07] 8.2 [2.50] 9.6 [2.93] 10.9 [3.32] 12.3 [3.75] 13.7 [4.18] 15.1 [4.61] 16.4 [5.00] 17.8 [5.43] 19.2 [5.86] 20.6 [6.28] 21.9 [6.68]
195 [88.5] 276 [125.3] 357 [162.1] 438 [198.9] 519 [235.6] 600 [272.4] 681 [309.2] 762 [345.9] 843 [382.7] 924 [419.5] 1,005 [456.3] 1,086 [493.0] 1,167 [529.8] 1,248 [566.6] 1,329 [603.4]
2 5 8 11 14 17 20 23 26 29 32 35 38 41 44
tba† tba tba tba tba tba 1006964 tba 1006980 1006998 tba 1007012 tba tba tba
2 5 8 11 14 17 20 23 26 29 32 35 38 41 44
1139765 1139773 1139781 1135185 1135193 1135201 1135219 1135227 1135235 1135243 1135250 1135268 1135276 1135284 1135292
be assigned
675 Series, Min. Casing Size 8 5⁄8-in. [219.1-mm] OD ES Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 † to
ARZ Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
C-LT-ES Part Number
Max. Stages
C-LT-ARZ Part Number
2.9 [0.88] 4.3 [1.31] 5.6 [1.71] 7.0 [2.14] 8.4 [2.56] 9.8 [2.99] 11.1 [3.39] 12.5 [3.81] 13.9 [4.24] 15.3 [4.67] 16.6 [5.06] 18.0 [5.49] 19.4 [5.92] 20.8 [6.34] 22.1 [6.74]
207 [63.1] 288 [87.8] 369 [112.6] 450 [137.3] 531 [162.0] 612 [186.7] 693 [211.4] 774 [236.1] 855 [260.8] 936 [285.5] 1,017 [310.2] 1,098 [334.9] 1,179 [359.6] 1,260 [384.3] 1,341 [409.0]
2 5 8 11 14 17 20 23 26 29 32 35 38 41 44
tba† tba 1008259 1008267 1008275 1008283 1008291 tba 1008317 1008325 1008333 1008341 tba tba 1008374
2 5 8 11 14 17 20 23 26 29 32 35 38 41 44
1139823 1139831 1139849 1135599 1135607 1135615 1135623 1135631 1135649 1135656 1135664 1135672 1135680 1135698 1135706
be assigned
Pumps
■
JN21000 Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps JN21000 Pump, 675 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
80
160 170 180 190 200 210 220 230 240
46 49 52 55 58 61 64 67 70
2 1
90
1 2 1
100
1 2† 1†
110
1† 2† 1†
120
130
140
150
1† 2†
Note: Stage counts are for C-CT-ES pumps. use of high-strength shaft in lowermost pump
† Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps Pumps
REDA* ESP
JN21000 Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
JN21000 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
16,000–25,000 B/D 6.75 in. 1.188 in. 1.108 in.2 8.625 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
637 hp 1,019 hp Not applicable 3,060 psi 3,060 psi
150
Power (hp)
Efficiency (%)
30
60
25
50
20
40
15
30
10
20
5
10
Efficiency 125 Operating range 100 Head
Head (ft) 75
Power
50
25
0 0
5,000
10,000
15,000 Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
20,000
25,000
0 30,000
0
Return to Pumps REDA* Pump JN21000 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
125
100 70 Hz Head (ft)
65 Hz
75
60 Hz 55 Hz 50
50 Hz
25
70 Hz
17.50 15.00
65 Hz
12.50 60 Hz Power (hp)
10.00 55 Hz 7.50
50 Hz
5.00 2.50
0
5,000
10,000
15,000
20,000
25,000
30,000
35,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
JN21000 Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
JN21000 Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
2,120–3,312 m3 ⁄d 17.15 cm 3.02 cm 7.15 cm2 21.91 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
531 hp 849 hp Not applicable 21,099 kPa 21,099 kPa
Power (hp)
Efficiency (%)
15.00
60
12.50
50
10.00
40
7.50
30
10
5.00
20
5
2.50
10
30 Efficiency 25 Operating range 20
Head
Head (m) 15
Power
0 0
500
1,000
1,500
2,000
2,500
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
3,000
3,500
0 4,000
0
Return to Pumps REDA* Pump JN21000 Performance Curve Curve computed for one stage in fluid of 1.00 sg.
35
30 70 Hz 25
Head (m)
65 Hz 60 Hz
20
55 Hz 15
50 Hz
10
5
70 Hz
17.50 15.00
65 Hz
12.50 60 Hz Power (hp)
10.00 55 Hz 7.50
50 Hz
5.00 2.50
0
1,000
2,000
3,000
4,000
5,000
6,000
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
L16000N Pump 725 Series, Min. Casing Size 9 5⁄8-in. [244.5-mm] OD ES-ZS Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 † to
ARZ-ZS Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
C-CT-ES-ZS Part Number
Max. Stages
C-CT-ARZ-ZS Part Number
3.1 [0.95] 4.4 [1.34] 5.6 [1.71] 6.9 [2.10] 8.1 [2.47] 9.4 [2.87] 10.6 [3.23] 11.9 [3.63] 13.1 [4.00] 14.4 [4.39] 15.6 [4.76] 16.9 [5.15] 18.1 [5.52] 19.4 [5.92] 20.6 [6.28]
224 [68.3] 320 [97.6] 416 [126.9] 512 [156.2] 608 [185.4] 704 [214.7] 800 [244.0] 896 [273.3] 992 [302.6] 1,088 [331.8] 1,184 [361.1] 1,280 [390.4] 1,376 [419.7] 1,472 [449.0] 1,568 [478.2]
2 4 7 9 12 14 17 19 22 24 27 29 32 34 37
tba† tba tba tba tba 2004858 2004859 2004860 2004861 2004896 2004862 2004863 2004864 2004865 2004866
2 4 7 9 12 14 17 19 22 24 27 29 32 34 37
tba tba tba tba tba 2004867 2004868 2004869 2004870 2000220 2004871 2004872 2004873 2004874 2004875
be assigned
725 Series, Min. Casing Size 9 5⁄8-in. [244.5-mm] OD ES-ZS Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 † to
ARZ-ZS Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
C-LT-ES-ZS Part Number
Max. Stages
C-LT-ARZ-ZS Part Number
3.3 [1.01] 4.6 [1.40] 5.8 [1.77] 7.1 [2.17] 8.3 [2.53] 9.6 [2.93] 10.8 [3.29] 12.1 [3.69] 13.3 [4.06] 14.6 [4.45] 15.8 [4.82] 17.1 [5.22] 18.3 [5.58] 19.6 [5.98] 20.8 [6.34]
240 [73.2] 336 [102.5] 432 [131.8] 528 [161.0] 624 [190.3] 720 [219.6] 816 [248.9] 912 [278.2] 1,008 [307.4] 1,104 [336.7] 1,200 [366.0] 1,296 [395.3] 1,392 [424.6] 1,488 [453.8] 1,584 [483.1]
2 4 7 9 12 14 17 19 22 24 27 29 32 34 37
tba† tba tba tba tba 2004840 2004841 2004842 2004843 tba 2004844 2004845 2004846 2004847 2004848
2 4 7 9 12 14 17 19 22 24 27 29 32 34 37
tba tba tba tba tba 2004849 2004850 2004851 2004852 2004895 2004853 2004854 2004855 2004856 2004857
be assigned
Pumps
■
L16000N Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps L16000N Pump, 725 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
80
160 170 180 190 200 210 220 230 240 250
38 41 44 46 48 51 54 56 58 61
2† 1†
90
1† 2† 1†
100
1† 2† 1†
110
1† 2† 1†
120
130
1† 2† 1†
1†
140
150
Note: Stage counts are for C-CT-ES pumps. use of high-strength shaft in lowermost pump
† Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps Pumps
REDA* ESP
L16000N Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
L16000N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
11,000–20,000 B/D 7.25 in. 1.188 in. 1.108 in.2 9.625 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
637 hp 1,019 hp Not applicable 3.500 psi 3,500 psi
Power (hp)
Efficiency (%)
70
70
60
60
50
50
100
40
40
75
30
30
50
20
20
10
10
175 Efficiency 150 Operating range 125 Head (ft)
Head
Power
25
0 0
2,500
5,000
7,500
10,000
12,500
15,000
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
17,500
20,000
22,500
0 25,000
0
Return to Pumps REDA* Pump L16000N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz
150
65 Hz 125 60 Hz 100 55 Hz Head (ft)
50 Hz
75
50
25
70 Hz
25 65 Hz
20 Power (hp)
60 Hz 15 55 Hz 10 50 Hz 5
0
5,000
10,000
15,000
20,000
25,000
30,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
L16000N Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
L16000N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
1,497–2,650 m3 ⁄d 18.42 cm 3.02 cm 7.15 cm2 24.45 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
531 hp 849 hp Not applicable 24,133 kPa 24,133 kPa
Power (hp)
Efficiency (%)
35
70
30
60
25
50
20
20
40
15
15
30
10
10
20
5
10
35 Efficiency 30 Operating range Head
25 Head (m)
Power 5
0 0
500
1,000
1,500
2,000 Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
2,500
3,000
0 3,500
0
Return to Pumps REDA* Pump L16000N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz
45 40
65 Hz
35
60 Hz
30 Head (m)
55 Hz
25
50 Hz
20 15 10 5
70 Hz
25 65 Hz
20 Power (hp)
60 Hz 15 55 Hz 10 50 Hz 5
0
500
1,000
1,500
2,000
2,500
3,000
3,500
4,000
4,500
5,000
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
L43000N Pump 725 Series, Min. Casing Size 9 5⁄8-in. [244.5-mm] OD ES-ZS Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 † to
ARZ-ZS Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
C-CT-ES-ZS Part Number
Max. Stages
C-CT-ARZ-ZS Part Number
3.1 [0.95] 4.4 [1.34] 5.6 [1.71] 6.9 [2.10] 8.1 [2.47] 9.4 [2.87] 10.6 [3.23] 11.9 [3.63] 13.1 [4.00] 14.4 [4.39] 15.6 [4.76] 16.9 [5.15] 18.1 [5.52] 19.4 [5.92] 20.6 [6.28]
224 [68.3] 320 [97.6] 416 [126.9] 512 [156.2] 608 [185.4] 704 [214.7] 800 [244.0] 896 [273.3] 992 [302.6] 1,088 [331.8] 1,184 [361.1] 1,280 [390.4] 1,376 [419.7] 1,472 [449.0] 1,568 [478.2]
2 4 6 8 10 12 14 16 18 20 22 24 26 28 30
tba† tba tba tba tba tba tba tba 1311018 tba tba 1311026 tba 1311034 tba
2 4 6 8 10 12 14 16 18 20 22 24 26 28 30
tba tba tba tba tba tba tba tba 1310978 tba tba 1310986 tba 1310994 tba
be assigned
725 Series, Min. Casing Size 9 5⁄8-in. [244.5-mm] OD ES-ZS Carbon Steel Housing 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 † to
ARZ-ZS Carbon Steel
Length,
Weight,
ft [m]
lbm [kg]
Max. Stages
C-LT-ES-ZS Part Number
Max. Stages
C-LT-ARZ-ZS Part Number
3.3 [1.01] 4.6 [1.40] 5.8 [1.77] 7.1 [2.17] 8.3 [2.53] 9.6 [2.93] 10.8 [3.29] 12.1 [3.69] 13.3 [4.06] 14.6 [4.45] 15.8 [4.82] 17.1 [5.22] 18.3 [5.58] 19.6 [5.98] 20.8 [6.34]
240 [73.2] 336 [102.5] 432 [131.8] 528 [161.0] 624 [190.3] 720 [219.6] 816 [248.9] 912 [278.2] 1,008 [307.4] 1,104 [336.7] 1,200 [366.0] 1,296 [395.3] 1,392 [424.6] 1,488 [453.8] 1,584 [483.1]
2 4 6 8 10 12 14 16 18 20 22 24 26 28 30
tba† tba tba tba tba tba tba tba 1311091 tba tba 1311109 tba 1311117 tba
2 4 6 8 10 12 14 16 18 20 22 24 26 28 30
tba tba tba tba tba tba tba tba 1311059 tba tba 1311067 tba 1311075 tba
be assigned
Pumps
■
L43000N Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps L43000N Pump, 725 Series, Tandem Combinations Tandem Housing Sections–Number Pump Housing
Number of Stages
80
160 170 180 190 200 210 220 230 240
32 34 36 38 40 42‡ 44‡ 46‡ 48‡
2† 1†
90
1† 2† 1†
100
1† 2† 1†
110
1† 2† 1†
120
130
140
150
1† 2†
Note: Stage counts are for C-CT-ES pumps. use of high-strength shaft in lowermost pump ‡ Requires use of buttress threads in uppermost pump † Requires
ESP Catalog
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps Pumps
REDA* ESP
L43000N Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
L43000N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
36,000–54,000 B/D 7.25 in. 1.500 in. 1.767 in.2 9.625 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
1,000 hp 1,500 hp 2,000 psi 3.500 psi 3,500 psi
Power (hp)
Efficiency (%)
175
70
150
60
125
50
100
40
75
75
30
50
50
20
25
10
175 Efficiency 150 Operating range
125 Head (ft)
100
Head
Power
25
0 0
10,000
20,000
30,000
40,000
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
50,000
60,000
0 70,000
0
Return to Pumps REDA* Pump L43000N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
125 70 Hz 100
65 Hz 60 Hz
Head (ft)
75 55 Hz 50 Hz 50
25
70 Hz
50 65 Hz
40 Power (hp)
60 Hz
30 55 Hz 20
50 Hz
10
0
10,000
20,000
30,000
40,000
50,000
60,000
70,000
80,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
L43000N Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
L43000N Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
4,770–7,155 m3 ⁄d 18.42 cm 3.81 cm 11.40 cm2 24.45 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
833 hp 1,333 hp 13,790 kPa 24,133 kPa 24,133 kPa
Power (hp)
Efficiency (%)
70
70
60
60
50
50
40
40
15
30
30
10
20
20
10
10
35
30
Efficiency
25 Operating range Head (m)
Head
20
Power 5
0 0
1,000
2,000
3,000
4,000
5,000
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
6,000
7,000
8,000
0 9,000
0
Return to Pumps REDA* Pump L43000N Performance Curve Curve computed for one stage in fluid of 1.00 sg.
40 35
70 Hz
30
65 Hz
25 Head (m)
60 Hz 55 Hz
20
50 Hz 15 10
5
70 Hz
50 65 Hz
40 Power (hp)
60 Hz 30 55 Hz 20
50 Hz
10
0
2,500
5,000
7,500
10,000
12,500
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
M520 Pump 862 Series, Min. Casing Size 10 3⁄4-in. [273.1-mm] OD Carbon Steel C-LT
ES Carbon Steel C-LT-ES
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
‘A’ Cut Part Number
‘B’ Cut Part Number
‘A’ Cut Part Number
‘B’ Cut Part Number
2M 3M 4M 5M 6M 7M 8M 9M 10M 11M 12M 13M 14M 15M 16M 17M 18M 19M 20M 21M 22M 23M 24M 25M 26M 27M
3.9 [1.2] 4.5 [1.4] 5.1 [1.6] 5.7 [1.7] 6.3 [1.9] 6.9 [2.1] 7.5 [2.3] 8.1 [2.5] 8.7 [2.7] 9.3 [2.8] 9.9 [3.0] 10.5 [3.2] 11.1 [3.4] 11.7 [3.6] 12.3 [3.8] 12.9 [3.9] 13.5 [4.1] 14.1 [4.3] 14.8 [4.5] 15.4 [4.7] 16.0 [4.9] 16.5 [5.0] 17.2 [5.3] 17.8 [5.4] 18.4 [5.6] 19.0 [5.8]
340 [154] 411 [187] 471 [214] 524 [238] 613 [278] 673 [306] 747 [339] 814 [370] 874 [397] 942 [428] 1,009 [458] 1,076 [489] 1,143 [519] 1,211 [550] 1,278 [580] 1,349 [612] 1,416 [643] 1,480 [672] 1,547 [702] 1,618 [735] 1,685 [765] 1,749 [794] 1,816 [824] 1,887 [857] 1,954 [887] 2,021 [918]
2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27
1111277 1111285 1111293 1111301 1111319 1111327 1111335 1111343 1111350 1111368 1111376 1111384 1111392 1111400 1111418 1111426 1111434 1111442 1111459 1111467 1111475 1111483 1111491 1111509 1111517 1111525
tba† 1111186 1111194 tba 1111202 1111210 tba tba 1111228 tba tba tba 1111236 1111533 tba tba 1111244 tba 1111251 tba 1111269 tba tba tba tba tba
tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba 1299361 tba tba tba tba tba tba tba tba tba tba
tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba
† to
be assigned
Pumps
■
M520 Pump
© 2005 Schlumberger. All rights reserved.
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Return to Pumps 862 Series, Min. Casing Size 10 3⁄4-in. [273.1-mm] OD Carbon Steel C-CT
ES Carbon Steel C-CT-ES
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
‘A’ Cut Part Number
‘B’ Cut Part Number
‘A’ Cut Part Number
‘B’ Cut Part Number
2M 3M 4M 5M 6M 7M 8M 9M 10M 11M 12M 13M 14M 15M 16M 17M 18M 19M 20M 21M 22M 23M 24M 25M 26M 27M 28M 29M 30M 31M
2.5 [0.8] 3.1 [1.0] 3.8 [1.2] 4.4 [1.3] 5.0 [1.5] 5.6 [1.7] 6.2 [1.9] 6.8 [2.1] 7.4 [2.3] 8.0 [2.4] 8.6 [2.6] 9.2 [2.8] 9.8 [3.0] 10.4 [3.2] 11.0 [3.4] 11.6 [3.5] 12.2 [3.7] 12.8 [3.9] 13.4 [4.1] 14.0 [4.3] 14.6 [4.5] 15.2 [4.6] 15.8 [4.8] 16.4 [5.0] 17.0 [5.2] 17.6 [5.4] 18.3 [5.6] 20.1 [6.1] 20.7 [6.3] 21.3 [6.5]
271 [123] 342 [155] 402 [183] 455 [207] 544 [247] 604 [274] 678 [308] 745 [338] 805 [365] 873 [396] 940 [427] 1,007 [457] 1,074 [488] 1,142 [518] 1,209 [549] 1,280 [581] 1,347 [612] 1,411 [641] 1,478 [671] 1,549 [703] 1,616 [734] 1,680 [763] 1,747 [793] 1,818 [825] 1,885 [856] 1,952 [886] 2,019 [917] 2,155 [978] 2,222 [1,009] 2,289 [1,039]
2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31
1139047 1139054 1139062 1139070 1139088 1139096 1139104 1139112 1139120 1139138 1139146 1139153 1139161 1139179 1139187 1139195 1139203 1139211 1139229 1139237 1139245 1139252 1139260 1139278 1139286 1139294 tba tba tba tba
1139302 1139310 1139328 1139336 1139344 1139351 1139369 1139377 1139385 1139393 1139401 1139419 1139427 1139435 1139443 1139450 1139468 1139476 1139484 1139492 1139500 1139518 1139526 1139534 1139542 1139559 tba tba tba tba
tba† tba tba tba tba R139096 1237114 tba tba tba 1200880 D13915Z tba tba tba tba 1319946 tba tba tba 2005623 1200898 tba tba tba tba tba tba tba tba
tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba
† to
be assigned
ESP Catalog
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps 862 Series, Min. Casing Size 10 3⁄4-in. [273.1-mm] OD ARZ Carbon Steel C-CT-ARZ Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
‘A’ Cut Part Number
‘B’ Cut Part Number
2M 3M 4M 5M 6M 7M 8M 9M 10M 11M 12M 13M 14M 15M 16M 17M 18M 19M 20M 21M 22M 23M 24M 25M 26M 27M 28M 29M 30M 31M
2.5 [0.8] 3.1 [1.0] 3.8 [1.2] 4.4 [1.3] 5.0 [1.5] 5.6 [1.7] 6.2 [1.9] 6.8 [2.1] 7.4 [2.3] 8.0 [2.4] 8.6 [2.6] 9.2 [2.8] 9.8 [3.0] 10.4 [3.2] 11.0 [3.4] 11.6 [3.5] 12.2 [3.7] 12.8 [3.9] 13.4 [4.1] 14.0 [4.3] 14.6 [4.5] 15.2 [4.6] 15.8 [4.8] 16.4 [5.0] 17.0 [5.2] 17.6 [5.4] 18.3 [5.6] 20.1 [6.1] 20.7 [6.3] 21.3 [6.5]
271 [123] 342 [155] 402 [183] 455 [207] 544 [247] 604 [274] 678 [308] 745 [338] 805 [365] 873 [396] 940 [427] 1,007 [457] 1,074 [488] 1,142 [518] 1,209 [549] 1,280 [581] 1,347 [612] 1,411 [641] 1,478 [671] 1,549 [703] 1,616 [734] 1,680 [763] 1,747 [793] 1,818 [825] 1,885 [856] 1,952 [886] 2,019 [917] 2,155 [978] 2,222 [1,009] 2,289 [1,039]
2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31
1149467 1149475 1149483 1149491 1149509 1149517 1149525 1149533 1149541 1149558 1149566 1149574 1149582 1149590 1149608 1149616 1149624 1149632 1149640 1149657 1149665 1149673 1149681 1149699 1149707 1149715 1249606 1336411 1277003 2006500
1336445 1149723 1149731 1336452 1149749 1149756 1336460 1336478 1149764 1336486 1336494 1336502 1149772 1149780 1336510 1336528 1149798 1336536 1149806 1336544 1149814 1336551 1336569 1336577 1336585 1336593 1336601 1336619 tba† tba
† to
be assigned
Pumps
■
M520 Pump
© 2005 Schlumberger. All rights reserved.
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Return to Pumps Pumps
REDA* ESP
M520A Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
M520A Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
12,000–20,000 B/D 8.63 in. 1.188 in. 1.108 in.2 10.75 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
637 hp 1,019 hp 2,000 psi 2,400 psi 2,400 psi
Power (hp)
Efficiency (%)
70
70
60
60
125
50
50
100
40
40
75
30
30
20
20
10
10
175 Efficiency 150
Operating range Head
Head (ft)
50 Power 25
0 0
5,000
10,000
15,000 Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
20,000
25,000
0 30,000
0
Return to Pumps REDA* Pump M520A Performance Curve Curve computed for one stage in fluid of 1.00 sg.
175
70 Hz
150
65 Hz 60 Hz
125
55 Hz Head (ft)
100 50 Hz 75
50
25
70 Hz
30 65 Hz
25 60 Hz
20 Power (hp)
55 Hz
15 50 Hz 10 5
0
5,000
10,000
15,000
20,000
25,000
30,000
35,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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Return to Pumps Pumps
REDA* ESP
M520A Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
M520A Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
1,590–3,180 m3 ⁄d 21.92 cm 3.02 cm 7.15 cm2 27.31 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
531 hp 849 hp 13,790 kPa 16,548 kPa 16,548 kPa
Power (hp)
Efficiency (%)
35
70
30
60
25
25
50
20
20
40
15
15
30
10
20
5
10
35 Efficiency Operating range
30
Head (m)
Head
10
Power
5
0 0
500
1,000
1,500
2,000
2,500
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
3,000
3,500
0 4,000
0
Return to Pumps REDA* Pump M520A Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz 50 65 Hz 40
60 Hz 55 Hz
Head (m)
30 50 Hz
20
10
70 Hz
30 65 Hz
25 60 Hz
20 Power (hp)
55 Hz
15 50 Hz 10 5
0
500
1,000
1,500
2,000
2,500
3,000
3,500
4,000
4,500
5,000
5,500
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
M520B Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
M520B Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
12,000–23,000 B/D 8.63 in. 1.188 in. 1.108 in.2 10.75 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
637 hp 1,019 hp 2,000 psi 2,400 psi 2,400 psi
Power (hp)
Efficiency (%)
70
70
60
60
50
50
100
40
40
75
30
30
50
20
20
10
10
175 Efficiency 150 Operating range Head
125 Head (ft)
Power 25
0 0
5,000
10,000
15,000 Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
20,000
25,000
0 30,000
0
Return to Pumps REDA* Pump M520B Performance Curve Curve computed for one stage in fluid of 1.00 sg.
150 70 Hz 125
65 Hz 60 Hz
100 Head (ft)
55 Hz 75
50 Hz
50
25
70 Hz
22.5 20.0
65 Hz
17.5 60 Hz
15.0 Power (hp)
12.5
55 Hz
10.0
50 Hz
7.5 5.0 2.5 0
5,000
10,000
15,000
20,000
25,000
30,000
35,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
M520B Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
M520B Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
1,590–3,047 m3 ⁄d 21.92 cm 3.02 cm 7.15 cm2 27.31 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
531 hp 849 hp 13,790 kPa 16,548 kPa 16,548 kPa
Efficiency (%)
35
70
30
60
25
25
50
20
20
40
15
15
30
10
20
5
10
35
Efficiency
30 Operating range
Head
Head (m)
Power (hp)
10 Power 5
0 0
500
1,000
1,500
2,000
2,500
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
3,000
3,500
0 4,000
0
Return to Pumps REDA* Pump M520B Performance Curve Curve computed for one stage in fluid of 1.00 sg.
50 45 70 Hz 40 65 Hz 35 60 Hz 30 Head (m)
55 Hz 25 50 Hz 20 15 10 5
70 Hz
22.5 20.0
65 Hz
17.5 60 Hz
15.0 Power (hp)
12.5
55 Hz
10.0
50 Hz
7.5 5.0 2.5 0
1,000
2,000
3,000
4,000
5,000
6,000
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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Return to Pumps Pumps
REDA* ESP
M520C Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
M520C Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
12,000–22,000 B/D 8.63 in. 1.188 in. 1.108 in.2 10.75 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
637 hp 1,019 hp 2,000 psi 2,400 psi 2,400 psi
175
Power (hp)
Efficiency (%)
35
70
30
60
25
50
20
40
15
30
10
20
5
10
Efficiency 150 Operating range 125 Head (ft)
Head
100
75 Power
50
25
0 0
2,500
5,000
7,500
10,000
12,500
15,000
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
17,500
20,000
22,500
0 25,000
0
Return to Pumps REDA* Pump M520C Performance Curve Curve computed for one stage in fluid of 1.00 sg.
125 70 Hz 100
65 Hz 60 Hz
Head (ft)
75
55 Hz 50 Hz
50
25
20.0
70 Hz
17.5 65 Hz
15.0 Power (hp)
12.5
60 Hz
10.0
55 Hz
7.5
50 Hz
5.0 2.5 0
5,000
10,000
15,000
20,000
25,000
30,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
M520C Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
M520C Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
1,590–2,915 m3 ⁄d 21.92 cm 3.02 cm 7.15 cm2 27.31 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
531 hp 849 hp 13,790 kPa 16,548 kPa 16,548 kPa
Power (hp)
Efficiency (%)
17.5
70
15.0
60
12.5
50
10.0
40
7.5
30
10
5.0
20
5
2.5
10
35 Efficiency 30
25
Operating range Head
Head (m)
20
15 Power
0 0
500
1,000
1,500
2,000 Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
2,500
3,000
0 3,500
0
Return to Pumps REDA* Pump M520C Performance Curve Curve computed for one stage in fluid of 1.00 sg.
40 35
70 Hz 65 Hz
30
60 Hz
25 Head (m)
55 Hz 20 50 Hz 15 10 5
20.0
70 Hz
17.5 65 Hz
15.0 Power (hp)
12.5
60 Hz
10.0
55 Hz
7.5
50 Hz
5.0 2.5 0
500
1,000
1,500
2,000
2,500
3,000
3,500
4,000
4,500
5,000
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps
M675 Pump 862 Series, Min. Casing Size 10 3⁄4-in. [273.1-mm] OD Carbon Steel C-LT
ES Carbon Steel C-LT-ES
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
‘A’ Cut Part Number
‘B’ Cut Part Number
‘C’ Cut Part Number
‘A’ Cut Part Number
‘B’ Cut Part Number
‘C’ Cut Part Number
2M 3M 4M 5M 6M 7M 8M 9M 10M 11M 12M 13M 14M 15M 16M 17M 18M 19M 20M 21M 22M 23M 24M 25M 26M 27M 28M
3.9 [1.2] 4.5 [1.4] 5.1 [1.6] 5.7 [1.7] 6.3 [1.9] 6.9 [2.1] 7.5 [2.3] 8.1 [2.5] 8.7 [2.7] 9.3 [2.8] 9.9 [3.0] 10.5 [3.2] 11.1 [3.4] 11.7 [3.6] 12.3 [3.8] 12.9 [3.9] 13.5 [4.1] 14.1 [4.3] 14.8 [4.5] 15.4 [4.7] 16.0 [4.9] 16.5 [5.0] 17.2 [5.3] 17.8 [5.4] 18.4 [5.6] 19.0 [5.8] 19.6 [3.0]
340 [154] 411 [187] 471 [214] 524 [238] 613 [278] 673 [306] 747 [339] 814 [370] 874 [397] 942 [428] 1,009 [458] 1,076 [489] 1,143 [519] 1,211 [550] 1,278 [580] 1,349 [612] 1,416 [643] 1,480 [672] 1,547 [702] 1,618 [735] 1,685 [765] 1,749 [794] 1,816 [824] 1,887 [857] 1,954 [887] 2,021 [918] 2,088 [948]
2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28
1111020 1111038 1111046 1111053 1111061 1111079 1111087 1111095 1111103 1111111 1111129 1111137 1111145 1111152 1111160 1111178 tba tba tba tba tba tba tba tba tba tba 1119791
1119775 1119783 tba tba tba tba tba 1111004 tba tba tba 1111012 tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba
tba† tba tba tba tba tba tba tba tba tba tba tba tba 1110998 tba tba tba tba tba tba tba tba tba tba tba tba tba
tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba 1119791
tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba
tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba
† to
be assigned
Pumps
■
M675 Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps 862 Series, Min. Casing Size 10 3⁄4-in. [273.1-mm] OD Carbon Steel C-CT
ES Carbon Steel C-CT-ES
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
‘A’ Cut Part Number
‘B’ Cut Part Number
‘C’ Cut Part Number
‘A’ Cut Part Number
‘B’ Cut Part Number
‘C’ Cut Part Number
2M 3M 4M 5M 6M 7M 8M 9M 10M 11M 12M 13M 14M 15M 16M 17M 18M 19M 20M 21M 22M 23M 24M 25M 26M 27M 28M
2.5 [0.8] 3.1 [1.0] 3.8 [1.2] 4.4 [1.3] 5.0 [1.5] 5.6 [1.7] 6.2 [1.9] 6.8 [2.1] 7.4 [2.3] 8.0 [2.4] 8.6 [2.6] 9.2 [2.8] 9.8 [3.0] 10.4 [3.2] 11.0 [3.4] 11.6 [3.5] 12.2 [3.7] 12.8 [3.9] 13.4 [4.1] 14.0 [4.3] 14.6 [4.5] 15.2 [4.6] 15.8 [4.8] 16.4 [5.0] 17.0 [5.2] 17.6 [5.4] 18.3 [5.6]
271 [123] 342 [155] 402 [183] 455 [207] 544 [247] 604 [274] 678 [308] 745 [338] 805 [365] 873 [396] 940 [427] 1,007 [457] 1,074 [488] 1,142 [518] 1,209 [549] 1,280 [581] 1,347 [612] 1,411 [641] 1,478 [671] 1,549 [703] 1,616 [734] 1,680 [763] 1,747 [793] 1,818 [825] 1,885 [856] 1,952 [886] 2,019 [917]
2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28
1138239 1138247 1138254 1138262 1138270 1138288 1138296 1138304 1138312 1138320 1138338 1138346 1138353 1138361 1138379 1138387 1138395 1138403 1138411 1138429 1138437 1138445 1138452 1138460 1138478 1138486 1138494
1138502 1138510 1138528 1138536 1138544 1138551 1138569 1138577 1138585 1138593 1138601 1138619 1138627 1138635 1138643 1138650 1138668 1138676 1138684 1138692 1138700 1138718 1138726 1138734 1138742 1138759 1138767
1138775 1138783 1138791 1138809 1138817 1138825 1138833 1138841 1138858 1138866 1138874 1138882 1138890 1138908 1138916 1138924 1138932 1138940 1138957 1138965 1138973 1138981 1138999 1139005 1139013 1139021 1139039
tba† tba tba 1185024 tba D13828Z tba tba tba tba tba tba tba D13836Z D13837Z tba tba tba tba tba tba tba tba tba tba tba tba
tba tba tba tba tba tba M13856U tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba
tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba
† to
be assigned
ESP Catalog
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps 862 Series, Min. Casing Size 10 3⁄4-in. [273.1-mm] OD ARZ Carbon Steel C-CT-ARZ Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
‘A’ Cut Part Number
‘B’ Cut Part Number
‘C’ Cut Part Number
2M 3M 4M 5M 6M 7M 8M 9M 10M 11M 12M 13M 14M 15M 16M 17M 18M 19M 20M 21M 22M 23M 24M 25M 26M 27M 28M
2.5 [0.76] 3.1 [0.95] 3.8 [1.16] 4.4 [1.34] 5.0 [1.53] 5.6 [1.71] 6.2 [1.89] 6.8 [2.07] 7.4 [2.26] 8.0 [2.44] 8.6 [2.62] 9.2 [2.81] 9.8 [2.99] 10.4 [3.17] 11.0 [3.36] 11.6 [3.54] 12.2 [3.72] 12.8 [3.90] 13.4 [4.09] 14.0 [4.27] 14.6 [4.45] 15.2 [4.64] 15.8 [4.82] 16.4 [5.00] 17.0 [5.19] 17.6 [5.37] 18.3 [5.58]
271 [123.03] 342 [155.27] 402 [182.51] 455 [206.57] 544 [246.98] 604 [274.22] 678 [307.81] 745 [338.23] 805 [365.47] 873 [396.34] 940 [426.76] 1,007 [457.18] 1,074 [487.60] 1,142 [518.47] 1,209 [548.89] 1,280 [581.12] 1,347 [611.54] 1,411 [640.59] 1,478 [671.01] 1,549 [703.25] 1,616 [733.66] 1,680 [762.72] 1,747 [793.14] 1,818 [825.37] 1,885 [855.79] 1,952 [886.21] 2,019 [916.63]
2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28
1149822 1149830 1149848 1149855 1149863 1149871 1149889 1149897 1149905 1149913 1149921 1149939 1149947 1149954 1149962 1149970 1336635 1336643 1252535 1336650 1336668 1336676 1336684 1336692 1336700 1336718 1149988
1149996 1150002 1336742 1336759 1336767 1336775 1336783 1150010 1336791 1336809 1336817 1150028 1336825 1336833 1336841 1336858 1336866 1336874 1336882 1336890 1336908 1336916 1336924 1336932 1336940 1336957 1336965
tba† tba tba tba tba tba tba tba tba tba tba tba tba 1150036 tba tba tba tba tba tba tba tba tba tba tba tba tba
† to
be assigned
Pumps
■
M675 Pump
© 2005 Schlumberger. All rights reserved.
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REDA* ESP
M675A Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
M675A Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
19,000–32,000 B/D 8.63 in. 1.188 in. 1.108 in.2 10.75 in.
Housing burst-pressure limit
Standard High strength Standard Buttress Welded
637 hp 1,019 hp 2,000 psi 2,400 psi 2,400 psi
Power (hp)
Efficiency (%)
175
70
150
60
125
125
50
100
100
40
75
75
30
50
50
20
25
10
175
Efficiency
150
Head (ft)
Shaft brake-power limit
Head
25
Operating range
Power
0 0
5,000
10,000
15,000
20,000
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
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25,000
30,000
0 35,000
0
Return to Pumps REDA* Pump M675A Performance Curve Curve computed for one stage in fluid of 1.00 sg.
200 70 Hz 175 65 Hz 150 60 Hz 125 Head (ft)
55 Hz 100
50 Hz
75 50
25
70 Hz
50 45 65 Hz
40 35 Power (hp)
60 Hz
30 55 Hz
25 20
50 Hz
15 10 5 0
5,000
10,000
15,000
20,000
25,000
30,000
35,000
40,000
45,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
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REDA* ESP
M675A Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
M675A Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
2,517–4,306 m3 ⁄d 21.92 cm 3.02 cm 7.15 cm2 27.31 cm
Shaft brake-power limit Housing burst-pressure limit
531 hp 849 hp 13,790 kPa 16,548 kPa 16,548 kPa
Power (hp)
Efficiency (%)
70
70
60
60
25
50
50
20
40
40
15
30
30
10
20
20
10
10
35
Efficiency Head
Operating range
30
Head (m)
Standard High strength Standard Buttress Welded
Power 5
0 0
500
1,000
1,500
2,000
2,500
3,000
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
3,500
4,000
4,500
0 5,000
0
Return to Pumps REDA* Pump M675A Performance Curve Curve computed for one stage in fluid of 1.00 sg.
60 70 Hz 50
65 Hz 60 Hz
40 Head (m)
55 Hz 30
50 Hz
20
10
70 Hz
50 45 65 Hz
40 35 Power (hp)
60 Hz
30 25
55 Hz
20
50 Hz
15 10 5 0
1,000
2,000
3,000
4,000
5,000
6,000
7,000
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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REDA* ESP
M675B Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
M675B Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
19,000–29,000 B/D 8.63 in. 1.188 in. 1.108 in.2 10.75 in.
Shaft brake-power limit Housing burst-pressure limit
637 hp 1,019 hp 2,000 psi 2,400 psi 2,400 psi
Power (hp)
Efficiency (%)
70
70
60
60
50
50
100
40
40
75
30
30
20
20
10
10
175
Efficiency
150
Operating range Head
125 Head (ft)
Standard High strength Standard Buttress Welded
50
Power
25
0 0
5,000
10,000
15,000
20,000
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
25,000
30,000
0 35,000
0
Return to Pumps REDA* Pump M675B Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz
150
65 Hz 125 60 Hz 100
55 Hz
Head (ft)
50 Hz
75
50
25
70 Hz
40 35
65 Hz
30 Power (hp)
60 Hz
25 55 Hz
20
50 Hz
15 10 5 0
5,000
10,000
15,000
20,000
25,000
30,000
35,000
40,000
45,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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REDA* ESP
M675B Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
M675B Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
2,517–3,842 m3 ⁄d 21.92 cm 3.02 cm 7.15 cm2 27.31 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
531 hp 849 hp 13,790 kPa 16,548 kPa 16,548 kPa
Power (hp)
Efficiency (%)
70
70
60
60
25
50
50
20
40
40
15
30
30
10
20
20
10
10
35
Efficiency
30
Operating range Head
Head (m)
Power
5
0 0
500
1,000
1,500
2,000
2,500
3,000
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
3,500
4,000
4,500
0 5,000
0
Return to Pumps REDA* Pump M675B Performance Curve Curve computed for one stage in fluid of 1.00 sg.
50 70 Hz 45 65 Hz
40 35
60 Hz
30 Head (m)
55 Hz
25
50 Hz
20 15 10 5
70 Hz
40 35
65 Hz
30 Power (hp)
60 Hz
25
55 Hz
20 50 Hz
15 10 5 0
1,000
2,000
3,000
4,000
5,000
6,000
7,000
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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REDA* ESP
M675C Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
M675C Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
19,000–28,000 B/D 8.63 in. 1.188 in. 1.108 in.2 10.75 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
637 hp 1,019 hp 2,000 psi 2,400 psi 2,400 psi
Power (hp)
Efficiency (%)
70
70
60
60
50
50
100
40
40
75
30
30
20
20
10
10
175 Efficiency 150 Operating range 125 Head (ft)
Head
50
Power
25
0 0
5,000
10,000
15,000
20,000
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
25,000
30,000
0 35,000
0
Return to Pumps REDA* Pump M675C Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 Hz
125
65 Hz 100 60 Hz
Head (ft)
55 Hz 75 50 Hz 50
25
35
70 Hz
30 65 Hz 25 Power (hp)
60 Hz 20 55 Hz 15 50 Hz 10 5
0
5,000
10,000
15,000
20,000
25,000
30,000
35,000
40,000
45,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
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REDA* ESP
M675C Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
M675C Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
2,517–3,710 m3 ⁄d 21.92 cm 3.02 cm 7.15 cm2 27.31 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
531 hp 849 hp 13,790 kPa 16,548 kPa 16,548 kPa
Power (hp)
Efficiency (%)
35
70
30
60
25
50
20
20
40
15
15
30
10
20
5
10
35
Efficiency
30 Operating range 25 Head Head (m)
10
Power
5
0 0
500
1,000
1,500
2,000
2,500
3,000
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
3,500
4,000
4,500
0 5,000
0
Return to Pumps REDA* Pump M675C Performance Curve Curve computed for one stage in fluid of 1.00 sg.
40 70 Hz 35 65 Hz 30 60 Hz 25 Head (m)
55 Hz 20
50 Hz
15 10 5
35
70 Hz
30 65 Hz 25 Power (hp)
60 Hz
20
55 Hz 15 50 Hz 10 5
0
1,000
2,000
3,000
4,000
5,000
6,000
7,000
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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N1050 Pump 950 Series, Min. Casing Size 113⁄4-in. [298.5-mm] OD ARZ Carbon Steel C-CT-ARZ
ARZ Carbon Steel C-CT-ARZ
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
‘A’ Cut† Part Number
‘A’ Cut‡ Part Number
‘B’ Cut† Part Number
‘B’ Cut‡ Part Number
1N 2N 3N 4N 5N 6N 7N 8N 9N 10N 11N 12N 13N 14N 15N 16N 17N 18N 19N 20N
3.1 [1.0] 3.7 [1.1] 4.3 [1.3] 4.9 [1.5] 5.4 [1.7] 6.0 [1.8] 6.6 [2.0] 7.2 [2.2] 7.8 [2.4] 8.4 [2.6] 8.9 [2.7] 9.5 [2.9] 10.1 [3.1] 10.7 [3.3] 11.3 [3.5] 11.9 [3.6] 12.4 [3.8] 13.0 [4.0] 13.6 [4.2] 14.2 [4.3]
326 [148] 402 [183] 477 [217] 554 [252] 627 [285] 703 [319] 779 [354] 854 [388] 930 [422] 1,003 [455] 1,079 [490] 1,155 [524] 1,231 [559] 1,307 [593] 1,382 [627] 1,458 [662] 1,534 [696] 1,611 [731] 1,687 [766] 1,763 [800]
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
tba§ tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba
tba tba 1199470 1199488 1199496 1199504 1199512 1199520 tba tba tba tba tba tba tba tba tba tba tba tba
tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba
tba tba tba tba 2003595 tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba
† Single
compression pump with integral intake, 738 Series bolt pattern, discharge head with 7-in. [177.8-mm] threads compression pump with integral intake, 950 Series bolt pattern, discharge head with 7-in. [177.8-mm] threads § to be assigned ‡ Single
Pumps
■
N1050 Pump
© 2005 Schlumberger. All rights reserved.
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REDA* ESP
N1050A Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
N1050A Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
24,000–47,500 B/D 9.50 in. 1.500 in. 1.767 in.2 11.75 in.
Shaft brake-power limit
Standard High strength Standard Buttress Welded
Housing burst-pressure limit
1,000 hp 1,600 hp 2,300 psi Not applicable 2,760 psi
350
Power (hp)
Efficiency (%)
175
70
150
60
125
50
200
100
40
150
75
30
50
20
25
10
Efficiency 300
250
Operating range Head
Head (ft)
100
Power
50
0 0
5,000
10,000
15,000
20,000
25,000
30,000
35,000
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
40,000
45,000
50,000
0 55,000
0
Return to Pumps REDA* Pump N1050A Performance Curve Curve computed for one stage in fluid of 1.00 sg.
250
70 Hz 65 Hz
200 60 Hz Head (ft)
55 Hz
150
50 Hz 100
50
70 Hz
90 80
65 Hz
70 Power (hp)
60 Hz
60 55 Hz
40 50 Hz
30 20 10 0
10,000
20,000
30,000
40,000
50,000
60,000
70,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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REDA* ESP
N1050A Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
N1050A Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
3,180–6,294 m3 ⁄d 24.13 cm 3.81 cm 11.40 cm2 29.85 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
833 hp 1,333 hp 15,850 kPa Not applicable 19,030 kPa
Power (hp)
Efficiency (%)
175
70
150
60
125
50
40
100
40
30
75
30
20
50
20
25
10
70 Efficiency 60 Operating range 50 Head Head (m)
Power
10
0 0
1,000
2,000
3,000
4,000
5,000
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
6,000
7,000
0 8,000
0
Return to Pumps REDA* Pump N1050A Performance Curve Curve computed for one stage in fluid of 1.00 sg.
80 70 Hz 70 65 Hz 60 60 Hz 50 Head (m)
55 Hz 40
50 Hz
30 20 10
70 Hz
90 80 65 Hz
70 60 Power (hp)
60 Hz
50
55 Hz
40 50 Hz
30 20 10 0
1,000
2,000
3,000
4,000
5,000
6,000
7,000
8,000
9,000
10,000
11,000
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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REDA* ESP
N1050B Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
N1050B Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
24,000–43,000 B/D 9.50 in. 1.500 in. 1.767 in.2 11.75 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
1,000 hp 1,600 hp 2,300 psi Not applicable 2,760 psi
Head
175
150 Efficiency
125
Head (ft)
100
Power (hp)
Efficiency (%)
175
70
150
60
125
50
100
40
75
30
50
20
25
10
Operating range 75
50 Power 25
0 0
5,000
10,000
15,000
20,000
25,000
30,000
35,000
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
40,000
45,000
50,000
0 55,000
0
Return to Pumps REDA* Pump N1050B Performance Curve Curve computed for one stage in fluid of 1.00 sg.
225 70 Hz 200 65 Hz
175
60 Hz
150 Head (ft)
55 Hz
125
50 Hz 100 75 50 25
70 Hz
70 60
65 Hz
40 Power (hp)
60 Hz 55 Hz
30
50 Hz 20 10
0
10,000
20,000
30,000
40,000
50,000
60,000
70,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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REDA* ESP
N1050B Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
N1050B Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
3,180–5,697 m3 ⁄d 24.13 cm 3.81 cm 11.40 cm2 29.85 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
833 hp 1,333 hp 15,850 kPa Not applicable 19,030 kPa
Head
Power (hp)
Efficiency (%)
70
70
60
60
50
50
20
40
40
15
30
30
10
20
20
5
10
10
70
40
30
Efficiency Operating range
Head (m)
Power
0 0
1,000
2,000
3,000
4,000
5,000
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
6,000
7,000
0 8,000
0
Return to Pumps REDA* Pump N1050B Performance Curve Curve computed for one stage in fluid of 1.00 sg.
70 70 Hz 60 65 Hz 50
Head (m)
60 Hz 55 Hz
40
50 Hz 30
20
10
70 Hz
70 60
65 Hz
50 60 Hz Power (hp)
40 55 Hz 30
50 Hz
20 10
0
1,000
2,000
3,000
4,000
5,000
6,000
7,000
8,000
9,000
10,000
11,000
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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N1400 Pump 1000 Series, Min. Casing Size 113⁄4-in. [298.5-mm] OD ES Carbon Steel C-CT-ES-ZS
ARZ Carbon Steel C-CT-ARZ-ZS
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
‘A’ Cut Part Number
‘B’ Cut Part Number
‘A’ Cut Part Number
‘B’ Cut Part Number
1N 2N 3N 4N 5N 6N 7N 8N 9N 10N 11N 12N 13N 14N
2.56 [0.78] 3.30 [1.01] 4.04 [1.23] 4.78 [1.46] 5.52 [1.68] 6.26 [1.91] 7.00 [2.14] 7.74 [2.36] 8.48 [2.59] 9.22 [2.81] 9.96 [3.04] 9.70 [2.96] 11.44 [3.49] 12.18 [3.71]
528 [240] 618 [281] 708 [321] 798 [362] 888 [403] 978 [444] 1,068 [485] 1,158 [526] 1,248 [567] 1,338 [607] 1,398 [635] 1,488 [676] 1,578 [716] 1,668 [757]
1 2 3 4 5 6 7 8 9 10 11 12 13 14
tba† tba 2004030 2004031 2000653 tba 2004032 tba tba tba tba tba tba tba
tba tba tba tba tba tba tba tba tba tba tba tba tba tba
tba tba 2004033 2004034 2000651 tba 2004035 tba tba tba tba tba tba tba
tba tba tba tba tba tba tba tba tba tba tba tba tba tba
† to
be assigned
1000 Series, Min. Casing Size 113⁄4-in. [298.5-mm] OD ES Carbon Steel C-LT-ES-ZS
ARZ Carbon Steel C-LT-ARZ-ZS
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
‘A’ Cut Part Number
‘B’ Cut Part Number
‘A’ Cut Part Number
‘B’ Cut Part Number
1N 2N 3N 4N 5N 6N 7N 8N 9N 10N 11N 12N 13N 14N
2.56 [0.78] 3.30 [1.01] 4.04 [1.23] 4.78 [1.46] 5.52 [1.68] 6.26 [1.91] 7.00 [2.14] 7.74 [2.36] 8.48 [2.59] 9.22 [2.81] 9.96 [3.04] 9.70 [2.96] 11.44 [3.49] 12.18 [3.71]
528 [240] 618 [281] 708 [321] 798 [362] 888 [403] 978 [444] 1,068 [485] 1,158 [526] 1,248 [567] 1,338 [607] 1,398 [635] 1,488 [676] 1,578 [716] 1,668 [757]
1 2 3 4 5 6 7 8 9 10 11 12 13 14
tba† tba tba tba 2000657 tba tba tba tba tba tba tba tba tba
tba tba tba tba tba tba tba tba tba tba tba tba tba tba
tba tba tba tba 2000656 tba tba tba tba tba tba tba tba tba
tba tba tba tba tba tba tba tba tba tba tba tba tba tba
† to
be assigned
Pumps
■
N1400 Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps Pumps
REDA* ESP
N1400A Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
N1400A Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
35,000–64,000 B/D 10.00 in. 1.750 in. 2.405 in.2 11.75 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
1,500 hp 2,400 hp 2,300 psi Not applicable Not applicable
Power (hp)
Efficiency (%)
350
70
300
60
250
250
50
200
200
40
150
150
30
100
100
20
50
10
350 Efficiency Operating range
300 Head
Head (ft)
Power 50
0 0
10,000
20,000
30,000
40,000
50,000
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
60,000
70,000
0 80,000
0
Return to Pumps REDA* Pump N1400A Performance Curve Curve computed for one stage in fluid of 1.00 sg.
350 70 Hz 300 65 Hz 250 60 Hz Head (ft)
55 Hz
200
50 Hz 150
100
50
175
70 Hz
150 65 Hz 125 Power (hp)
60 Hz 100 55 Hz 75 50
50 Hz
25
0
10,000
20,000
30,000
40,000
50,000
60,000
70,000
80,000
90,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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Return to Pumps Pumps
REDA* ESP
N1400A Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
N1400A Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
4,637–8,480 m3 ⁄d 25.40 cm 4.45 cm 15.52 cm2 29.85 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
1,250 hp 2,000 hp 15,850 kPa Not applicable Not applicable
Power (hp)
Efficiency (%)
175
70
150
60
50
125
50
40
100
40
30
75
30
50
20
25
10
70 Efficiency Operating range
60 Head
Head (m)
20 Power 10
0 0
1,000
2,000
3,000
4,000
5,000
6,000
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
7,000
8,000
9,000
0 10,000
0
Return to Pumps REDA* Pump N1400A Performance Curve Curve computed for one stage in fluid of 1.00 sg.
100
70 Hz
90 65 Hz 80 60 Hz
70
55 Hz
60 Head (m)
50 Hz
50 40 30 20 10
175
70 Hz
150 65 Hz 125 Power (hp)
60 Hz
100 55 Hz 75 50
50 Hz
25
0
2,500
5,000
7,500
10,000
12,500
15,000
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
N1400B Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
N1400B Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
35,000–60,000 B/D 10.00 in. 1.750 in. 2.405 in.2 11.75 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
1,500 hp 2,400 hp 2,300 psi Not applicable Not applicable
Power (hp)
Efficiency (%)
350
70
300
60
250
50
200
200
40
150
150
30
100
20
50
10
350 Efficiency 300 Operating range 250 Head (ft)
Head
100 Power 50
0 0
10,000
20,000
30,000
40,000
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
50,000
60,000
0 70,000
0
Return to Pumps REDA* Pump N1400B Performance Curve Curve computed for one stage in fluid of 1.00 sg.
300
70 Hz 65 Hz
250
60 Hz 200 55 Hz
Head (ft)
50 Hz
150
100
50
70 Hz
150 125
65 Hz
100 Power (hp)
60 Hz 55 Hz
75
50 Hz 50 25
0
10,000
20,000
30,000
40,000
50,000
60,000
70,000
80,000
90,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
N1400B Pump Performance Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
N1400B Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
4,637–7,950 m3 ⁄d 25.40 cm 4.45 cm 15.52 cm2 29.85 cm
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
1,250 hp 2,000 hp 15,850 kPa Not applicable Not applicable
Power (hp)
Efficiency (%)
175
70
150
60
125
50
40
100
40
30
75
30
50
20
25
10
70 Efficiency 60 Operating range Head
50 Head (m)
20
Power
10
0 0
1,000
2,000
3,000
4,000
5,000
6,000
Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
7,000
8,000
9,000
0 10,000
0
Return to Pumps REDA* Pump N1400B Performance Curve Curve computed for one stage in fluid of 1.00 sg.
90
70 Hz
80
65 Hz
70 60 Hz 60 55 Hz Head (m)
50 50 Hz 40 30 20 10
70 Hz
150 125
65 Hz
100 Power (hp)
60 Hz 55 Hz
75 50
50 Hz
25
0
2,500
5,000
7,500
10,000
12,500
15,000
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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Return to Pumps
P2500A Pump 1125 Series, Min. Casing Size 135⁄8-in. [346.1-mm] OD Carbon Steel C-LT
ES Carbon Steel C-LT-ES
Housing
Length, ft [m]
Weight, lbm [kg]
Max. Stages
‘A’ Cut Part Number
‘A’ Cut Part Number
1 2 3 4 5 6 7 8
3.6 [1.10] 4.4 [1.34] 5.1 [1.56] 5.9 [1.80] 6.7 [2.04] 7.4 [2.26] 8.2 [2.50] 9.0 [2.75]
403 [183] 513 [233] 623 [283] 733 [333] 843 [383] 953 [433] 1,063 [483] 1,173 [533]
1 2 3 4 5 6 7 8
2010904 tba 1267616 tba 1236116 1236124 1236132 1345081
tba† tba tba tba 1333574 tba tba tba
† to
be assigned
Pumps
■
P2500A Pump
© 2005 Schlumberger. All rights reserved.
Return to Pumps
Return to Pumps Pumps
REDA* ESP
P2500A Pump Performance Curve
60 Hz, 3,500 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
P2500A Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
53,486–96,001 B/D 11.25 in. 1.500 in. 1.767 in.2 13.625 in.
Shaft brake-power limit Housing burst-pressure limit
Standard High strength Standard Buttress Welded
1,000 hp 1,600 hp 1,400 psi Not applicable Not applicable
350
Power (hp)
Efficiency (%)
700
70
300
600
60
250
500
50
400
40
150
300
30
100
200
20
100
10
Head
Head (ft)
Efficiency
200
Power 50 Operating range 0 0
10,000
20,000
30,000
40,000
50,000
60,000
70,000
Capacity (B/D)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Revised 6/2006
Return to Pumps
80,000
90,000
100,000
0 110,000
0
Return to Pumps REDA* Pump P2500A Performance Curve Curve computed for one stage in fluid of 1.00 sg.
400 350
70 Hz 65 Hz
300
60 Hz
250 Head (ft)
55 Hz 200 50 Hz 150 100 50
70 Hz
250 225 65 Hz
200 175 Power (hp)
60 Hz
150 55 Hz
125 100
50 Hz
75 50 25 0
25,000
50,000
75,000
100,000
125,000
Capacity (B/D)
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Pumps
Return to Pumps Pumps
REDA* ESP
P2500A Performance Pump Curve
50 Hz, 2,917 rpm
Curve computed for one stage in fluid of 1.00 sg.
■
P2500A Pump
Optimum operating range Nominal housing diameter Shaft diameter Shaft cross-sectional area Min. casing size
7,087–12,720 m3 ⁄d 28.58 cm 3.81 cm 11.40 cm2 34.61 cm
Housing burst-pressure limit
Standard High strength Standard Buttress Welded
833 hp 1,333 hp 9,653 kPa Not applicable Not applicable
Power (hp)
Efficiency (%)
350
70
300
60
50
250
50
40
200
40
30
150
30
20
100
20
50
10
70
Efficiency
60
Head (m)
Shaft brake-power limit
Head
Operating range
Power 10
0 0
2,500
5,000
7,500 Capacity (m3⁄d)
This engineering performance curve represents nominal performance based on actual multistage testing and certification. All pumps supplied by Schlumberger will be tested and certified to perform within the acceptable limits for Head, Power, and Efficiency as defined in the API Recommended Practice (11S2) for Electric Submersible Pump Testing.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Return to Pumps
10,000
12,500
0 15,000
0
Return to Pumps REDA* Pump P2500A Performance Curve Curve computed for one stage in fluid of 1.00 sg.
125
70 Hz 100 65 Hz Head (m)
60 Hz
75
55 Hz 50 Hz 50
25
70 Hz
250 225 65 Hz
200 175
60 Hz
150 Power (hp)
55 Hz
125 50 Hz
100 75 50 25 0
2,500
5,000
7,500
10,000
12,500
15,000
17,500
20,000
Capacity (m /d) 3
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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Pump Intakes
Back to Pump Intakes
Vortex Gas Separators Applications ■
■ ■
Gas-cut oil wells where annular gas production is permitted Gas well dewatering Gas lift-to-ESP conversion wells
Benefits ■
■
■
Extends ESP run life by eliminating cycling in gassy applications Increases production through its ability to lower intake pressure and increase drawdown Allows efficient pump operations by eliminating pump performance degradation caused by gas
Features ■
■
■
Abrasion-resistant construction available for sandy, abrasive applications Extra large journal bearings for superior shaft stabilization Can be used with the AGH* Advanced Gas Handling device or Poseidon™ multiphase gashandling system to increase production
Pump Intakes
■
The Vortex gas separator is a dynamic gas separation device that utilizes a natural vortex action created by a specially designed inlet configuration, axial flow inducer, multiple vortex generators, multiple flow-through bearings, and a discharge crossover to provide highly effective gas separation. The Vortex gas separator offers an extended range and greater efficiency over a broader range of flow conditions than previous 400 and 540 series rotary gas separators. Additionally, the Vortex gas separator features the patented, compliant-mount ARZ Abrasion-Resistant Zirconia radialbearing technology coupled with a dramatically improved overall bearing system to provide far superior reliability over previous designs. To further extend life expectancy, the rotor assembly has been designed to impart very little energy to solid particles produced through the separator. The improved hydraulics in the Vortex gas separator allow for more effective gas separation at higher fluid flow rates than previously possible.
Vortex Gas Separators
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Vortex Gas Separator Specifications
Outside diameter, in. [mm] Length, ft [m] Weight, lbm [kg] Power consumption in 1.0 sg fluid, hp at 60 Hz Housing material Shaft material Shaft size, in. [mm] Shaft rating, hp at 60 Hz Bearing systems† Total liquid and gas operating range, B/D at 60 Hz † Enhanced-stability
D20-60
S20-90
S70-150
4.00 [101.6] 6.6 [2.20] 145 [65.8] 3 Redalloy* INCONEL® 0.870 [22.10 ] 410 ES 2,000–6,000
5.38 [136.7] 3.2 [0.98] 145 [65.8] 6 Redalloy INCONEL 1.187 [30.02] 1,019 ES 2,000–9,000
5.38 [136.7] 3.4 [1.04] 160 [72.6] 14 Redalloy INCONEL 1.187 [30.02] 1,019 ES 2,000–15,000
bearings are standard.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Poseidon™ is a trademark of Institute Francais du Pétrol (IFP), Total, and Statoil; technology licensed to Schlumberger INCONEL® is a registered trademark of Inco Alloys International, Inc.
Back to Pump Intakes
ESP Catalog
Advanced Gas Handler Applications ■
■ ■
■ ■
High gas/oil ratio (GOR) wells that are too gassy for dynamic gas separators Subsea oil wells Gassy wells with deepset packers above the pump Gas well dewatering Gas lift-to-ESP conversion wells
Benefits ■
■
■
■
Increases production dramatically in wells previously considered too gassy for ESPs Prevents degradation of pump performance by conditioning gas liquid mixture Extends equipment life by eliminating pump cycling because of gas lock Superior reliability in sandy or abrasive environments
Features ■
■ ■
Eliminates surging and gas lock in wells with up to 45% gas volume factor (GVF) and low bottomhole pressure Abrasion-resistant construction High-strength INCONEL® shafts
Pump Intakes
■
The AGH* Advanced Gas Handling device is a highly modified, multistage, high-speed centrifugal pump designed specifically for the gassy ESP market. Gassy wells are those having up to a 45% GVF at low intake pressures. The AGH gas handling device is normally installed in series below a center tandem multistage submersible REDA* pump. The AGH device functions by reducing vapor bubble sizes and changing the gasbubble distribution, homogenizing the gas-liquid mixture to the point of its behaving like a single-phase fluid before entering the pump. The AGH gas handling device can also be installed in series above rotary or vortex-type gas separators.
Production doubled In Kuwait, a well consistently gas locked after 60 to 70 min of operation using a REDA pump with a rotary gas separator. An advanced gas handling device was added to the equipment string above the gas separator with no other equipment changes. Production increased from 900 B/D to 2,100 B/D with no cycling because of gas lock.
New lift alternative A well in Mexico was producing 4,774 B/D (258 ft3/STB GOR) with gas lift using 1 million scf of gas per day. An ESP with an AGH device was installed below a packer with fluids having 29% GVF. Production increased to 9,409 BOPD at 363 ft3/STB GOR with no gas locking.
Advanced Gas Handler
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Without AGH device
Incremental oil produced by AGH installation
Oil production
Economic limit
Time
Production Results
AGH Gas Handling Device Specifications
Outside diameter, in. [mm] Length, ft [m] Weight, lbm [kg] Power consumption with 1-sg fluid (hp at 60 Hz) Shaft size, in. [mm] Shaft power rating (hp at 60 Hz) Bearing systems Liquid flow rate, B/D at 60 Hz † Enhanced
D5-21
D20-60
G20-40
G40-80
S70-100
H100-250
4.00 [101.60] 6.3 [1.92] 135 [61.3] 13
4.00 [101.60] 6.3 [1.92] 135 [61.3] 13
5.13 [130.30] 6.3 [1.92] 272 [123.5] 38
5.13 [130.30] 6.3 [1.92] 272 [123.5] 45
5.38 [136.65] 6.3 [1.92] 284 [128.8] 53
5.62 [142.75] 5.7 [1.74] 229 [103.9] 102
0.687 [17.45] 200 ES, ARZ † 500 to 2,100
0.870 [22.10] 410 ES 2,000 to 6,000
1.000 [25.40] 600 ES, ARZ 2,000 to 4,000
1.000 [25.40] 600 ES, ARZ 4,000 to 8,000
1.000 [25.40] 600 ES, ARZ 7,000 to 10,000
1.180 [29.97] 637 ES, ARZ 10,000 to 25,000
stability and abrasion-resistant zirconia.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger INCONEL® is a registered trademark of Inco Alloys International, Inc.
ESP Catalog
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Pump Intakes 338 Series Bolt-On Intakes Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
Standard intake, 338/375† ARZ intake, 338/375
0.8 [0.2] 0.8 [0.2]
20 [9.1] 20 [9.1]
307157 1146372
492249 1129543
Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
ARS type, 338/375† ARS type, high-strength shaft, 338/375
2.2 [0.7] 2.2 [0.7]
42 [19.1] 42 [19.1]
tba‡ tba
1133636 1160027
Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
ARZ intake, MONEL® trim, high-strength shaft, factory shimmed, 387/387† ARZ intake, standard trim, factory shimmed, 387/387 ARZ intake, standard trim, high-strength shaft, factory shimmed, 387/387
1 [0.3] 1 [0.3] 1 [0.3]
28 [12.7] 28 [12.7] 28 [12.7]
tba‡ 100189479 100189481
100189476 tba tba
Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
CRS-ES, factory shimmed, 387/387† CRS-ES, high-strength shaft, factory shimmed, 387/387
2.6 [0.8] 2.6 [0.8]
70 [31.8] 70 [31.8]
tba‡ tba
100205677 100205633
Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
VGSA D20-60, ES-SS, high-strength shaft, factory shimmed, 387/387† VGSA D20-60, ES, high-strength shaft, factory shimmed, 387/387
3.2 [1.0] 3.2 [1.0]
145 [65.8] 145 [65.8]
tba‡ tba
100202669 100204710
† The
first number denotes the head flange size; the second number denotes the base flange size.
338 Series Rotary Gas Separators
† The ‡ to
first number denotes the head flange size; the second number denotes the base flange size. be assigned
387 Series Bolt-On Intakes
† The ‡ to
first number denotes the head flange size; the second number denotes the base flange size. be assigned
387 Series Rotary Gas Separator
† The ‡ to
first number denotes the head flange size; the second number denotes the base flange size. be assigned
387 Series Vortex Gas Separator
† The ‡ to
first number denotes the head flange size; the second number denotes the base flange size. be assigned
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger MONEL® is a registered trademark of Inco Alloys International, Inc.
Pump Intakes
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400 Series Bolt-On Intakes Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
ARZ intake, 400/400† ARZ-ZS intake, 400/400 ARZ intake, high-strength shaft, 400/400 ARZ-ZS intake, high-strength shaft, 400/400 ARZ intake, 400/540 ARZ-ZS intake, 400/540 ARZ intake, high-strength shaft, 400/540
1 [0.3] 1 [0.3] 1 [0.3] 1 [0.3] 1 [0.3] 1 [0.3] 1 [0.3]
28 [12.7] 28 [12.7] 28 [12.7] 28 [12.7] 28 [12.7] 28 [12.7] 28 [12.7]
1145382 1304567 1230838 tba‡ tba tba 100045111
1129527 100050260 1140029 1275536 1259092 1313832 1296128
Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
DRS-ES, 400/375† DRS-ES, 400/400 DRS-ES, high-strength shaft, 400/400
2.6 [0.8] 2.6 [0.8] 2.6 [0.8]
70 [31.8] 70 [31.8] 70 [31.8]
tba‡ tba tba
1129998 1241272 1160043
Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
VGSA D20-60, ES, high-strength shaft, 400/400† VGSA D20-60, ES-ZS, high-strength shaft, 400/400 VGSA D20-60, ES-SS, high-strength shaft, 400/400
3.2 [1.0] 3.2 [1.0] 3.2 [1.0]
145 [65.8] 145 [65.8] 145 [65.8]
tba‡ tba tba
2003133 2007915 100103337
Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
FL-CT-ES, high-strength shaft, 400/400† FL-CT-ARZ, high-strength shaft, 400/400 CR-CT-ES, high-strength shaft, 400/400 CR-CT-ARZ, high-strength shaft, 400/400
6.3 [1.9] 6.3 [1.9] 6.3 [1.9] 6.3 [1.9]
135 [61.3] 135 [61.3] 135 [61.3] 135 [61.3]
1236686 1252279 1237890 1252444
1251941 1251925 1251743 1251453
† The ‡ to
first number denotes the head flange size; the second number denotes the base flange size. be assigned
400 Series Rotary Gas Separators
† The ‡ to
first number denotes the head flange size; the second number denotes the base flange size. be assigned
400 Series Vortex Gas Separators
† The ‡ to
first number denotes the head flange size; the second number denotes the base flange size. be assigned
400 Series AGH* Advanced Gas Handling Device, D5-21 (500–2,100 B/D Capacity)
† The
first number denotes the head flange size; the second number denotes the base flange size.
400 Series AGH* Advanced Gas Handling Device, D20-60 (2,000–6,000 B/D Capacity) Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
C-CT-ES, high-strength shaft, 400/400† C-LT-ES, high-strength shaft, 400/400 C-LT-ES-ZS, high-strength shaft, 400/400
6.3 [1.9] 6.3 [1.9] 6.3 [1.9]
135 [61.3] 135 [61.3] 135 [61.3]
1345859 2000095 tba
tba‡ tba 2005146
† The ‡ to
first number denotes the head flange size; the second number denotes the base flange size. be assigned
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Back to Pump Intakes
Pump Intakes 540 and 538 Series Bolt-On Intakes Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
ARZ intake, 540/540† ARZ intake, high-strength shaft, 540/540 ARZ-ZS intake, 540/540 ARZ-ZS intake, high-strength shaft, 540/540 ARZ-SS intake, 540/540 ARZ-SS intake, high-strength shaft, 540/540
1.2 [0.4] 1.2 [0.4] 1.2 [0.4] 1.2 [0.4] 1.2 [0.4] 1.2 [0.4]
50 [22.7] 50 [22.7] 50 [22.7] 50 [22.7] 50 [22.7] 50 [22.7]
1145408 1242320 tba‡ 1297829 tba tba
1129519 1156942 1346204 tba 1334770 2003387
Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
VGSA S20-90, ES, high-strength shaft, 538/540† VGSA S20-90, ES-ZS, high-strength shaft, 538/540 VGSA S20-90, ES-SS, high-strength shaft, 538/540 VGSA S70-150, ES, high-strength shaft, 538/540 VGSA S70-150, ES-SS, high-strength shaft, 538/540 VGSA S70-150, ES-ZS, high-strength shaft, 538/540
3.2 [1.0] 3.2 [1.0] 3.2 [1.0] 3.4 [1.0] 3.4 [1.0] 3.4 [1.0]
155 [70.4] 155 [70.4] 155 [70.4] 160 [72.6] 160 [72.6] 160 [72.6]
tba‡ tba tba tba tba tba
1270560 1335389 1346550 1293885 2003763 2006260
Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
ARZ intake, standard trim, factory shimmed, 538/540† ARZ intake, standard trim, high-strength shaft, factory shimmed, 538/540 ARZ intake, MONEL® trim, high-strength shaft, factory shimmed, 538/540
1.2 [0.4] 1.2 [0.4] 1.2 [0.4]
50 [22.7] 50 [22.7] 50 [22.7]
100191069 100191144 tba
tba‡ tba 100191146
Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
VGSA S70-150, ES, MONEL trim, high-strength shaft, factory shimmed, 538/540† VGSA S70-150,ES-ZS, MONEL trim, high-strength shaft, factory shimmed, 538/540 VGSA S70-150,ES-SS, MONEL trim, high-strength shaft, factory shimmed, 538/540
3.2 [1.0]
155 [70.4]
tba‡
100204881
3.2 [1.0]
155 [70.4]
tba
100204896
3.2 [1.0]
155 [70.4]
tba
100204898
† The ‡ to
first number denotes the head flange size; the second number denotes the base flange size. be assigned
538 Series Vortex Gas Separators
† The ‡ to
first number denotes the head flange size; the second number denotes the base flange size. be assigned
538 Series Bolt-On Intakes
† The ‡ to
first number denotes the head flange size; the second number denotes the base flange size. be assigned
538/540 Series Vortex Gas Separators
† The ‡ to
first number denotes the head flange size; the second number denotes the base flange size. be assigned
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger MONEL® is a registered trademark of Inco Alloys International, Inc.
Pump Intakes
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540 Series AGH* Advanced Gas Handling Device, G20-40, (2,000–4,000 B/D Capacity) Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
FL-CT-ES, high-strength shaft, 540/540† FL-CT-ARZ, high-strength shaft, 540/540 CR-CT-ES, high-strength shaft, 540/540 CR-CT-ES-ZS, high-strength shaft, 540/540 CR-CT-ARZ, high-strength shaft, 540/540 CR-CT-ARZ-ZS, high-strength shaft, 540/540 CR-CT-ARZ-SS, high-strength shaft, 540/540
6.3 [1.9] 6.3 [1.9] 6.3 [1.9] 6.3 [1.9] 6.3 [1.9] 6.3 [1.9] 6.3 [1.9]
272 [123.5] 272 [123.5] 272 [123.5] 272 [123.5] 272 [123.5] 272 [123.5] 272 [123.5]
1295682 1294115 1295955 2004363 1295930 1335421 tba
1295708 1295120 1295997 tba‡ 1295971 1340025 2007919
† The ‡ to
first number denotes the head flange size; the second number denotes the base flange size. be assigned
538 Series AGH* Advanced Gas Handling Device, S70-100 (7,000–10,000 B/D Capacity) Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
FL-CT-ES, high-strength shaft, 538/540† FL-CT-ARZ, high-strength shaft, 538/540 ES CR-CT, high-strength shaft, 538/540 ARZ, CR-CT, high-strength shaft, 538/540
6.3 [1.9] 6.3 [1.9] 6.3 [1.9] 6.3 [1.9]
284 [128.9] 284 [128.9] 284 [128.9] 284 [128.9]
1246008 1254580 1254622 1254564
1254614 1254598 1254606 1254572
† The
first number denotes the head flange size; the second number denotes the base flange size.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Back to Pump Intakes
Pump Intakes 562 Series Bolt-On Intakes Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
ARZ intake, high-strength shaft, 562/540† ARZ-ZS intake, high-strength shaft, 562/540 ARZ-SS intake, high strength shaft, 562/540
0.7 [0.2] 0.7 [0.2] 0.7 [0.2]
47 [21.3] 47 [21.3] 47 [21.3]
1145424 tba‡ tba
1108042 1290758 2005181
† The ‡ to
first number denotes the head flange size; the second number denotes the base flange size. be assigned
562 Series AGH* Advanced Gas Handling Device, H100-250, FL-CT (10,000–25,000 B/D Capacity) Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
C-LT, 562/540† C-LT-ES, modified shaft, 562/540 C-LT-ES, 562/540 C-LT-ARZ-SS, 562/540 C-LT-ARZ-SS, modified shaft, 562/540 C-LT-ES, 675/540 C-LT-ARZ-SS, 675/540 C-LT-ES, 725/540 C-LT-ARZ-SS, 725/540 C-LT-ES, 862/540 C-LT-ARZ-SS, 862/540
5.2 [1.6] 5.2 [1.6] 5.2 [1.6] 5.2 [1.6] 5.2 [1.6] 5.2 [1.6] 5.2 [1.6] 5.2 [1.6] 5.2 [1.6] 5.2 [1.6] 5.2 [1.6]
263 [119.4] 263 [119.4] 263 [119.4] 263 [119.4] 263 [119.4] 263 [119.4] 263 [119.4] 263 [119.4] 263 [119.4] 263 [119.4] 263 [119.4]
2010121 2010124 tba 2010100 2010128 2010120 2010101 2010119 2010102 2010118 2010103
tba‡ 2010126 2010111 2010110 2010127 2010112 2010105 2010113 2010106 2010114 2010107
Description
Carbon Steel Part Number
Redalloy* Part Number
675 Series, standard trim 675 Series, MONEL® trim 725 Series, standard trim 725 Series, MONEL trim 862 Series, standard trim 862 Series, MONEL trim 862 Series, standard trim, high-strength shaft 862 Series, MONEL trim, high-strength shaft
2010249 2010257 2010250 2010258 2010251 2010259 2010252 2010260
tba† 2010253 tba 2010254 tba 2010255 tba 2010256
† The ‡ to
first number denotes the head flange size; the second number denotes the base flange size. be assigned
562 Series Adapter Kits to Connect to 675, 725, and 862 Series Pumps
†
to be assigned
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger MONEL® is a registered trademark of Inco Alloys International, Inc.
Pump Intakes
Back to Pump Intakes
675 Series Intakes Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
ARZ-ZS intake, high-strength shaft, 675/540† ARZ intake, 675/738 ARZ-ZS intake, high-strength shaft, 675/738 GS gas separator, 675/738
1.1 [0.3] 1.1 [0.3] 1.1 [0.3] 6.0 [1.8]
47 [21.3] 47 [21.3] 47 [21.3] 250 [113.5]
tba‡ 1145440 tba 662213
1308832 1129501 1265503 tba
† The ‡ to
first number denotes the head flange size; the second number denotes the base flange size. be assigned
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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Protectors
Back to Protectors
Modular Protector Nomenclature Chamber Type (XXXXX–X) L B M
Labyrinth Elastomer bag Metal bellows
Connection Type (XXXXX–X) S P
Series Parallel
Thrust-Bearing Type (XXXXX–X) HL None
High-load Base configuration (intermediate load)
Shaft Material (XXXXX–X–X) HSS None
High-strength shaft Base configuration (intermediate strength)
Note: REDA* Maximus* protectors use MaxJoint* flange connection design and do not require oil servicing at the wellsite. All other designs of protectors must be refilled with oil at the wellsite during the installation process.
Nomenclature Definitions Type
Description
66L SB DB PF HL HSS HTM
Two-chambered labyrinth design Positive seal protector using a single elastomeric bag Positive seal protector with two elastomeric bags connected in parallel Prefilled protector High-load thrust bearing Indicates the use of high-strength shaft Indicates the use of high-temperature materials in the protector
Protectors
■
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger INCONEL® is a registered trademark of Inco Alloys International, Inc.
Modular Protector Nomenclature
Back to Protectors
Elastomer Application Guidelines Performance Ratings Elastomer
Neoprene/Nitrile
Carboxynitrile
HSN
Viton®
Aflas®
Temperature limit, °F [°C] Water/oil Hydrogen sulfide Amines Polar chemicals Carbon dioxide
250 [121] 1 1 3 4 2
275 [135] 1 3 3 4 2
300 [149] 1 1 3 1–2 2
351 [177] 2 4 4 3 4
399 [204] 1 1 1 3 2
Definition of ratings: 1 = Excellent—long-term resistance (low swell, high retention of physical properties); 2 = Good—long-term resistance (moderate swell, good retention of physical properties); 3 = Fair—depends on exposure time and temperature (good short-term resistance); 4 = Poor—no resistance, even in the short term Note: Temperature limit indicates maximum operating temperature for the elastomers. An elastomeric component will operate at a higher temperature than the ambient wellbore temperature, depending on its location in the equipment. Consult your Schlumberger representative for specific application assistance.
Protectors
■
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Aflas® is a registered trademark of Asahi Glass Co., Ltd. Corp. Viton® is a registered trademark of E. I. duPont de Nemours Corp.
Elastomer Application Guidelines
Back to Protectors
Advanced Motor Protector Applications ■ ■ ■
■
Gassy wells Abrasive fluids Corrosive fluids, including hydrogen sulfide (H2S) and chemical treatments High temperatures (to 425°F [218°C] bottomhole temperature), including ● steam injection ● geothermal applications ● poorly cooled motors in viscous applications or wells with low flow rates
Benefits ■
■ ■
■ ■
Extends ESP run life in severe applications Improves shaft stability Reduces chance of motor fluid contamination Expands ESP application range Prevents abrasives or solids accumulations in protector head
Features ■
■
■
■
■ ■ ■
Available with metal bellows-, elastomeric bag-, or labyrinthtype fluid containment system Metal bellows option resistant to very high temperatures and eliminates gas migration Dual ceramic bearing to reduce vibration and eliminate bronze bushing wear Sand shroud to protect mechanical seal Elevated mechanical shaft seal High-pressure check valve Bellows- or bag-type systems can be connected in parallel for additional oil volume
Protectors
■
Schlumberger advanced motor protector systems are specially designed to handle challenging environments. They are available in different versions to provide a fit-for-purpose solution for sand and solids production, corrosive fluids, and high-temperature environments. The Schlumberger advanced motor protector design features an optional INCONEL® metal bellows to replace the elastomeric bag. Using metal bellows allows the extension of the temperature operating limits far beyond that of the elastomeric bag-type protector. In the case of gassy wells, the metal bellows option also prevents gas from migrating and displacing the motor oil. The metal bellows are resistant to H2S and impermeable to gas, and thus are more suitable for wells in harsh environments; i.e., high temperatures and H2S, as well as wells with high gas content. If temperature, gas content, and corrosive chemicals are not of concern, the metal bellows in the advanced motor protector can be replaced with the traditional elastomeric bag- or labyrinth-type design options while still incorporating advanced options to handle abrasive environments. The advanced protector has many special features to improve performance in wells producing sand or solids, including a novel protector head design with an elevated shaft seal, sand shield, and sand drainholes. Any sand or solids falling from the protector intake will drop back into the wellbore through the drainholes. The sand shield also protects the top shaft seal from abrasion damage. Other features, such as a dual ceramic journal bearing in the protector head, improve shaft stability. Finally, using ceramic shaft bearings reduces abrasive wear.
Advanced Motor Protector
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The advanced protector system can operate in high-temperature and highH2S environments. It improves ESP performance in such environments, significantly increasing operating reliability. The high-temperature advanced protector has a proven success record in many steamflood injection applications at its maximum operating limits.
Specifications OD, in. [mm] Max. bottomhole temperature, °F [°C] Length Metallurgy Chambers Shaft diameter, in. [mm] Deviation angle, °
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger INCONEL® is a registered trademark of Inco Alloys International, Inc.
5.130 [130.30] 425 [218] Dictated by system configuration Carbon steel or Redalloy* high-nickel alloy Metal bellows, bag, or labyrinth 1.187 [30.15] 0–90
ESP Catalog
Back to Protectors
Modular Protector Configurations 325 Series (Bolts to 375 Series Motors) Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
66L PF-SB-HTM PF-SB-HTM-HL
5.1 [1.6] 3.7 [1.1] 3.7 [1.1]
110 [49.9] 80 [36.3] 80 [36.3]
416727 975359 939579
462416 975375 939595
375 Series (Bolts to 375 Series Motors) Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
66L
5.3 [1.6]
115 [52.2]
661843
894279
400 Series Modular (Bolts to 456 Series Motors) Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
LSL LSL-HL LSB LSB-HL BSL BSB-HL LSLSL LSBPB LSLSB LSLSL-HL LSBPB-HL LSLSB-HL LSBSB-HL LSLSL-HL-HSS BPBSL-HL-AFL
5.9 [1.8] 5.9 [1.8] 5.9 [1.8] 5.9 [1.8] 5.9 [1.8] 5.9 [1.8] 8.2 [2.5] 8.2 [2.5] 8.2 [2.5] 8.2 [2.5] 8.2 [2.5] 8.2 [2.5] 8.2 [2.5] 8.2 [2.5] 8.2 [2.5]
151 [68.6] 151 [68.6] 155 [70.4] 155 [70.4] 156 [70.8] 156 [70.8] 190 [86.3] 200 [90.8] 200 [90.8] 190 [86.3] 200 [90.8] 200 [90.8] 209 [94.9] 190 [86.3] 206 [93.5]
1049006 1048941 1039593 1048958 1074152 1155183 1076363 1094309 1108513 1039015 1048990 1108521 1274935 1096320 1246495
1062140 1061019 1061027 1061555 1232792 2006451 1072800 B094309 B108513 1062157 1061563 1255595 1277375 1237569 D12568B
Protectors
■
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Modular Protector Configurations
Back to Protectors
540 Series Modular (Bolts to 540 and 562 Series Motors)
† to
Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
LSL LSL-HL LSB LSB-HL BSL BSB BSB-HL LSLSL LSBPB LSLSL-HL LSBPB-HL LSLSB-HL LSLSL-HL-HSS BSBSL BPBSL-HL
6.5 [2.0] 6.5 [2.0] 6.5 [2.0] 6.5 [2.0] 6.5 [2.0] 6.5 [2.0] 6.5 [2.0] 8.9 [2.7] 8.9 [2.7] 8.9 [2.7] 8.9 [2.7] 8.9 [2.7] 8.9 [2.7] 8.9 [2.7] 8.9 [2.7]
276 [125.3] 276 [125.3] 282 [128.0] 282 [128.0] 285 [129.4] 292 [132.6] 292 [132.6] 370 [168.0] 382 [173.4] 370 [168.0] 382 [173.4] 370 [168.0] 370 [168.0] 382 [173.4] 382 [173.4]
1068394 1067693 1068402 1133289 1075530 1134873 1263631 1076371 1045400 1067685 1067701 1108547 2006413 1075548 1108505
1069871 1069863 1069889 K06840A 1136068 tba† tba 1074533 1069913 1069855 1069848 1133941 1309244 tba 1180330
be assigned
562 Series Modular (Bolts to 540 and 562 Series Motors) Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
BPBSL-HL-HSS LSBPB-HL-HSS LSLSL-HL-HSS
8.9 [2.7] 8.9 [2.7] 8.9 [2.7]
385 [174.8] 385 [174.8] 385 [174.8]
1178425 1192707 2009980
1289305 1265297 1305440
738 Series Modular (Bolts to 562 Series Motors)
† to
Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
66L-HL 66L-HL-HSS 66L-HL-HTM-HSS BPBSL-HL-HSS
6.4 [1.95] 6.4 [1.95] 6.4 [1.95] 11.9 [3.63]
334 [151.6] 334 [151.6] 334 [151.6] 500 [227.0]
1201383 X20138V X20138Y 100040681
2004111 tba† tba 100040684
be assigned
738 Series Modular (Bolts to 738 Series Motors)
† to
Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
66L-HL 66L-HL-HTM-HSS PF-SB-HL PF-SB-HL-HTM BPBSL-HL-HSS
6.4 [1.95] 6.4 [1.95] 6.4 [1.95] 6.4 [1.95] 11.9 [3.63]
334 [151.6] 334 [151.6] 334 [151.6] 334 [151.6] 500 [227.0]
1196724 R19672J 0978429 J97842C tba†
1230150 100064613 1071612 C97842C 2005492
be assigned
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Back to Protectors
Motors
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REDA ESP Motors All REDA* ESP motors are designed for reliable operation in the extreme environments common to oilwell applications. The motors are two-pole, threephase squirrel-cage induction type, and handwound. They are filled with a highly refined mineral oil to provide dielectric strength, lubrication for bearings, and thermal conductivity. The motor thrust bearing carries the load of the rotors. Heat generated by the motor is transferred to the well fluid as it flows by the motor housing. Corrosion protection is provided with flame spray coatings or ferritic steel construction. High-temperature, high-load thrust bearings and highstrength shafts are available. To reduce power costs, all motors feature proprietary winding configurations to optimize electrical performance and improve efficiency. The Dominator* motor series 456, 562, and 738 feature a comprehensive new rotor and stator design that cost effectively delivers the best performance available for wells with 51⁄2-in. [139.7-mm] and larger casing.
Motors
■
REDA ESP Motor Capacity Ranges Power Rating, hp Min. Casing OD, in. [mm]
Motor Series
Frequency, 60 Hz
Frequency, 50 Hz
4.500 [114.3] 5.500 [139.7] 7.000 [177.8] 7.000 [177.8] 8.625 [219.1]
375 456 540 562 738
7.5–233 12.0–432 20.0–750 30.0–1,170 250.0–1,500
6.3–198 10.0–360 16.5–562 25.0–975 208.0–1,250
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
REDA ESP Motors
Return to Motors
Dominator Motors Applications ■
ESP systems
Benefits ■
■
Optimized performance with advanced stator and rotor designs Improved power rating and cost efficiency
Features ■
■ ■
■
Involute spline higher horsepower loads High-load thrust bearings Expanded oil reservoir for extra cooling capacity Oil filter integral to the base
Motors
■
Dominator* ESP motors are designed for high-performance, reliable operation in the extreme environments common in oilwell applications. Dominator motors are important to the reliable performance of the REDA* ESPs. The Dominator motors are handwound, two-pole, threephase, squirrel-cage induction type, and filled with a highly refined mineral oil to provide dielectric strength, lubrication for bearings, and thermal conductivity. Heat generated by the motor is transferred to the well fluid as it flows by the motor housing, and the motor thrust bearing carries the load of the rotors. High-temperature windings and high-strength shafts are available; high-load thrust bearings are standard. External corrosion protection is provided with flame spray coatings or ferritic steel construction. To reduce power costs, all motors feature improved winding configurations, which optimize the electrical performance and improve efficiency. Dominator motor series 456, 562, and 738 feature a new rotor and stator design that delivers cost-effective, superior performance for wells with 51⁄2-in. [139.7-mm] and larger casing sizes. Comparative testing and actual field performance have proven the Dominator motor to be among the most rugged and efficient ESP motor available. Increases in power and efficiency are possible with the new rotor and stator designs. The new rotor bar shape provides more copper in the rotor for increased starting torque and greater efficiency. The precision steel stator laminations focus the magnetic forces on the rotors to reduce energy loss. Stator windings have been enhanced with increased copper fill and a superior high-temperature insulation system. © 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Dominator Motors
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Bolt-On Motor Bases Bolt-On Universal Motor Bases Description
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
375 Series 456 Series 456 Dominator* series 540 Series 562 Dominator series 738 Dominator series
0.5 [0.15] 1.0 [0.31] 1.0 [0.31] 1.5 [0.46] 1.5 [0.46] 1.6 [0.49]
15 [6.81] 23 [10.44] 33 [14.98] 70 [31.78] 72 [32.69] 75 [34.05]
1006188 tba† 1336072 1144443 1124403 1126374
1006204 1258854 2004760 1258862 1192491 tba
† to
be assigned
Motors
■
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Bolt-On Motor Bases
Return to Motors
375 Series Motors 375 Series Motors—SK Type Frequency, 60 Hz
Frequency, 50 Hz
Power Rating, hp
Voltage, V
Power Rating, hp
Voltage, V
Current, A
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
14 19
475 465
12 16
396 387
22.0 31.0
28
475
23
396
43.1
300
74.1
322
38.0
346
74.1
440
367
39.0
475
396
74.1
533
55.1
805
671
44.1
975
812
36.0
UT UT UT CT UT CT UT CT UT CT UT CT UT CT UT CT UT CT UT CT
6.3 [1.9] 8.2 [2.5] 11.0 [3.4] 11.1 [3.4] 13.8 [4.2] 13.9 [4.2] 13.8 [4.2] 13.9 [4.2] 15.7 [4.8] 15.8 [4.8] 15.7 [4.8] 15.8 [4.8] 17.6 [5.4] 17.7 [5.4] 17.6 [5.4] 17.7 [5.4] 17.6 [5.4] 17.7 [5.4] 17.6 [5.4] 17.7 [5.4]
208 [94] 270 [123] 361 [164] 361 [164] 456 [207] 456 [207] 456 [207] 456 [207] 537 [244] 537 [244] 514 [233] 514 [233] 661 [300] 661 [300] 660 [300] 660 [300] 660 [300] 660 [300] 660 [300] 660 [300]
1005065 1005073 1005081 1005263 1005099 1005271 1005107 1005289 1005115 1005297 1108802 2000807 1005123 1005305 1005131 1005313 1005149 1005321 1005214 tba
1006089 1006097 1006105 1006436 1006113 1006444 1006121 1006451 1006139 1006469 tba† tba 1006147 1006477 1006154 1006485 1006162 1006493 1006170 tba
360 36
30 387 415
41
34
640 47
† to
39
be assigned
Motors
■
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
375 Series Motors
Return to Motors
375 Series Motors—SX Type Frequency, 60 Hz
Frequency, 50 Hz
Power Rating, hp
Voltage, V
Power Rating, hp
Voltage, V
Current, A
Type
Length, ft [m]
Weight, lbm [kg]
14 19
475 465
12 16
396 387
14.0 20.5
28
475
23
396
28.0
300
51.0
322
38.0
346
51.5
440
367
39.0
475
396
51.0
533
37.0
805
671
30.0
975
812
25.0
UT UT UT CT UT CT UT CT UT CT UT CT UT CT UT CT UT CT UT CT
6.3 [1.9] 8.2 [2.5] 11.1 [3.4] 11.1 [3.4] 13.8 [4.2] 13.9 [4.2] 13.8 [4.2] 13.9 [4.2] 15.7 [4.8] 15.8 [4.8] 15.7 [4.8] 15.8 [4.8] 17.6 [5.4] 17.7 [5.4] 17.6 [5.4] 17.7 [5.4] 17.6 [5.4] 17.7 [5.4] 17.6 [5.4] 17.7 [5.4]
208 [94] 270 [123] 361 [164] 361 [164] 456 [207] 456 [207] 456 [207] 456 [207] 514 [233] 514 [233] 514 [233] 514 [233] 660 [300] 660 [300] 660 [300] 660 [300] 660 [300] 660 [300] 660 [300] 660 [300]
360 36
30 387 415
41
34
640 47
† to
39
Carbon Steel Part Number 1210095 1210103 1210111 1210210 1210129 1210228 1210137 1210236 1210145 1210244 1210152 tba 1210160 1210251 1210178 1210269 1210186 1210277 1210194 2003452
Redalloy* Alloy Part Number tba† tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba
be assigned
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Motors
456 Dominator Motors 456 Dominator* Motors—RX Type Frequency, 60 Hz Power Rating, hp
Voltage, V
Frequency, 50 Hz Power Rating, hp
439
Current, A
366
35.0
682
568
22.5
415
346
55.5
650
29.5
901
751
25.5
472
393
65.0
731
35.0
1,039
866
29.5
1,363
1,136
22.5
894
745
43.0
995
829
38.5
914
35.0
1,198
998
32.0
1,400
1,167
27.5
951
793
48.5
1,198
32.0
1,907
20.0
24
20
36
780
30
877 48
40
60
1,097
72
1,437
50
60
2,288
Motors
Voltage, V
■
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT
5.7 [1.7] 5.7 [1.7] 5.7 [1.7] 5.7 [1.7] 7.4 [2.3] 7.4 [2.3] 7.4 [2.3] 7.4 [2.3] 7.4 [2.3] 7.4 [2.3] 9.0 [2.7] 9.0 [2.7] 9.0 [2.7] 9.0 [2.7] 9.0 [2.7] 9.0 [2.7] 9.0 [2.7] 9.0 [2.7] 10.6 [3.2] 10.6 [3.2] 10.6 [3.2] 10.6 [3.2] 10.6 [3.2] 10.6 [3.2] 10.6 [3.2] 10.6 [3.2] 10.6 [3.2] 10.6 [3.2] 12.2 [3.7] 12.2 [3.7] 12.2 [3.7] 12.2 [3.7] 12.2 [3.7] 12.2 [3.7]
261 [118.5] 261 [118.5] 261 [118.5] 261 [118.5] 344 [156.2] 344 [156.2] 344 [156.2] 344 [156.2] 344 [156.2] 344 [156.2] 412 [187.0] 412 [187.0] 412 [187.0] 412 [187.0] 412 [187.0] 412 [187.0] 412 [187.0] 412 [187.0] 485 [220.2] 485 [220.2] 485 [220.2] 485 [220.2] 485 [220.2] 485 [220.2] 485 [220.2] 485 [220.2] 485 [220.2] 485 [220.2] 559 [253.8] 559 [253.8] 559 [253.8] 559 [253.8] 559 [253.8] 559 [253.8]
2004080 2004554 2004081 2004555 2004082 2004556 2000858 2004557 2004083 2004558 2004084 2004561 2004085 2004562 2000859 2004559 2000860 2004560 2004087 2004566 2003683 2004563 2004088 2004567 2004086 2004564 2000861 2004565 2004089 2004570 2000862 2004568 2000863 2004569
2004259 2004651 2004260 2004652 2004261 2004653 2004262 2004654 2004263 2004655 2004266 2004658 2004267 2004659 2004264 2004656 2004265 2004657 2004271 2004663 2004268 2004660 2004272 2004664 2004269 2004661 2004270 2004662 2004275 2004667 2004273 2004665 2004274 2004666
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
456 Dominator Motors
Return to Motors
456 Dominator* Motors—RX Type (continued) Frequency, 60 Hz Power Rating, hp
Voltage, V
Frequency, 50 Hz Power Rating, hp
968
55.5
1,043
43.0
1,394
1,162
38.5
2,102
1,752
25.5
945
788
65.0
1,192
43.0
2,402
2,002
25.5
881
734
78.5
1,189
48.5
2,520
2,100
27.5
1,181
984
65.0
1,322
48.5
2,194
1,828
35.0
2,598
2,165
29.5
1,076
897
78.5
1,299
1,083
65.0
2,413
2,011
35.0
2,635
2,196
32.0
1,252
108
Current, A
807
84
96
Voltage, V
70
1,430
1,427
80
90
1,586 120
100
132
110
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
S UT S UT S UT S UT S UT S UT S UT S UT LT S UT LT S UT S UT LT S UT LT S UT LT S UT S UT LT S UT LT S UT S UT
13.8 [4.2] 13.8 [4.2] 13.8 [4.2] 13.8 [4.2] 13.8 [4.2] 13.8 [4.2] 13.8 [4.2] 13.8 [4.2] 15.4 [4.7] 15.4 [4.7] 15.4 [4.7] 15.4 [4.7] 15.4 [4.7] 15.4 [4.7] 17.0 [5.2] 17.0 [5.2] 17.0 [5.2] 17.0 [5.2] 17.0 [5.2] 17.0 [5.2] 17.0 [5.2] 17.0 [5.2] 18.6 [5.7] 18.6 [5.7] 18.6 [5.7] 18.6 [5.7] 18.6 [5.7] 18.6 [5.7] 18.6 [5.7] 18.6 [5.7] 18.6 [5.7] 18.6 [5.7] 18.6 [5.7] 20.2 [6.2] 20.2 [6.2] 20.2 [6.2] 20.2 [6.2] 20.2 [6.2] 20.2 [6.2] 20.2 [6.2] 20.2 [6.2] 20.2 [6.2] 20.2 [6.2]
632 [286.9] 632 [286.9] 632 [286.9] 632 [286.9] 632 [286.9] 632 [286.9] 632 [286.9] 632 [286.9] 705 [320.1] 705 [320.1] 705 [320.1] 705 [320.1] 705 [320.1] 705 [320.1] 779 [353.7] 779 [353.7] 779 [353.7] 779 [353.7] 779 [353.7] 779 [353.7] 779 [353.7] 779 [353.7] 852 [386.8] 852 [386.8] 852 [386.8] 852 [386.8] 852 [386.8] 852 [386.8] 852 [386.8] 852 [386.8] 852 [386.8] 852 [386.8] 852 [386.8] 925 [420.0] 925 [420.0] 925 [420.0] 925 [420.0] 925 [420.0] 925 [420.0] 925 [420.0] 925 [420.0] 925 [420.0] 925 [420.0]
2004090 2004571 2004091 2004574 2000864 2004572 2000865 2004573 2004092 2004575 2000866 2004576 2000867 2004577 2000868 2000822 2000829 2000869 2004578 2000830 2000870 2004579 2000871 2000823 2000831 2004093 2000824 2000832 2004094 2004581 2004767 2000872 2004580 2004095 2003181 2003524 2004096 2004582 2004768 2004097 2004584 2000873 2004583
2004276 2004668 2004279 2004671 2004277 2004669 2004278 2004670 2004280 2004672 2004281 2004673 2004282 2004674 2004283 2004675 2004793 2004284 2004676 2004794 2004285 2004677 2004286 2004678 2004795 2004287 2004679 2004796 2004289 2004681 2004797 2004288 2004680 2004290 2004682 2004798 2004291 2004683 2004799 2004293 2004685 2004292 2004684
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Motors
456 Dominator* Motors—RX Type (continued) Frequency, 60 Hz Power Rating, hp
Voltage, V
Frequency, 50 Hz Power Rating, hp
Current, A
931
776
99.0
1,174
978
78.5
2,145
1,788
43.0
2,389
1,991
38.5
2,631
2,193
35.0
1,272
1,060
78.5
1,279
65.0
2,157
38.5
905
99.0
2,086
43.0
2,235
43.0
1,575
65.0
2,537
2,114
48.5
2,008
1,673
65.0
2,246
48.5
144
120
156
1,535
130
2,588
1,086 168
140 2,503
180
2,682
150
1,890 192
160
204
170 2,695
Motors
Voltage, V
■
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
S UT LT S UT LT S UT LT S UT S UT S UT LT S UT LT S UT S UT LT S UT S UT S UT LT S UT S UT S UT LT
21.8 [6.6] 21.8 [6.6] 21.8 [6.6] 21.8 [6.6] 21.8 [6.6] 21.8 [6.6] 21.8 [6.6] 21.8 [6.6] 21.8 [6.6] 21.8 [6.6] 21.8 [6.6] 21.8 [6.6] 21.8 [6.6] 23.4 [7.1] 23.4 [7.1] 23.4 [7.1] 23.4 [7.1] 23.4 [7.1] 23.4 [7.1] 23.4 [7.1] 23.4 [7.1] 25.0 [7.6] 25.0 [7.6] 25.0 [7.6] 25.0 [7.6] 25.0 [7.6] 26.6 [8.1] 26.6 [8.1] 28.2 [8.6] 28.2 [8.6] 28.2 [8.6] 28.2 [8.6] 28.2 [8.6] 29.9 [9.1] 29.9 [9.1] 29.9 [9.1] 29.9 [9.1] 29.9 [9.1]
998 [453.1] 998 [453.1] 998 [453.1] 998 [453.1] 998 [453.1] 998 [453.1] 998 [453.1] 998 [453.1] 998 [453.1] 998 [453.1] 998 [453.1] 998 [453.1] 998 [453.1] 1,072 [486.7] 1,072 [486.7] 1,072 [486.7] 1,072 [486.7] 1,072 [486.7] 1,072 [486.7] 1,072 [486.7] 1,072 [486.7] 1,145 [519.8] 1,145 [519.8] 1,145 [519.8] 1,145 [519.8] 1,145 [519.8] 1,218 [553.0] 1,218 [553.0] 1,292 [586.6] 1,292 [586.6] 1,292 [586.6] 1,292 [586.6] 1,292 [586.6] 1,369 [621.5] 1,369 [621.5] 1,369 [621.5] 1,369 [621.5] 1,369 [621.5]
2004098 2004585 2004769 2004099 2000825 2000833 2004100 2004587 2004770 2004101 2004588 2000874 2004586 2000875 2004589 2004771 2004103 2000826 2000834 2000876 2004590 2004104 2000827 2000835 2004105 2004591 2004106 2004592 2003684 2003685 2003686 2003687 2004593 2004108 2004595 2004107 2004594 2004772
2004294 2004686 2004800 2004295 2004687 2004801 2004297 2004689 2004802 2004298 2004690 2004296 2004688 2004299 2004691 2004803 2004300 2004692 2004804 2004301 2004693 2004302 2004694 2004805 2004303 2004695 2004304 2004696 2004305 2004697 2004806 2004306 2004698 2004308 2004700 2004307 2004699 2004807
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
456 Dominator Motors
Return to Motors
456 Dominator* Motors—RX Type (continued) Frequency, 60 Hz Power Rating, hp
Voltage, V
Frequency, 50 Hz Power Rating, hp
Voltage, V
Current, A
1,164
99.0
1,468
78.5
2,125
1,771
65.0
2,490
2,075
55.5
1,397
1,762 216
180
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
S UT LT S UT LT S UT LT S UT
31.5 [9.6] 31.5 [9.6] 31.5 [9.6] 31.5 [9.6] 31.5 [9.6] 31.5 [9.6] 31.5 [9.6] 31.5 [9.6] 31.5 [9.6] 31.5 [9.6] 31.5 [9.6]
1,443 [655.1] 1,443 [655.1] 1,443 [655.1] 1,443 [655.1] 1,443 [655.1] 1,443 [655.1] 1,443 [655.1] 1,443 [655.1] 1,443 [655.1] 1,443 [655.1] 1,443 [655.1]
2000877 2000828 2000836 2003691 2003692 2003693 2003688 2003689 2003690 2004109 2004596
2004309 2004701 2004808 2004312 2004704 2004810 2004311 2004703 2004809 2004310 2004702
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Motors
456 Dominator Motors 456 Dominator* Motors—RK Type Frequency, 60 Hz Power Rating, hp
439 682 415 780 901 472 877 1,039 1,363 995 1,097 1,198 1,400 951 1,437 2,288 968 1,394 2,102 945 1,430 2,402 881 1,427 2,520 1,181 1,586 2,194 2,598 1,076 1,299 2,413 2,635 931 1,174 2,145 2,389 2,631 1,272 1,535 2,588
24
36
48
60
72
84
96
108
120
132
144
156 † to
Voltage, V
Frequency, 50 Hz Power Rating, hp 20
30
40
50
60
70
80
90
100
110
120
130
Voltage, V
Current, A
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
366 568 346 650 751 393 731 866 1,136 829 914 998 1,167 793 1,198 1,907 807 1,162 1,752 788 1,192 2,002 734 1,189 2,100 984 1,322 1,828 2,165 897 1,083 2,011 2,196 776 978 1,788 1,991 2,193 1,060 1,279 2,157
35.0 22.5 55.5 29.5 25.5 65.0 35.0 29.5 22.5 38.5 35.0 32.0 27.5 48.6 32.0 20.2 55.5 38.5 25.5 65.0 43.0 25.5 78.5 48.5 27.5 65.0 48.5 35.0 29.5 78.5 65.0 35.0 32.0 99.0 78.5 43.0 38.5 35.0 78.5 65.0 38.5
UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT UT
5.7 [1.7] 5.7 [1.7] 7.4 [2.3] 7.4 [2.3] 7.4 [2.3] 9.0 [2.7] 9.0 [2.7] 9.0 [2.7] 9.0 [2.7] 10.6 [3.2] 10.6 [3.2] 10.6 [3.2] 10.6 [3.2] 12.2 [3.7] 12.2 [3.7] 12.2 [3.7] 13.8 [4.2] 13.8 [4.2] 13.8 [4.2] 15.4 [4.7] 15.4 [4.7] 15.4 [4.7] 17.0 [5.2] 17.0 [5.2] 17.0 [5.2] 18.6 [5.7] 18.6 [5.7] 18.6 [5.7] 18.6 [5.7] 20.2 [6.2] 20.2 [6.2] 20.2 [6.2] 20.2 [6.2] 21.8 [6.6] 21.8 [6.6] 21.8 [6.6] 21.8 [6.6] 21.8 [6.6] 23.4 [7.1] 23.4 [7.1] 23.4 [7.1]
261 [118.5] 261 [118.5] 344 [156.2] 339 [153.9] 339 [153.9] 412 [187.0] 412 [187.0] 412 [187.0] 412 [187.0] 485 [220.2] 485 [220.2] 485 [220.2] 485 [220.2] 559 [253.8] 559 [253.8] 559 [253.8] 632 [286.9] 632 [286.9] 632 [286.9] 705 [320.1] 705 [320.1] 705 [320.1] 779 [353.7] 779 [353.7] 779 [353.7] 852 [386.8] 852 [386.8] 852 [386.8] 852 [386.8] 925 [420.0] 925 [420.0] 925 [420.0] 925 [420.0] 998 [453.1] 998 [453.1] 998 [453.1] 998 [453.1] 998 [453.1] 1,072 [486.7] 1,072 [486.7] 1,072 [486.7]
100038137 100038140 100038151 100038154 100038156 100038190 100038197 100038165 100038168 100038202 100038443 100038343 100038346 100038485 100038453 tba† 100038497 100038500 100038504 100038536 100038545 100038547 100038549 100038565 100038572 100037295 100037299 100037463 100037304 100037467 100037469 100037476 100037473 100037479 2011691 100037495 100037497 100037484 100037503 100037505 100037550
100040321 100040323 100040325 100040326 100040328 100040334 100040338 100040329 100040331 100040341 100041362 100040368 100040369 100041365 100041363 100041364 tba 100041438 100041441 100041448 100041451 100041454 100041462 100041600 100041602 100041604 100041613 100041687 100041616 100041688 100041689 100041693 100041691 100041695 100042749 100041710 100041711 100041706 100041716 100041725 100041726
be assigned
Motors
■
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
456 Dominator Motors
Return to Motors
456 Dominator* Motors—RK Type (continued) Frequency, 60 Hz Power Rating, hp 168 180 192 204
216
Voltage, V 1,086 2,503 2,682 1,890 2,537 2,008 2,695 1,397 1,762 2,125 2,490
Frequency, 50 Hz Power Rating, hp 140 150 160 170
180
Voltage, V
Current, A
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
905 2,086 2,235 1,575 2,114 1,673 2,246 1,164 1,468 1,771 2,075
99.0 43.0 43.0 65.0 48.5 65.0 48.5 99.0 78.5 65.0 55.5
UT UT UT UT UT UT UT UT UT UT UT
25.0 [7.6] 25.0 [7.6] 26.6 [8.1] 28.2 [8.6] 28.2 [8.6] 29.9 [9.1] 29.9 [9.1] 31.5 [9.6] 31.5 [9.6] 31.5 [9.6] 31.5 [9.6]
1,145 [519.8] 1,145 [519.8] 1,218 [553.0] 1,292 [586.6] 1,292 [586.6] 1,369 [621.5] 1,369 [621.5] 1,443 [655.1] 1,443 [655.1] 1,443 [655.1] 1,443 [655.1]
100037553 100037593 100037607 100037611 100037616 100037628 100037626 100037630 100037642 100037637 100037633
100041727 100042209 100042210 100042213 100042215 100042225 100042217 100042228 100042232 100042230 100042229
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Motors
456 Dominator Motors 456 Dominator* Motors—RX Type with Integral Phoenix* Sensor Adapter Frequency, 60 Hz Power Rating, hp 24
Voltage, V
Voltage, V
Current, A
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
568 346 650 751 393 731 866 1,136 745 829 914 998 1,167 793 1,198 1,907 807 1,043 1,162 1,752 788 1,192 2,002
22.6 55.7 29.6 25.6 65.2 35.1 29.6 22.6 43.1 38.7 35.1 32.1 27.5 48.6 32.1 20.2 55.7 43.0 38.7 25.6 65.2 43.1 25.6
734
78.7
1,189
48.6
2,520
2,100
27.5
1,181
984
65.2
1,322
48.5
2,194 2,598
1,828 2,165
35.1 29.6
1,076
897
78.7
1,083
65.2
2,011 2,196
35.1 32.1
S S S S S S S S S S S S S S S S S S S S S S S S LT S LT S S LT S LT S S S LT S LT S S
6.0 [1.8] 7.6 [2.3] 7.6 [2.3] 7.6 [2.3] 9.2 [2.8] 9.2 [2.8] 9.2 [2.8] 9.2 [2.8] 10.8 [3.3] 10.8 [3.3] 10.8 [3.3] 10.8 [3.3] 10.8 [3.3] 12.4 [3.8] 12.4 [3.8] 12.4 [3.8] 14.1 [4.3] 14.1 [4.3] 14.1 [4.3] 14.1 [4.3] 15.7 [4.8] 15.6 [4.8] 15.7 [4.8] 17.3 [5.3] 17.2 [5.2] 17.3 [5.3] 17.2 [5.2] 17.3 [5.3] 18.9 [5.8] 18.7 [5.7] 18.9 [5.8] 18.8 [5.7] 18.9 [5.8] 18.9 [5.8] 20.5 [6.3] 20.4 [6.2] 20.5 [6.3] 20.4 [6.2] 20.5 [6.3] 20.5 [6.3]
289 [131.2] 362 [164.3] 362 [164.3] 362 [164.3] 431 [195.7] 431 [195.7] 431 [195.7] 431 [195.7] 509 [231.1] 509 [231.1] 509 [231.1] 509 [231.1] 509 [231.1] 582 [264.2] 582 [264.2] 582 [264.2] 656 [297.8] 656 [297.8] 656 [297.8] 656 [297.8] 729 [331.0] 729 [331.0] 729 [331.0] 803 [364.6] 798 [362.3] 803 [364.6] 798 [362.3] 803 [364.6] 876 [397.7] 871 [395.4] 876 [397.7] 871 [395.4] 876 [397.7] 876 [397.7] 949 [430.8] 945 [429.0] 949 [430.8] 945 [429.0] 949 [430.8] 949 [430.8]
100009947 100010023 100010025 100010027 100010052 100010056 100010032 100010045 100010573 100010061 100010574 100010528 100010533 100010586 100010577 100010579 100010589 100010596 2013330 100010594 100010599 2013331 100010605 100010613 100018375 100010619 100018377 100010625 100010671 2013324 2013333 100018418 100010678 100010676 100010682 2013325 2013332 100018421 100010825 100010694
100012134 100012135 100012136 100012139 100012149 100012150 100012143 100012144 100012165 100012152 100012167 100012155 100012156 100012176 100012170 100012173 100012177 100012181 100012178 100012180 100012182 100012183 100012184 100012186 100018725 100012190 100018727 100012191 100012704 100018750 100018804 100012706 100012710 100012707 100012713 100018816 100012714 100018823 100012719 100012715
682 415 780 901 472 877 1,039 1,363 894 995 1,097 1,198 1,400 951 1,437 2,288 968 1,252 1,394 2,102 945 1,430 2,402
36
48
60
72
84
96
Frequency, 50 Hz Power Rating, hp 20 30
40
50
60
70
80
881 108
1,427
120
1,586
132
1,299
90
100
110
2,413 2,635
Motors
■
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
456 Dominator Motors
Return to Motors
456 Dominator* Motors—RX Type with Integral Phoenix* Sensor Adapter (continued) Frequency, 60 Hz Power Rating, hp
Voltage, V
Frequency, 50 Hz Power Rating, hp
931
99.2
978
78.7
2,145
1,788
43.1
2,389 2,631
1,991 2,193
38.7 35.1
1,272
1,060
78.7
1,279
65.2
2,157
38.7
905
99.3
2,086 2,235
43.1 43.1
1,575
65.2
2,114
48.6
1,673
65.2
2,695
2,246
48.6
1,397
1,164
99.2
1,468
78.7
2,125
1,771
65.2
2,490
2,075
55.7
1,174 120
1,535
130
2,588 168 180 192
1,086 2,503 2,682 1,890
140 150 160
2,537 204
216
Current, A
776
144
156
Voltage, V
2,008
1,762
170
180
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
S LT S LT S LT S S S LT S LT S S LT S S S LT S S LT S S LT S LT S LT S
22.1 [6.7] 22.1 [6.7] 22.1 [6.7] 22.1 [6.7] 22.1 [6.7] 22.1 [6.7] 22.1 [6.7] 22.1 [6.7] 23.7 [7.2] 23.6 [7.2] 23.7 [7.2] 23.6 [7.2] 23.7 [7.2] 25.3 [7.2] 25.2 [7.7] 25.3 [7.7] 26.9 [8.2] 28.5 [8.7] 28.4 [8.7] 28.5 [8.7] 30.1 [9.2] 30.1 [9.2] 30.1 [9.2] 31.6 [9.6] 31.6 [9.6] 31.7 [9.7] 31.6 [9.6] 31.7 [9.7] 31.6 [9.6] 31.7 [9.7]
1,023 [464.4] 1,018 [462.2] 1,023 [464.4] 1,018 [462.2] 1,023 [464.4] 1,018 [462.2] 1,023 [464.4] 1,023 [464.4] 1,101 [499.9] 1,092 [495.8] 1,101 [499.9} 1,092 [495.8] 1,101 [499.9] 1,174 [533.0] 1,165 [528.9] 1,174 [533.0] 1,247 [566.1] 1,321 [599.7] 1,316 [597.5] 1,321 [599.7] 1,394 [632.9] 1,390 [631.1] 1,394 [632.9] 1,463 [664.2] 1,468 [666.5] 1,468 [666.5] 1,463 [664.2] 1,468 [666.5] 1,463 [664.2] 1,468 [666.5]
100010826 100018423 100010828 100018428 100010836 100018433 100010838 100010834 100010843 2013326 100010851 100018445 100010883 100010914 2013327 2013334 2013335 100010917 2013328 2013336 100010973 100018447 100010966 100010975 100018450 100010988 2013329 2013337 100018451 100010982
100012720 100018831 100012728 100018853 100012730 100018857 100012733 100012729 100012736 100018866 100012739 100018869 100012742 100012743 100018877 100012745 100012751 100012755 100018879 100012774 100012777 100018880 100012776 100012779 100018881 100012784 100018887 100018884 100012783 100012781
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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456 Dominator Motors 456 Dominator* Motors—RK Type with Integral Phoenix* Sensor Adapter Frequency, 60 Hz Power Rating, hp 24
Voltage, V
Voltage, V
Current, A
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
568 346 650 751 393 731 866 1,136 745 829 914 998 1,167 793 1,198 1,907 807 1,043 1,162 1,752 788 1,192 2,002
22.6 55.7 29.6 25.6 65.2 35.1 29.6 22.6 43.1 38.7 35.1 32.1 27.5 48.6 32.1 20.2 55.7 43.0 38.7 25.6 65.2 43.1 25.6
734
78.7
1,189
48.6
2,520
2,100
27.5
1,181
984
65.2
1,322
48.5
2,194 2,598
1,828 2,165
35.1 29.6
1,076
897
78.7
1,083
65.2
2,011 2,196
35.1 32.1
S S S S S S S S S S S S S S S S S S S S S S S S LT S LT S S LT S LT S S S LT S LT S S
6.0 [1.8] 7.6 [2.3] 7.6 [2.3] 7.6 [2.3] 9.2 [2.8] 9.2 [2.8] 9.2 [2.8] 9.2 [2.8] 10.8 [3.3] 10.8 [3.3] 10.8 [3.3] 10.8 [3.3] 10.8 [3.3] 12.4 [3.8] 12.4 [3.8] 12.4 [3.8] 14.1 [4.3] 14.1 [4.3] 14.1 [4.3] 14.1 [4.3] 15.7 [4.8] 15.7 [4.8] 15.7 [4.8] 17.3 [5.3] 17.2 [5.2] 17.3 [5.3] 17.2 [5.2] 17.3 [5.3] 18.9 [5.8] 18.8 [5.7] 18.9 [5.8] 18.8 [5.7] 18.9 [5.8] 18.9 [5.8] 20.5 [6.3] 20.4 [6.2] 20.5 [6.3] 20.4 [6.2] 20.5 [6.3] 20.5 [6.3]
289 [131.2] 362 [164.3] 362 [164.3] 362 [164.3] 431 [195.7] 431 [195.7] 431 [195.7] 431 [195.7] 509 [231.1] 509 [231.1] 509 [231.1] 509 [231.1] 509 [231.1] 582 [264.2] 582 [264.2] 582 [264.2] 656 [297.8] 656 [297.8] 656 [297.8] 656 [297.8] 729 [331.0] 729 [331.0] 729 [331.0] 803 [364.6] 798 [362.3] 803 [364.6] 798 [362.3] 803 [364.6] 876 [397.7] 871 [395.4] 876 [397.7] 871 [395.4] 876 [397.7] 876 [397.7] 949 [430.8] 945 [429.0] 949 [430.8] 945 [429.0] 949 [430.8] 949 [430.8]
100024980 100024982 100024984 100024989 100025001 100025003 100024993 100024997 100025012 100025004 100025015 100025006 100025007 100025029 100025021 100025027 100025032 100025119 100025117 100025118 100025122 100025129 100025132 100025153 100019749 100025155 100019751 100025157 100029518 100019752 100029519 100019753 100029524 100029521 100029526 100019757 100029527 100019758 100029535 100029528
100026903 100026904 100026908 100026911 100026961 100026963 100026948 100026960 100026972 100026965 100026985 100026967 100026969 100026996 100026989 100026993 100027003 100027481 100027006 100027023 100027482 100027483 100027486 100027487 100022129 100027489 100022131 100027490 100032730 100022133 100032829 100022134 100032833 100032832 100032836 100022137 100032841 100022160 100032854 100032850
682 415 780 901 472 877 1,039 1,363 894 995 1,097 1,198 1,400 951 1,437 2,288 968 1,252 1,394 2,102 945 1,430 2,402
36
48
60
72
84
96
Frequency, 50 Hz Power Rating, hp 20 30
40
50
60
70
80
881 108
1,427
120
1,586
132
1,299
90
100
110
2,413 2,635
Motors
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© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
456 Dominator Motors
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456 Dominator* Motors—RK Type with Integral Phoenix* Sensor Adapter (continued) Frequency, 60 Hz Power Rating, hp
Voltage, V
Frequency, 50 Hz Power Rating, hp
931
99.2
978
78.7
2,145
1,788
43.1
2,389 2,631
1,991 2,193
38.7 35.1
1,272
1,060
78.7
1,279
65.2
2,157
38.7
905
99.3
2,086 2,235
43.1 43.1
1,575
65.2
2,114
48.6
1,673
65.2
2,695
2,246
48.6
1,397
1,164
99.2
1,468
78.7
2,125
1,771
65.2
2,490
2,075
55.7
1,174 120
1,535
130
2,588 168 180 192
1,086 2,503 2,682 1,890
140 150 160
2,537 204
216
Current, A
776
144
156
Voltage, V
2,008
1,762
170
180
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
S LT S LT S LT S S S LT S LT S S LT S S S LT S S LT S S LT S LT S LT S
22.1 [6.7] 22.1 [6.7] 22.1 [6.7] 22.1 [6.7] 22.1 [6.7] 22.1 [6.7] 22.1 [6.7] 22.1 [6.7] 23.7 [7.2] 23.6 [7.2] 23.7 [7.2] 23.6 [7.2] 23.7 [7.2] 25.3 [7.7] 25.2 [7.7] 25.3 [7.7] 26.9 [8.2] 28.5 [8.7] 28.4 [8.7] 28.5 [8.7] 30.1 [9.2] 30.1 [9.2] 30.1 [9.2] 31.7 [9.7] 31.6 [9.6] 31.7 [9.7] 31.6 [9.6] 31.7 [9.7] 31.6 [9.6] 31.7 [9.7]
1,023 [464.4] 1,018 [462.2] 1,023 [464.4] 1,018 [462.2] 1,023 [464.4] 1,018 [462.2] 1,023 [464.4] 1,023 [464.4] 1,101 [499.9] 1,092 [495.8] 1,101 [499.9] 1,092 [495.8] 1,101 [499.9] 1,174 [533.0] 1,165 [528.9] 1,174 [533.0] 1,247 [566.1] 1,321 [599.7] 1,316 [597.5] 1,321 [599.7] 1,394 [632.9] 1,390 [632.9] 1,394 [632.9] 1,468 [666.5] 1,463 [664.2] 1,468 [666.5] 1463 [664.2] 1,468 [666.5] 1,463 [664.2] 1,468 [666.5]
100029538 100019760 100029540 100019762 100031565 100019764 100031569 100029542 100031573 100019765 100031583 100019767 100031589 100031597 100019768 100031600 100031604 100031609 100019769 100031614 100031618 100019771 100031617 100031657 100019772 100031680 100019775 100031674 100019774 100031662
100032858 100022162 100032859 100022164 100032864 100022167 100032872 100032862 100032874 100022169 100032878 100022170 100032879 100032881 100022171 100032884 100032886 100032889 100022172 100032891 100032894 100022174 100032893 100032895 100022176 100032902 100022179 100032900 100022178 100032898
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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540 Series Motors 540 Series Motors—DK Type Frequency, 60 Hz Power Rating, hp 25
Voltage, V
516
Frequency, 50 Hz Power Rating, hp 21
Current, A
430
30.5
427
46.0
1,430
1,191
16.5
509
424
61.8
860
30.4
1,557
1,297
20.2
527
439
74.6
712
46.0
1,073
894
36.6
1,510
1,258
26.0
764
636
61.7
855
46.0
1,157
964
40.5
1,288
1,073
36.6
891
742
61.7
997
46.0
1,251
36.6
513 38
31
50
1,033
42
855 63
52
1,026 75
63
88
1,197
73
1,502 † to
Voltage, V
Type
Length, ft [m]
S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT
4.8 [1.5] 4.8 [1.5] 6.1 [1.9] 6.2 [1.9] 6.1 [1.9] 6.2 [1.9] 7.5 [2.3] 7.5 [2.3] 7.5 [2.3] 7.5 [2.3] 7.5 [2.3] 7.5 [2.3] 8.9 [2.7] 8.9 [2.7] 8.9 [2.7] 8.9 [2.7] 8.9 [2.7] 8.9 [2.7] 8.9 [2.7] 8.9 [2.7] 10.2 [3.1] 10.3 [3.1] 10.2 [3.1] 10.3 [3.1] 10.2 [3.1] 10.3 [3.1] 10.2 [3.1] 10.3 [3.1] 11.6 [3.5] 11.6 [3.5] 11.6 [3.5] 11.6 [3.5] 11.6 [3.5] 11.6 [3.5]
Weight, lbm [kg] 298 [135.3] 379 [172.1] 379 [172.1] 466 [211.6] 466 [211.6] 443 [201.1] 553 [251.1] 553 [251.1] 553 [251.1] 553 [251.1] 640 [290.6] 640 [290.6] 640 [290.6] 640 [290.6] 721 [327.3] 721 [327.3] 721 [327.3]
Carbon Steel Part Number
Redalloy* Alloy Part Number
2011740 tba 2011939 tba 2011940 2011927 2011941 tba tba 2011741 2011707 2011928 2011942 tba 2011943 2011929 2011944 2011930 2011709 2011742 2011945 2011931 tba 2011743 tba 2011930 2011946 2011932 2011947 tba tba 2011933 2011948 tba
tba† tba tba tba tba tba tba tba tba tba tba tba 2011956 tba tba tba tba tba tba tba tba tba tba tba tba tba 2011758 tba tba tba tba tba tba 2011922
be assigned
Motors
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© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Revised 1/2007
540 Series Motors
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540 Series Motors—DK Type (continued) Frequency, 60 Hz Power Rating, hp
Voltage, V
Frequency, 50 Hz Power Rating, hp
844
74.5
848
61.8
1,368
1,140
46.0
2,590
2,157
24.3
1,491
1,242
52.7
1,424
46.0
2,583
2,152
30.4
1,004
836
93.9
1,055
74.5
2,145
36.6
2,324
36.6
975
94.0
1,230
74.5
1,993
46.0
1,115
93.9
1,998
52.7
1,018
150
83
1,710
1,266
104
125
2,575
163
2,790
135
1,171
175
1,477
146
2,393
1,339 200
167 2,386
† to
Current, A
703
100
125
Voltage, V
Type
Length, ft [m]
S UT S UT S UT S UT S UT S UT S UT S UT CT S UT CT S UT CT S UT S UT CT S UT CT S UT S UT CT S UT
13.0 [4.0] 13.1 [4.0] 13.0 [4.0] 13.1 [4.0] 13.0 [4.0] 13.1 [4.0] 13.0 [4.0] 13.1 [4.0] 15.7 [4.8] 15.8 [4.8] 15.7 [4.8] 15.8 [4.8] 15.7 [4.8] 15.8 [4.8] 19.4 [5.9] 18.7 [5.7] 18.9 [5.8] 19.4 [5.9] 18.7 [5.7] 18.9 [5.8] 19.4 [5.9] 18.7 [5.7] 18.9 [5.8] 20.0 [6.1] 20.0 [6.1] 22.2 [6.8] 21.2 [6.5] 21.5 [6.6] 22.2 [6.8] 21.2 [6.5] 21.5 [6.6] 22.2 [6.8] 21.2 [6.5] 24.9 [7.6] 24.1 [7.4] 24.3 [7.4] 24.9 [7.6] 24.1 [7.4]
Weight, lbm [kg] 808 [366.8] 808 [366.8] 808 [366.8] 808 [366.8] 976 [443.1] 976 [443.1] 976 [443.1]
1,169 [530.7]
1,169 [530.7]
1,194 [542.1]
1,243 [564.3]
1,336 [606.5]
1,336 [606.5]
1,380 [626.5]
1,492 [677.4]
1,498 [680.1]
Carbon Steel Part Number
Redalloy* Alloy Part Number
2011949 tba tba 2011745 2011950 tba 2011710 2011746 2011951 2011934 tba tba 2011711 2011747 tba 2011748 tba tba 2011749 2011831 2012047 2011751 2011887 tba tba tba tba 2011888 tba 2011752 2011832 2012048 2011935 tba 2011753 2011835 2012049 2011936
tba† tba tba tba tba 2011713 2011723 tba tba tba tba 2011921 tba 2011923 tba tba tba tba 2011714 2011827 1060409 2011916 tba tba 2011890 tba tba tba tba 2011715 2011823 2012045 2011716 tba 2011718 2011821 tba 2011768
be assigned
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Motors
540 Series Motors—DK Type (continued) Frequency, 60 Hz Power Rating, hp
Voltage, V
Frequency, 50 Hz Power Rating, hp
1,113
250
127.1
1,254
93.9
2,292
1,909
61.7
2,685
2,237
52.7
1,237
1,030
127.1
1,394
94.0
2,122
61.7
1,673
188
208
2,547 † to
Current, A
927
1,506
225
Voltage, V
Type
Length, ft [m]
S UT CT S UT CT S UT S UT S UT CT S UT CT S UT CT
27.6 [8.4] 26.7 [8.1] 27.1 [8.3] 27.6 [8.4] 26.7 [8.1] 27.0 [8.2] 27.6 [8.4] 26.7 [8.1] 27.6 [8.4] 26.7 [8.1] 30.4 [8.3] 29.5 [9.0] 29.7 [9.1] 30.4 [9.3] 29.5 [9.0] 29.7 [9.1] 30.4 [9.3] 29.5 [9.0] 29.7 [9.1]
Weight, lbm [kg] 1,672 [759.1]
1,672 [759.1]
1,654 [750.9] 1,716 [779.1]
1,890 [858.1]
1,846 [838.1]
1,840 [835.4]
Carbon Steel Part Number
Redalloy* Alloy Part Number
tba† 2011937 tba tba 2011754 2011837 2011981 2011926 2012050 2011755 tba 2011756 2011889 tba 2011925 2011883 2012055 2011757 2011884
tba tba tba tba 2011719 2011820 tba tba 2012044 2011720 tba 2011721 2011773 tba tba tba 2012046 2011728 tba
be assigned
Motors
■
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Revised 1/2007
540 Series Motors
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540 Series Motors 540 Series Motors—DX Type Frequency, 60 Hz Power Rating, hp 25
Voltage, V
516
Frequency, 50 Hz Power Rating, hp 21
Current, A
430
30.5
427
46.0
1,430
1,191
16.5
509
424
61.8
860
30.4
1,557
1,297
20.2
527
439
74.6
712
46.0
1,073
894
36.6
1,510
1,258
26.0
764
636
61.7
855
46.0
1,157
964
40.5
1,288
1,073
36.6
891
742
61.7
997
46.0
1,251
36.6
513 38
31
50
1,033
42
855 63
52
1,026 75
63
88
1,197
73
1,502 † to
Voltage, V
Type
Length, ft [m]
S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT S UT
4.8 [1.5] 4.8 [1.5] 6.1 [1.9] 6.2 [1.9] 6.1 [1.9] 6.2 [1.9] 7.5 [2.3] 7.5 [2.3] 7.5 [2.3] 7.5 [2.3] 7.5 [2.3] 7.5 [2.3] 8.9 [2.7] 8.9 [2.7] 8.9 [2.7] 8.9 [2.7] 8.9 [2.7] 8.9 [2.7] 8.9 [2.7] 8.9 [2.7] 10.2 [3.1] 10.3 [3.1] 10.2 [3.1] 10.3 [3.1] 10.2 [3.1] 10.3 [3.1] 10.2 [3.1] 10.3 [3.1] 11.6 [3.5] 11.6 [3.5] 11.6 [3.5] 11.6 [3.5] 11.6 [3.5] 11.6 [3.5]
Weight, lbm [kg] 298 [135.3] 379 [172.1] 379 [172.1] 466 [211.6] 466 [211.6] 443 [201.1] 553 [251.1] 553 [251.1] 553 [251.1] 553 [251.1] 640 [290.6] 640 [290.6] 640 [290.6] 640 [290.6] 721 [327.3] 721 [327.3] 721 [327.3]
Carbon Steel Part Number
Redalloy* Alloy Part Number
tba† tba tba tba tba tba tba tba tba 100033719 tba tba tba tba tba tba tba tba tba tba tba tba tba 100033718 tba tba tba tba tba tba tba tba tba tba
tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba
be assigned
Motors
■
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
540 Series Motors
Return to Motors
540 Series Motors—DX Type (continued) Frequency, 60 Hz Power Rating, hp
Voltage, V
Frequency, 50 Hz Power Rating, hp
844
74.5
848
61.8
1,368
1,140
46.0
2,590
2,157
24.3
1,491
1,242
52.7
1,424
46.0
2,583
2,152
30.4
1,004
836
93.9
1,055
74.5
2,145
36.6
2,324
36.6
975
94.0
1,230
74.5
1,993
46.0
1,115
93.9
1,998
52.7
1,018
150
83
1,710
1,266
104
125
2,575
163
2,790
135
1,171
175
1,477
146
2,393
1,339 200
167 2,386
† to
Current, A
703
100
125
Voltage, V
Type
Length, ft [m]
S UT S UT S UT S UT S UT S UT S UT S UT CT S UT CT S UT CT S UT S UT CT S UT CT S UT S UT CT S UT
13.1 [4.0] 13.1 [4.0] 13.1 [4.0] 13.1 [4.0] 13.1 [4.0] 13.1 [4.0] 13.1 [4.0] 13.1 [4.0] 15.7 [4.8] 15.8 [4.8] 15.7 [4.8] 15.8 [4.8] 15.7 [4.8] 15.8 [4.8] 19.4 [5.9] 18.7 [5.7] 18.9 [5.8] 19.4 [5.9] 18.7 [5.7] 18.9 [5.8] 19.4 [5.9] 18.7 [5.7] 18.9 [5.8] 20.0 [6.1] 20.0 [6.1] 22.2 [6.8] 21.2 [6.5] 21.5 [6.6] 22.2 [6.8] 21.2 [6.5] 21.5 [6.6] 22.2 [6.8] 21.2 [6.5] 24.9 [7.6] 24.1 [7.4] 24.3 [7.4] 24.9 [7.6] 24.1 [7.4]
Weight, lbm [kg] 808 [366.8] 808 [366.8] 808 [366.8] 808 [366.8] 976 [443.1] 976 [443.1] 976 [443.1]
1,169 [530.7]
1,169 [530.7]
1,194 [542.1]
1,243 [564.3]
1,336 [606.5]
1,336 [606.5]
1,380 [626.5]
1,492 [677.4]
1,498 [680.1]
Carbon Steel Part Number
Redalloy* Alloy Part Number
tba† tba tba 100033717 tba tba tba tba tba tba tba tba tba tba tba 100033716 tba tba tba tba 2012053 2011736 tba tba tba tba tba tba tba tba tba 2012054 tba tba tba tba tba tba
tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba 2011729 2011767 tba tba tba 100033721 100033722 tba tba
be assigned
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Motors
540 Series Motors—DX Type (continued) Frequency, 60 Hz Power Rating, hp
Voltage, V
Frequency, 50 Hz Power Rating, hp
1,113
250
127.1
1,254
93.9
2,292
1,909
61.7
2,685
2,237
52.7
1,237
1,030
127.1
1,394
94.0
2,122
61.7
1,673
188
208
2,547 † to
Current, A
927
1,506
225
Voltage, V
Type
Length, ft [m]
S UT CT S UT CT S UT S UT S UT CT S UT CT S UT CT
27.6 [8.4] 26.7 [8.1] 27.1 [8.3] 27.6 [8.4] 26.7 [8.1] 27.0 [8.2] 27.6 [8.4] 26.7 [8.1] 27.6 [8.4] 26.7 [8.1] 30.4 [9.3] 29.5 [9.0] 29.7 [9.1] 30.4 [9.3] 29.5 [9.0] 29.7 [9.1] 30.4 [9.3] 29.5 [9.0] 29.7 [9.1]
Weight, lbm [kg] 1,672 [759.1]
1,672 [759.1]
1,654 [750.9] 1,716 [779.1]
1,890 [858.1]
1,846 [838.1]
1,840 [835.4]
Carbon Steel Part Number
Redalloy* Alloy Part Number
tba† 2011737 2011829 tba tba tba tba tba tba 2011738 tba 2011739 2011830 tba tba tba tba 100033715 tba
tba tba tba tba tba tba tba 2011730 tba 100033720 tba tba tba tba tba tba tba 100089108 tba
be assigned
Motors
■
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
540 Series Motors
Return to Motors
562 Dominator Motors 562 Dominator* Motors—RK-XD Type Frequency, 60 Hz Power Rating, hp
460 747 1,177 460 747 1,177 375 430 595 704 1,143 375 430 595 704 1,143 490 849 1,207 490 849 1,207 439 620 802 983 1,255 439 620 802 983 1,255
30
45
60
75
Motors
Voltage, V
■
Frequency, 50 Hz Power Rating, hp
25
38
50
63
Voltage, V
Current, A
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
383 622 981 383 622 981 312 358 496 587 952 312 358 496 587 952 408 707 1,006 408 707 1,006 366 517 668 819 1,046 366 517 668 819 1,046
39.5 24.0 15.5 39.5 24.0 15.5 72.0 63.0 45.5 38.5 23.5 72.0 63.0 45.5 38.5 23.5 73.5 42.5 30.0 73.5 42.5 30.0 103.0 73.0 56.5 46.0 36.0 103.0 73.0 56.5 46.0 36.0
UT UT UT S S S UT UT UT UT UT S S S S S UT UT UT S S S UT UT UT UT UT S S S S S
4.9 [1.5] 4.9 [1.5] 4.9 [1.5] 5.8 [1.8] 5.8 [1.8] 5.8 [1.8] 6.1 [1.9] 6.1 [1.9] 6.1 [1.9] 6.1 [1.9] 6.1 [1.9] 7.0 [2.1] 7.0 [2.1] 7.0 [2.1] 7.0 [2.1] 7.0 [2.1] 6.8 [2.1] 6.8 [2.1] 6.8 [2.1] 7.7 [2.3] 7.7 [2.3] 7.7 [2.3] 8.2 [2.5] 8.2 [2.5] 8.2 [2.5] 8.2 [2.5] 8.2 [2.5] 9.1 [2.8] 9.1 [2.8] 9.1 [2.8] 9.1 [2.8] 9.1 [2.8]
353 [160.3] 353 [160.3] 353 [160.3] 421 [191.1] 421 [191.1] 421 [191.1] 440 [199.8] 440 [199.8] 440 [199.8] 440 [199.8] 440 [199.8] 509 [231.1] 509 [231.1] 509 [231.1] 509 [231.1] 509 [231.1] 340 [154.4] 340 [154.4] 340 [154.4] 340 [154.4] 340 [154.4] 340 [154.4] 592 [268.8] 592 [268.8] 592 [268.8] 592 [268.8] 592 [268.8] 660 [299.6] 660 [299.6] 660 [299.6] 660 [299.6] 660 [299.6]
2008104 2008105 2008106 2008791 2008792 2008793 2008107 2008108 2008109 2008110 2008111 2008794 2008795 2008796 2008797 2008798 2008112 2008113 2008114 2008799 2008800 2008801 2008115 2008116 2008117 2008118 2008119 2008802 2008803 2008804 2008805 2008806
2008323 2008324 2008325 2008999 2009000 2009001 2008326 2008327 2008328 2008329 2008330 2009002 2009003 2009004 2009005 2009006 2008331 2008332 2008333 2009007 2009008 2009009 2008334 2008335 2008336 2008337 2008338 2009010 2009011 2009012 2009013 2009014
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
562 Dominator Motors
Return to Motors
562 Dominator* Motors—RK-XD Type (continued) Frequency, 60 Hz Power Rating, hp
90
105
120
135
Voltage, V 412 842 950 1,165 1,273 1,380 1,488 2,133 412 842 950 1,165 1,273 1,380 1,488 2,133 485 865 1,118 1,371 485 865 1,118 1,371 837 980 1,267 1,410 2,270 2,558 4,279 837 980 1,267 1,410 2,270 2,558 4,279 948 1,110 1,435 1,760 948 1,110 1,435 1,760
Frequency, 50 Hz Power Rating, hp
75
88
100
113
Voltage, V
Current, A
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
343 702 792 971 1,061 1,150 1,240 1,777 343 702 792 971 1,061 1,150 1,240 1,777 404 721 932 1,142 404 721 932 1,142 697 817 1,056 1,175 1,892 2,132 3,566 697 817 1,056 1,175 1,892 2,132 3,566 790 925 1,196 1,467 790 925 1,196 1,467
132.0 64.5 57.0 46.5 42.5 39.5 36.5 25.5 132.0 64.5 57.0 46.5 42.5 39.5 36.5 25.5 130.0 73.0 56.5 46.0 130.0 73.0 56.5 46.0 86.5 73.5 57.0 51.0 32.0 28.0 17.0 86.5 73.5 57.0 51.0 32.0 28.0 17.0 85.5 73.0 56.5 46.0 85.5 73.0 56.5 46.0
UT UT UT UT UT UT UT UT S S S S S S S S UT UT UT UT S S S S UT UT UT UT UT UT UT S S S S S S S UT UT UT UT S S S S
9.1 [2.8] 9.1 [2.8] 9.1 [2.8] 9.1 [2.8] 9.1 [2.8] 9.1 [2.8] 9.1 [2.8] 9.1 [2.8] 10.0 [3.1] 10.0 [3.1] 10.0 [3.1] 10.0 [3.1] 10.0 [3.1] 10.0 [3.1] 10.0 [3.1] 10.0 [3.1] 10.3 [3.1] 10.3 [3.1] 10.3 [3.1] 10.3 [3.1] 11.2 [3.4] 11.2 [3.4] 11.2 [3.4] 11.2 [3.4] 11.2 [3.4] 11.2 [3.4] 11.2 [3.4] 11.2 [3.4] 11.2 [3.4] 11.2 [3.4] 11.2 [3.4] 12.1 [3.7] 12.1 [3.7] 12.1 [3.7] 12.1 [3.7] 12.1 [3.7] 12.1 [3.7] 12.1 [3.7] 12.4 [3.8] 12.4 [3.8] 12.4 [3.8] 12.4 [3.8] 13.3 [4.1] 13.3 [4.1] 13.3 [4.1] 13.3 [4.1]
656 [297.8] 656 [297.8] 656 [297.8] 656 [297.8] 656 [297.8] 656 [297.8] 656 [297.8] 656 [297.8] 724 [328.7] 724 [328.7] 724 [328.7] 724 [328.7] 724 [328.7] 724 [328.7] 724 [328.7] 724 [328.7] 743 [337.3] 743 [337.3] 743 [337.3] 743 [337.3] 812 [368.6] 812 [368.6] 812 [368.6] 812 [368.6] 807 [366.4] 807 [366.4] 807 [366.4] 807 [366.4] 807 [366.4] 807 [366.4] 807 [366.4] 876 [397.7] 876 [397.7] 876 [397.7] 876 [397.7] 876 [397.7] 876 [397.7] 876 [397.7] 895 [406.3] 895 [406.3] 895 [406.3] 895 [406.3] 963 [437.2] 963 [437.2] 963 [437.2] 963 [437.2]
2008120 2008121 2008122 2008123 2008124 2008125 2008126 2008127 2008807 2008808 2008809 2008810 2008811 2008812 2008813 2008814 2008128 2008129 2008130 2008131 2008815 2008816 2008817 2008818 2008132 2008133 2008134 2008135 2008136 2008137 2008138 2008819 2008820 2008821 2008822 2008823 2008824 2008825 2008554 2008555 2008556 2008557 2009136 2009137 2009138 2009139
2008339 2008340 2008341 2008342 2008343 2008344 2008345 1193218 2009015 2009016 2009017 2009018 2009019 2009020 2009021 2009022 2008347 2008348 2008349 2008350 2009023 2009024 2009025 2009026 2008351 2008352 2008353 2008354 2008355 2008356 2008357 2009028 2009029 2009030 2009031 2009032 2009033 2009034 2008716 2008717 2008718 2008719 2009298 2009299 2009300 2009301
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Motors
562 Dominator* Motors—RK-XD Type (continued) Frequency, 60 Hz Power Rating, hp
867 1,225 1,404 2,300 2,659 3,197 4,273 867 1,225 1,404 2,300 2,659 3,197 4,273 1,355 1,752 2,148 1,355 1,752 2,148 1,040 1,255 1,685 1,900 2,115 2,545 3,190 4,051 1,040 1,255 1,685 1,900 2,115 2,545 3,190 4,051
150
165
180
Motors
Voltage, V
■
Frequency, 50 Hz Power Rating, hp
125
138
150
Voltage, V
Current, A
Type
Length, ft [m]
Weight, lbm [kg]
722 1,021 1,170 1,917 2,216 2,264 3,561 722 1,021 1,170 1,917 2,216 2,264 3,561 1,129 1,460 1,790 1,129 1,460 1,790 867 1,046 1,404 1,583 1,762 2,121 2,658 3,376 867 1,046 1,404 1,583 1,762 2,121 2,658 3,376
104.0 73.5 64.5 39.5 34.0 28.0 21.0 104.0 73.5 64.5 39.5 34.0 28.0 21.0 73.5 56.5 46.0 73.5 56.5 46.0 104.0 86.5 64.5 57.0 51.0 42.5 34.0 26.5 104.0 86.5 64.5 57.0 51.0 42.5 34.0 26.5
UT UT UT UT UT UT UT S S S S S S S UT UT UT S S S UT UT UT UT UT UT UT UT S S S S S S S S
13.2 [4.0] 13.2 [4.0] 13.2 [4.0] 13.2 [4.0] 13.2 [4.0] 13.2 [4.0] 13.2 [4.0] 14.2 [4.3] 14.2 [4.3] 14.2 [4.3] 14.2 [4.3] 14.2 [4.3] 14.2 [4.3] 14.2 [4.3] 14.5 [4.4] 14.5 [4.4] 14.5 [4.4] 15.4 [4.7] 15.4 [4.7] 15.4 [4.7] 15.3 [4.7] 15.3 [4.7] 15.3 [4.7] 15.3 [4.7] 15.3 [4.7] 15.3 [4.7] 15.3 [4.7] 15.3 [4.7] 16.3 [5.0] 16.3 [5.0] 16.3 [5.0] 16.3 [5.0] 16.3 [5.0] 16.3 [5.0] 16.3 [5.0] 16.3 [5.0]
959 [435.4] 959 [435.4] 959 [435.4] 959 [435.4] 959 [435.4] 959 [435.4] 959 [435.4] 1,027 [466.3] 1,027 [466.3] 1,027 [466.3] 1,027 [466.3] 1,027 [466.3] 1,027 [466.3] 1,027 [466.3] 1,046 [474.9] 1,046 [474.9] 1,046 [474.9] 1,115 [506.2] 1,115 [506.2] 1,115 [506.2] 1,110 [503.9] 1,110 [503.9] 1,110 [503.9] 1,110 [503.9] 1,110 [503.9] 1,110 [503.9] 1,110 [503.9] 1,110 [503.9] 1,179 [535.3] 1,179 [535.3] 1,179 [535.3] 1,179 [535.3] 1,179 [535.3] 1,179 [535.3] 1,179 [535.3] 1,179 [535.3]
Carbon Steel Part Number
Redalloy* Alloy Part Number
2008558 2008559 2008560 2008561 2008562 2008563 2008564 2009140 2009141 2009142 2009143 2009144 2009145 2009146 2008565 2008566 2008567 2009147 2009148 2009149 2008153 2008154 2008155 2008156 2008157 2008158 2008159 2008160 2008840 2008841 2008842 2008843 2008844 2008845 2008846 2008847
2008720 2008721 2008722 2008723 2008724 2008725 2008726 2009302 2009303 2009304 2009305 2009306 2009307 2009308 2008727 2008728 2008729 2009309 2009310 2009311 2008372 2008373 2008374 2008375 2008376 2008377 2008378 2008379 2009049 2009050 2009051 2009052 2009053 2009054 2009055 2009056
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
562 Dominator Motors
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562 Dominator* Motors—RK-XD Type (continued) Frequency, 60 Hz Power Rating, hp
210
240
270
300
Voltage, V 1,213 2,468 3,722 1,213 2,468 3,722 1,100 1,386 2,247 2,534 4,255 1,100 1,386 1,100 1,386 2,247 2,534 4,255 1,237 1,560 1,882 2,205 2,528 1,237 1,560 1,882 1,237 1,560 1,882 2,205 2,528 1,374 1,733 2,091 2,450 4,242 1,374 1,733 2091 1,374 1,733 2,091 2,450 4,242
Frequency, 50 Hz Power Rating, hp
175
200
225
250
Voltage, V
Current, A
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
1,011 2,057 3,102 1,011 2,057 3,102 917 1,155 1,872 2,112 3,546 917 1,155 917 1,155 1,872 2,112 3,546 1,031 1,300 1,568 1,837 2,107 1,031 1,300 1,568 1,031 1,300 1,568 1,837 2,107 1,145 1,444 1,742 2,042 3,535 1,145 1,444 1,742 1,145 1,444 1,742 2,042 3,535
104.0 51.0 34.0 104.0 51.0 34.0 131.0 104.0 64.5 57.0 34.0 131.0 104.0 131.0 104.0 64.5 57.0 34.0 131.0 104.0 86.5 73.5 64.5 131.0 104.0 86.5 131.0 104.0 86.5 73.5 64.5 131.0 104.0 86.5 73.5 42.5 131.0 104.0 86.5 131.0 104.0 86.5 73.5 42.5
UT UT UT S S S UT UT UT UT UT CT CT S S S S S UT UT UT UT UT CT CT CT S S S S S UT UT UT UT UT CT CT CT S S S S S
17.4 [5.3] 17.4 [5.3] 17.4 [5.3] 18.4 [5.6] 18.4 [5.6] 18.4 [5.6] 19.5 [5.9] 19.5 [5.9] 19.5 [5.9] 19.5 [5.9] 19.5 [5.9] 19.7 [6.0] 19.7 [6.0] 20.5 [6.3] 20.5 [6.3] 20.5 [6.3] 20.5 [6.3] 20.5 [6.3] 21.6 [6.6] 21.6 [6.6] 21.6 [6.6] 21.6 [6.6] 21.6 [6.6] 21.8 [6.6] 21.8 [6.6] 21.8 [6.6] 22.6 [6.9] 22.6 [6.9] 22.6 [6.9] 22.6 [6.9] 22.6 [6.9] 23.7 [7.2] 23.7 [7.2] 23.7 [7.2] 23.7 [7.2] 23.7 [7.2] 23.9 [7.3] 23.9 [7.3] 23.9 [7.3] 24.7 [7.5] 24.7 [7.5] 24.7 [7.5] 24.7 [7.5] 24.7 [7.5]
1,262 [572.9] 1,262 [572.9] 1,262 [572.9] 1,331 [604.3] 1,331 [604.3] 1,331 [604.3] 1,414 [642.0] 1,414 [642.0] 1,414 [642.0] 1,414 [642.0] 1,414 [642.0] 1,423 [646.0] 1,423 [646.0] 1,482 [672.8] 1,482 [672.8] 1,482 [672.8] 1,482 [672.8] 1,482 [672.8] 1,565 [710.5] 1,565 [710.5] 1,565 [710.5] 1,565 [710.5] 1,565 [710.5] 1,575 [715.1] 1,575 [715.1] 1,575 [715.1] 1,634 [741.8] 1,634 [741.8] 1,634 [741.8] 1,634 [741.8] 1,634 [741.8] 1,717 [779.5] 1,717 [779.5] 1,717 [779.5] 1,717 [779.5] 1,717 [779.5] 1,726 [783.6] 1,726 [783.6] 1,726 [783.6] 1,785 [810.4] 1,785 [810.4] 1,785 [810.4] 1,785 [810.4] 1,785 [810.4]
2008161 2008162 2008163 2008848 2008849 2008850 2008164 2008165 2008168 2008169 2008170 2009704 2009705 2008851 2008852 2008853 2008854 2008855 2008171 2008172 2008173 2008174 2008175 2009706 2009707 2009708 2008856 2008857 2008858 2008859 2008860 2008176 2008177 2008178 2008179 2008180 2009709 2009710 2009711 2008861 2008862 2008863 2008864 2008865
2008380 2008381 2008382 2009057 2009058 2009059 2008383 2008384 2008385 2008386 2008387 2009728 2009729 2009060 2009061 2009062 2009063 2009064 2008388 2008389 2008390 2008391 2008392 2009730 2009731 2009732 2009065 2009066 2009067 2009068 2009069 2008488 2008489 2008490 2008491 2008492 2009764 2009765 2009766 2009070 2009071 2009072 2009073 2009074
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Motors
562 Dominator* Motors—RK-XD Type (continued) Frequency, 60 Hz Power Rating, hp
1,512 1,906 2,695 3,484 3,878 1,512 1,906 1,512 1,906 2,695 3,484 3,878 1,649 2,080 2,510 3,370 4,230 1,649 2,080 1,649 2,080 2,510 3,370 4,230 1,321 1,787 2,253 2,718 3,650 1,321 1,787 1,321 1,787 2,253 2,718 3,650 1,924 2,426 2,928 3,430 3,932 1,924 1,924 2,426 2,928 3,430 3,932
330
360
390
420
Motors
Voltage, V
■
Frequency, 50 Hz Power Rating, hp
275
300
325
350
Voltage, V
Current, A
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
1,260 1,588 2,246 2,903 3,232 1,260 1,588 1,260 1,588 2,246 2,903 3,232 1,374 1,733 2,092 2,808 3,525 1,374 1,733 1,374 1,733 2,092 2,808 3,525 1,101 1,489 1,877 2,265 3,042 1,101 1,489 1,101 1,489 1,877 2,265 3,042 1,603 2,022 2,440 2,858 3,277 1,603 1,603 2,022 2,440 2,858 3,277
131.0 104.0 73.5 57.0 51.0 131.0 104.0 131.0 104.0 73.5 57.0 51.0 131.0 104.0 86.5 64.5 51.0 131.0 104.0 131.0 104.0 86.5 64.5 51.0 150.0 131.0 104.0 86.5 64.5 150.0 131.0 150.0 131.0 104.0 86.5 64.5 131.0 104.0 86.5 73.5 64.5 131.0 131.0 104.0 86.5 73.5 64.5
UT UT UT UT UT CT CT S S S S S UT UT UT UT UT CT CT S S S S S UT UT UT UT UT CT CT S S S S S UT UT UT UT UT CT S S S S S
25.8 [7.9] 25.8 [7.9] 25.8 [7.9] 25.8 [7.9] 25.8 [7.9] 25.9 [7.9] 25.9 [7.9] 26.8 [8.2] 26.8 [8.2] 26.8 [8.2] 26.8 [8.2] 26.8 [8.2] 27.9 [8.5] 27.9 [8.5] 27.9 [8.5] 27.9 [8.5] 27.9 [8.5] 28.0 [8.5] 28.0 [8.5] 28.9 [8.8] 28.9 [8.8] 28.9 [8.8] 28.9 [8.8] 28.9 [8.8] 30.1 [9.2] 30.1 [9.2] 30.1 [9.2] 30.1 [9.2] 30.1 [9.2] 30.1 [9.2] 30.1 [9.2] 30.9 [9.4] 30.9 [9.4] 30.9 [9.4] 30.9 [9.4] 30.9 [9.4] 32.1 [9.8] 32.1 [9.8] 32.1 [9.8] 32.1 [9.8] 32.1 [9.8] 32.2 [9.8] 33.0 [10.1] 33.0 [10.1] 33.0 [10.1] 33.0 [10.1] 33.0 [10.1]
1,868 [848.1] 1,868 [848.1] 1,868 [848.1] 1,868 [848.1] 1,868 [848.1] 1,878 [852.6] 1,878 [852.6] 1,937 [879.4] 1,937 [879.4] 1,937 [879.4] 1,937 [879.4] 1,937 [879.4] 2,020 [917.1] 2,020 [917.1] 2,020 [917.1] 2,020 [917.1] 2,020 [917.1] 2,030 [921.6] 2,030 [921.6] 2,088 [948.0] 2,088 [948.0] 2,088 [948.0] 2,088 [948.0] 2,088 [948.0] 2,171 [985.6] 2,171 [985.6] 2,171 [985.6] 2,171 [985.6] 2,171 [985.6] 2,181 [990.2] 2,181 [990.2] 2,240 [1,017.0] 2,240 [1,017.0] 2,240 [1,017.0] 2,240 [1,017.0] 2,240 [1,017.0] 2,323 [1,054.6] 2,323 [1,054.6] 2,323 [1,054.6] 2,323 [1,054.6] 2,323 [1,054.6] 2,333 [1,059.2] 2,391 [1,085.5] 2,391 [1,085.5] 2,391 [1,085.5] 2,391 [1,085.5] 2,391 [1,085.5]
2008181 2008182 2008183 2008184 2008185 2009712 2009713 2008866 2008867 2008868 2008869 2008870 2008186 2008187 2008188 2008189 2008190 2009726 2009727 2008871 2008872 2008873 2008874 2008875 2008472 2008473 2008193 2008194 2008195 2009747 2009748 2008876 2008877 2008878 2008879 2008880 2008446 2008197 2008198 2008199 2008200 2009749 2008881 2008883 2008885 2008886 2008887
2008493 2008484 2008495 2008496 2008497 2009736 2009737 2009075 2009076 2009077 2009078 2009079 2008405 2008406 2008407 2008408 2008409 2009738 2009739 2009080 2009081 2009082 2009083 2009084 2008503 2008504 2008412 2008413 2008414 2009771 2009772 2009085 2009086 2009087 2009088 2009089 2008508 2008416 2008417 2008418 2008419 2009773 2009090 2009091 2009092 2009093 2009094
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
562 Dominator Motors
Return to Motors
562 Dominator* Motors—RK-XD Type (continued) Frequency, 60 Hz Power Rating, hp
450
Voltage, V 1,524 2,062 2,600 3,137 3,675 4,213 1,524 2,062 1,524 2,062 2,600 3,137 3,675 4,213
Frequency, 50 Hz Power Rating, hp
375
Voltage, V
Current, A
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
1,270 1,718 2,167 2,614 3,062 3,511 1,270 1,718 1,270 1,718 2,167 2,614 3,062 3,511
178.0 131.0 104.0 86.5 73.5 64.5 178.0 131.0 178.0 131.0 104.0 86.5 73.5 64.5
UT UT UT UT UT UT CT CT S S S S S S
34.2 [10.4] 34.2 [10.4] 34.2 [10.4] 34.2 [10.4] 34.2 [10.4] 34.2 [10.4] 34.3 [10.5] 34.3 [10.5] 35.1 [10.7] 35.1 [10.7] 35.1 [10.7] 35.1 [10.7] 35.1 [10.7] 35.1 [10.7]
2,474 [1,123.2] 2,474 [1,123.2] 2,474 [1,123.2] 2,474 [1,123.2] 2,474 [1,123.2] 2,474 [1,123.2] 2,484 [1,127.7] 2,484 [1,127.7] 2,543 [1,154.5] 2,543 [1,154.5] 2,543 [1,154.5] 2,543 [1,154.5] 2,543 [1,154.5] 2,543 [1,154.5]
2008451 2008452 2008203 2008204 2008205 2008206 2009750 2009751 2008888 2008889 2008890 2008891 2008892 2008893
2008513 2008514 2008422 2008423 2008424 2008425 2009774 2009775 2009095 2009096 2009097 2009098 2009099 2009100
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Motors
562 Dominator Motors 562 Dominator* Motors—RX-XD Type Frequency, 60 Hz Power Rating, hp
460 747 1,177 460 747 1,177 375 430 595 704 1,143 375 430 595 704 1,143 490 849 1,207 490 849 1,207 439 620 802 983 1,255 439 620 802 983 1,255
30
45
60
75
Motors
Voltage, V
■
Frequency, 50 Hz Power Rating, hp
25
38
50
63
Voltage, V
Current, A
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
383 622 981 383 622 981 312 358 496 587 952 312 358 496 587 952 408 707 1,006 408 707 1,006 366 517 668 819 1,046 366 517 668 819 1,046
39.5 24.0 15.5 39.5 24.0 15.5 72.0 63.0 45.5 38.5 23.5 72.0 63.0 45.5 38.5 23.5 73.5 42.5 30.0 73.5 42.5 30.0 103.0 73.0 56.5 46.0 36.0 103.0 73.0 56.5 46.0 36.0
UT UT UT S S S UT UT UT UT UT S S S S S UT UT UT S S S UT UT UT UT UT S S S S S
4.9 [1.5] 4.9 [1.5] 4.9 [1.5] 5.8 [1.8] 5.8 [1.8] 5.8 [1.8] 6.1 [1.9] 6.1 [1.9] 6.1 [1.9] 6.1 [1.9] 6.1 [1.9] 7.0 [2.1] 7.0 [2.1] 7.0 [2.1] 7.0 [2.1] 7.0 [2.1] 6.8 [2.1] 6.8 [2.1] 6.8 [2.1] 7.7 [2.3] 7.7 [2.3] 7.7 [2.3] 8.2 [2.5] 8.2 [2.5] 8.2 [2.5] 8.2 [2.5] 8.2 [2.5] 9.1 [2.8] 9.1 [2.8] 9.1 [2.8] 9.1 [2.8] 9.1 [2.8]
353 [160.3] 353 [160.3 353 [160.3] 421 [191.1] 421 [191.1] 421 [191.1] 440 [199.8] 440 [199.8] 440 [199.8] 440 [199.8] 440 [199.8] 509 [231.1] 509 [231.1] 509 [231.1] 509 [231.1] 509 [231.1] 340 [154.4] 340 [154.4] 340 [154.4] 340 [154.4] 340 [154.4] 340 [154.4] 592 [268.8] 592 [268.8] 592 [268.8] 592 [268.8] 592 [268.8] 660 [299.6] 660 [299.6] 660 [299.6] 660 [299.6] 660 [299.6]
2008159 2008520 2008521 2009101 2009102 2009103 2008522 2008523 2008524 2008525 2008526 2009104 2009105 2009106 2009107 2009108 2008527 2008528 2008529 2009109 2009110 2009111 2008530 2008531 2008532 2008533 2008534 2009112 2009113 2009114 2009115 2009116
2008681 2008682 2008683 2009262 2009264 2009265 2008684 2008685 2008686 2008687 2008688 2009266 2009267 2009268 2009269 2009270 2008689 2008670 2008671 2009271 2009272 2009273 2008692 2008693 2008694 2008695 2008696 2009274 2009275 2009276 2009277 2009278
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
562 Dominator Motors
Return to Motors
562 Dominator* Motors—RX-XD Type (continued) Frequency, 60 Hz Power Rating, hp
90
105
120
135
Voltage, V 412 842 950 1,165 1,273 1,380 1,488 2,133 412 842 950 1,165 1,273 1,380 1,488 2,133 485 865 1,118 1,371 485 865 1,118 1,371 837 980 1,267 1,410 2,270 2,558 4,279 837 980 1,267 1,410 2,270 2,558 4,279 948 1,110 1,435 1,760 948 1,110 1,435 1,760
Frequency, 50 Hz Power Rating, hp
75
88
100
113
Voltage, V
Current, A
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
343 702 792 971 1,061 1,150 1,240 1,777 343 702 792 971 1,061 1,150 1,240 1,777 404 721 932 1,142 404 721 932 1,142 697 817 1,056 1,175 1,892 2,132 3,566 697 817 1,056 1,175 1,892 2,132 3,566 790 925 1,196 1,467 790 925 1,196 1,467
132.0 64.5 57.0 46.5 42.5 39.5 36.5 25.5 132.0 64.5 57.0 46.5 42.5 39.5 36.5 25.5 130.0 73.0 56.5 46.0 130.0 73.0 56.5 46.0 86.5 73.5 57.0 51.0 32.0 28.0 17.0 86.5 73.5 57.0 51.0 32.0 28.0 17.0 85.5 73.0 56.5 46.0 85.5 73.0 56.5 46.0
UT UT UT UT UT UT UT UT S S S S S S S S UT UT UT UT S S S S UT UT UT UT UT UT UT S S S S S S S UT UT UT UT S S S S
9.1 [2.8] 9.1 [2.8] 9.1 [2.8] 9.1 [2.8] 9.1 [2.8] 9.1 [2.8] 9.1 [2.8] 9.1 [2.8] 10.0 [3.1] 10.0 [3.1] 10.0 [3.1] 10.0 [3.1] 10.0 [3.1] 10.0 [3.1] 10.0 [3.1] 10.0 [3.1] 10.3 [3.1] 10.3 [3.1] 10.3 [3.1] 10.3 [3.1] 11.2 [3.4] 11.2 [3.4] 11.2 [3.4] 11.2 [3.4] 11.2 [3.4] 11.2 [3.4] 11.2 [3.4] 11.2 [3.4] 11.2 [3.4] 11.2 [3.4] 11.2 [3.4] 12.1 [3.7] 12.1 [3.7] 12.1 [3.7] 12.1 [3.7] 12.1 [3.7] 12.1 [3.7] 12.1 [3.7] 12.4 [3.8] 12.4 [3.8] 12.4 [3.8] 12.4 [3.8] 13.3 [4.1] 13.3 [4.1] 13.3 [4.1] 13.3 [4.1]
656 [297.8] 656 [297.8] 656 [297.8] 656 [297.8] 656 [297.8] 656 [297.8] 656 [297.8] 656 [297.8] 724 [328.7] 724 [328.7] 724 [328.7] 724 [328.7] 724 [328.7] 724 [328.7] 724 [328.7] 724 [328.7] 743 [337.3] 743 [337.3] 743 [337.3] 743 [337.3] 812 [368.6] 812 [368.6] 812 [368.6] 812 [368.6] 807 [366.4] 807 [366.4] 807 [366.4] 807 [366.4] 807 [366.4] 807 [366.4] 807 [366.4] 876 [397.7] 876 [397.7] 876 [397.7] 876 [397.7] 876 [397.7] 876 [397.7] 876 [397.7] 895 [406.3] 895 [406.3] 895 [406.3] 895 [406.3] 963 [437.2] 963 [437.2] 963 [437.2] 963 [437.2]
2008535 2008536 2008537 2008538 2008539 2008540 2008541 2008542 2009117 2009118 2009119 2009120 2009121 2009122 2009123 2009124 2008543 2008544 2008545 2008546 2009125 2009126 2009127 2009128 2008547 2008548 2008549 2008550 2008551 2008552 2008553 2009129 2009130 2009131 2009132 2009133 2009134 2009135 2008554 2008555 2008556 2008557 2009136 2009137 2009138 2009139
2008697 2008698 2008699 2008700 2008701 2008702 2008703 2008704 2009279 2009280 2009281 2009282 2009293 2009284 2009285 2009286 2008705 2008706 2008707 2008708 2009287 2009288 2009289 2009290 2008709 2008710 2008711 2008712 2008713 2008714 2008715 2009291 2009292 2009293 2009294 2009295 2009296 2009297 2008716 2008717 2008718 2008719 2009298 2009299 2009300 2009301
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Motors
562 Dominator* Motors—RX-XD Type (continued) Frequency, 60 Hz Power Rating, hp
867 1,225 1,404 2,300 2,659 3,197 4,273 867 1,225 1,404 2,300 2,659 3,197 4,273 1,355 1,752 2,148 1,355 1,752 2,148 1,040 1,255 1,685 1,900 2,115 2,545 3,190 4,051 1,040 1,255 1,685 1,900 2,115 2,545 3,190 4,051 1,213 2,468 3,722 1,213 2,468 3,722
150
165
180
210
Motors
Voltage, V
■
Frequency, 50 Hz Power Rating, hp
125
138
150
175
Voltage, V
Current, A
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
722 1,021 1,170 1,917 2,216 2,264 3,561 722 1,021 1,170 1,917 2,216 2,264 3,561 1,129 1,460 1,790 1,129 1,460 1,790 867 1,046 1,404 1,583 1,762 2,121 2,658 3,376 867 1,046 1,404 1,583 1,762 2,121 2,658 3,376 1,011 2,057 3,102 1,011 2,057 3,102
104.0 73.5 64.5 39.5 34.0 28.0 21.0 104.0 73.5 64.5 39.5 34.0 28.0 21.0 73.5 56.5 46.0 73.5 56.5 46.0 104.0 86.5 64.5 57.0 51.0 42.5 34.0 26.5 104.0 86.5 64.5 57.0 51.0 42.5 34.0 26.5 104.0 51.0 34.0 104.0 51.0 34.0
UT UT UT UT UT UT UT S S S S S S S UT UT UT S S S UT UT UT UT UT UT UT UT S S S S S S S S UT UT UT S S S
13.2 [4.0] 13.2 [4.0] 13.2 [4.0] 13.2 [4.0] 13.2 [4.0] 13.2 [4.0] 13.2 [4.0] 14.2 [4.3] 14.2 [4.3] 14.2 [4.3] 14.2 [4.3] 14.2 [4.3] 14.2 [4.3] 14.2 [4.3] 14.5 [4.4] 14.5 [4.4] 14.5 [4.4] 15.4 [4.7] 15.4 [4.7] 15.4 [4.7] 15.3 [4.7] 15.3 [4.7] 15.3 [4.7] 15.3 [4.7] 15.3 [4.7] 15.3 [4.7] 15.3 [4.7] 15.3 [4.7] 16.3 [5.0] 16.3 [5.0] 16.3 [5.0] 16.3 [5.0] 16.3 [5.0] 16.3 [5.0] 16.3 [5.0] 16.3 [5.0] 17.4 [5.3] 17.4 [5.3] 17.4 [5.3] 18.4 [5.6] 18.4 [5.6] 18.4 [5.6]
959 [435.4] 959 [435.4] 959 [435.4] 959 [435.4] 959 [435.4] 959 [435.4] 959 [435.4] 1,027 [466.3] 1,027 [466.3] 1,027 [466.3] 1,027 [466.3] 1,027 [466.3] 1,027 [466.3] 1,027 [466.3] 1,046 [474.9] 1,046 [474.9] 1,046 [474.9] 1,115 [506.2] 1,115 [506.2] 1,115 [506.2] 1,110 [503.9] 1,110 [503.9] 1,110 [503.9] 1,110 [503.9] 1,110 [503.9] 1,110 [503.9] 1,110 [503.9] 1,110 [503.9] 1,179 [535.3] 1,179 [535.3] 1,179 [535.3] 1,179 [535.3] 1,179 [535.3] 1,179 [535.3] 1,179 [535.3] 1,179 [535.3] 1,262 [572.9] 1,262 [572.9] 1,262 [572.9] 1,331 [604.3] 1,331 [604.3] 1,331 [604.3]
2008558 2008559 2008560 2008561 2008562 2008563 2008564 2009140 2009141 2009142 2009143 2009144 2009145 2009146 2008565 2008566 2008567 2009147 2009148 2009149 2008570 2008571 2008572 2008573 2008574 2008575 2008576 2008577 2009150 2009151 2009152 2009153 2009154 2009155 2009156 2009157 2008161 2008162 2008163 2008848 2008849 2008850
2008720 2008721 2008722 2008723 2008724 2008725 2008726 2009302 2009303 2009304 2009305 2009306 2009307 2009308 2008727 2008728 2008729 2009309 2009310 2009311 2008730 2008731 2008732 2008733 2008734 2008735 2008736 2008737 2009312 2009313 2009314 2009315 2009316 2009317 2009318 2009319 2008380 2008381 2008382 2009057 2009058 2009059
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
562 Dominator Motors
Return to Motors
562 Dominator* Motors—RX-XD Type (continued) Frequency, 60 Hz Power Rating, hp
240
270
300
† to
Voltage, V 1,100 1,386 2,247 2,534 4,255 1,100 1,386 1,100 1,386 2,247 2,534 4,255 1,237 1,560 1,882 2,205 2,528 1,237 1,560 1,882 1,237 1,560 1,882 2,205 2,528 1,374 1,733 2,091 2,450 4,242 1,374 1,733 2,091 1,374 1,733 2,091 2,450 4,242
Frequency, 50 Hz Power Rating, hp
200
225
250
Voltage, V
Current, A
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
917 1,155 1,872 2,112 3,546 917 1,155 917 1,155 1,872 2,112 3,546 1,031 1,300 1,568 1,837 2,107 1,031 1,300 1,568 1,031 1,300 1,568 1,837 2,107 1,145 1,444 1,742 2,042 3,535 1,145 1,444 1,742 1,145 1,444 1,742 2,042 3,535
131.0 104.0 64.5 57.0 34.0 131.0 104.0 131.0 104.0 64.5 57.0 34.0 131.0 104.0 86.5 73.5 64.5 131.0 104.0 86.5 131.0 104.0 86.5 73.5 64.5 131.0 104.0 86.5 73.5 42.5 131.0 104.0 86.5 131.0 104.0 86.5 73.5 42.5
UT UT UT UT UT CT CT S S S S S UT UT UT UT UT CT CT CT S S S S S UT UT UT UT UT CT CT CT S S S S S
19.5 [5.9] 19.5 [5.9] 19.5 [5.9] 19.5 [5.9] 19.5 [5.9] 19.7 [6.0] 19.7 [6.0] 20.5 [6.3] 20.5 [6.3] 20.5 [6.3] 20.5 [6.3] 20.5 [6.3] 21.6 [6.6] 21.6 [6.6] 21.6 [6.6] 21.6 [6.6] 21.6 [6.6] 21.8 [6.6] 21.8 [6.6] 21.8 [6.6] 22.6 [6.9] 22.6 [6.9] 22.6 [6.9] 22.6 [6.9] 22.6 [6.9] 23.7 [7.2] 23.7 [7.2] 23.7 [7.2] 23.7 [7.2] 23.7 [7.2] 23.9 [7.3] 23.9 [7.3] 23.9 [7.3] 24.7 [7.5] 24.7 [7.5] 24.7 [7.5] 24.7 [7.5] 24.7 [7.5]
1,414 [642.0] 1,414 [642.0] 1,414 [642.0] 1,414 [642.0] 1,414 [642.0] 1,423 [646.0] 1,423 [646.0] 1,482 [672.8] 1,482 [672.8] 1,482 [672.8] 1,482 [672.8] 1,482 [672.8] 1,565 [710.5] 1,565 [710.5] 1,565 [710.5] 1,565 [710.5] 1,565 [710.5] 1,575 [715.1] 1,575 [715.1] 1,575 [715.1] 1,634 [741.8] 1,634 [741.8] 1,634 [741.8] 1,634 [741.8] 1,634 [741.8] 1,717 [779.5] 1,717 [779.5] 1,717 [779.5] 1,717 [779.5] 1,717 [779.5] 1,726 [783.6] 1,726 [783.6] 1,726 [783.6] 1,785 [810.4] 1,785 [810.4] 1,785 [810.4] 1,785 [810.4] 1,785 [810.4]
2008581 2008582 2008583 2008584 2008585 2009776 2009777 2009161 2009162 2009163 2009164 2009165 2008586 2008587 2008588 2008589 2008590 2009778 2009779 2009835 2009166 2009167 2009168 2009169 2009170 2008591 2008592 2008593 2008594 2008595 2009780 2009781 2009782 2009171 2009172 2009173 2009174 2009175
2008741 2008742 2008744 2008745 tba† 2009795 2009796 2009323 2009324 2009325 2009326 2009327 2008746 2008747 2008748 2008749 2008750 2009797 2009798 2009799 2009328 2009329 2009330 2009331 2009332 2008751 2008752 2008753 2008754 2008755 2009800 2009801 2009802 2009333 2009334 2009335 2009336 2009337
be assigned
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Motors
562 Dominator* Motors—RX-XD Type (continued) Frequency, 60 Hz Power Rating, hp
1,512 1,906 2,695 3,484 3,878 1,512 1,906 1,512 1,906 2,695 3,484 3,878 1,649 2,080 2,510 3,370 4,230 1,649 2,080 1,649 2,080 2,510 3,370 4,230 1,321 1,787 2,253 2,718 3,650 1,321 1,787 1,321 1,787 2,253 2,718 3,650
330
360
390
Motors
Voltage, V
■
Frequency, 50 Hz Power Rating, hp
275
300
325
Voltage, V
Current, A
Type
Length, ft [m]
1,260 1,588 2,246 2,903 3,232 1,260 1,588 1,260 1,588 2,246 2,903 3,232 1,374 1,733 2,092 2,808 3,525 1,374 1,733 1,374 1,733 2,092 2,808 3,525 1,101 1,489 1,877 2,265 3,042 1,101 1,489 1,101 1,489 1,877 2,265 3,042
131.0 104.0 73.5 57.0 51.0 131.0 104.0 131.0 104.0 73.5 57.0 51.0 131.0 104.0 86.5 64.5 51.0 131.0 104.0 131.0 104.0 86.5 64.5 51.0 150.0 131.0 104.0 86.5 64.5 150.0 131.0 150.0 131.0 104.0 86.5 64.5
UT UT UT UT UT CT CT S S S S S UT UT UT UT UT CT CT S S S S S UT UT UT UT UT CT CT S S S S S
25.8 [7.9] 25.8 [7.9] 25.8 [7.9] 25.8 [7.9] 25.8 [7.9] 25.9 [7.9] 25.9 [7.9] 26.8 [8.2] 26.8 [8.2] 26.8 [8.2] 26.8 [8.2] 26.8 [8.2] 27.9 [8.5] 27.9 [8.5] 27.9 [8.5] 27.9 [8.5] 27.9 [8.5] 28.0 [8.5] 28.0 [8.5] 28.9 [8.8] 28.9 [8.8] 28.9 [8.8] 28.9 [8.8] 28.9 [8.8] 30.0 [9.2] 30.0 [9.2] 30.0 [9.2] 30.0 [9.2] 30.0 [9.2] 30.1 [9.2] 30.1 [9.2] 30.9 [9.4] 30.9 [9.4] 30.9 [9.4] 30.9 [9.4] 30.9 [9.4]
Weight, lbm [kg] 1,868 [848.1] 1,868 [848.1] 1,868 [848.1] 1,868 [848.1] 1,868 [848.1] 1,878 [852.6] 1,878 [852.6] 1,937 [879.4] 1,937 [879.4] 1,937 [879.4] 1,937 [879.4] 1,937 [879.4] 2,020 [917.1] 2,020 [917.1] 2,020 [917.1] 2,020 [917.1] 2,020 [917.1] 2,030 [921.6] 2,030 [921.6] 2,088 [948.0] 2,088 [948.0] 2,088 [948.0] 2,088 [948.0] 2,088 [948.0] 2,171 [985.6] 2,171 [985.6] 2,171 [985.6] 2,171 [985.6] 2,171 [985.6] 2,181 [990.2] 2,181 [990.2] 2,240 [1,017.0] 2,240 [1,017.0] 2,240 [1,017.0] 2,240 [1,017.0] 2,240 [1,017.0]
Carbon Steel Part Number
Redalloy* Alloy Part Number
2008596 2008597 2008598 2008599 2008600 2009783 2009784 2009176 2009178 2009179 2009180 2009181 2011002 2011003 2011004 2011005 2011006 2011146 2011147 2010920 2010921 2010922 2010923 010924 2011037 2011038 2011010 2011011 2011012 2011154 2011155 2010925 2010926 2010927 2010928 2010929
2008756 2008757 2008758 2008759 2008760 2009803 2009804 2009338 2009339 2009340 2009341 2009342 2011022 2011023 2011024 2011025 2011026 2011150 2011151 2010962 2010963 2010964 2010965 2010966 2011057 2011058 2011029 2011030 2011031 2011168 2011169 2010967 2010968 2010969 2010970 2010971
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
562 Dominator Motors
Return to Motors
562 Dominator* Motors—RX-XD Type (continued) Frequency, 60 Hz Power Rating, hp
420
450
Voltage, V 1,924 2,426 2,928 3,430 3,932 1,924 1,924 2,426 2,928 3,430 3,932 1,524 2,062 2,600 3,137 3,675 4,213 1,524 2,062 1,524 2,062 2,600 3,137 3,675 4,213
Frequency, 50 Hz Power Rating, hp
350
375
Voltage, V
Current, A
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
1,603 2,022 2,440 2,858 3,277 1,603 1,603 2,022 2,440 2,858 3,277 1,270 1,718 2,167 2,614 3,062 3,511 1,270 1,718 1,270 1,718 2,167 2,614 3,062 3,511
131.0 104.0 86.5 73.5 64.5 131.0 131.0 104.0 86.5 73.5 64.5 178.0 131.0 104.0 86.5 73.5 64.5 178.0 131.0 178.0 131.0 104.0 86.5 73.5 64.5
UT UT UT UT UT CT S S S S S UT UT UT UT UT UT CT CT S S S S S S
32.1 [9.8] 32.1 [9.8] 32.1 [9.8] 32.1 [9.8] 32.1 [9.8] 32.2 [9.8] 33.0 [10.1] 33.0 [10.1] 33.0 [10.1] 33.0 [10.1] 33.0 [10.1] 34.2 [10.4] 34.2 [10.4] 34.2 [10.4] 34.2 [10.4] 34.2 [10.4] 34.2 [10.4] 34.3 [10.5] 34.3 [10.5] 35.1 [10.7] 35.1 [10.7] 35.1 [10.7] 35.1 [10.7] 35.1 [10.7] 35.1 [10.7]
2,323 [1,054.6] 2,323 [1,054.6] 2,323 [1,054.6] 2,323 [1,054.6] 2,323 [1,054.6] 2,333 [1,059.2] 2,391 [1,085.5] 2,391 [1,085.5] 2,391 [1,085.5] 2,391 [1,085.5] 2,391 [1,085.5] 2,474 [1,123.2] 2,474 [1,123.2] 2,474 [1,123.2] 2,474 [1,123.2] 2,474 [1,123.2] 2,474 [1,123.2] 2,484 [1,127.7] 2,484 [1,127.7] 2,543 [1,154.5] 2,543 [1,154.5] 2,543 [1,154.5] 2,543 [1,154.5] 2,543 [1,154.5] 2,543 [1,154.5]
2011095 2011063 2011064 2011065 2011066 2011156 2010930 2010931 2010932 2010933 2010934 2011100 2011101 2011069 2011070 2011071 2011072 2011157 2011158 2010935 2010936 2010937 2010938 2010939 2010940
2011117 2011085 2011086 2011087 2011088 2011170 2010972 2010973 2010974 2010975 2010976 2011122 2011123 2011091 2011092 2011093 2011094 2011171 2011172 2010977 2010978 2010979 2010980 2010981 2010982
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Motors
562 Dominator Motors 562 Dominator* Motors—Hotline* 350 HX-XD Type Frequency, 60 Hz
Frequency, 50 Hz
Power Rating, hp
Voltage, V
Power Rating, hp
Voltage, V
Current, A
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
21 43 64 86 107 128 150 171 193 214 235 257 278 300 321
407 751 1,887 2,009 2,353 2,252 2,184 2,241 2,236 2,168 2,385 2,221 2,405 2,592 2,776
18 36 54 71 89 107 125 143 161 178 196 214 232 250 268
339 626 1,573 1,674 1,961 1,877 1,820 1,868 1,863 1,807 1,988 1,851 2,004 2,160 2,313
30.6 33.1 19.8 24.8 26.4 33.1 39.8 44.3 50.0 57.3 57.3 67.1 67.2 67.2 67.2
S S S S S S S S S S S S S S S
5.8 [1.8] 7.9 [2.4] 10.0 [3.1] 12.1 [3.7] 14.2 [4.3] 16.3 [5.0] 18.4 [5.6] 20.5 [6.3] 22.6 [6.9] 24.7 [7.5] 26.8 [8.2] 28.9 [8.8] 30.9 [9.4] 33.0 [10.1] 35.1 [10.7]
421 [191.1] 573 [260.1] 724 [328.7] 876 [397.7] 1,027 [466.3] 1,179 [535.3] 1,331 [604.3] 1,482 [672.8] 1,634 [741.8] 1,785 [810.4] 1,937 [879.4] 2,088 [948.0] 2,240 [1,017.0] 2,391 [1,085.5] 2,543 [1,154.5]
100099447 100067472 100041644 100047597 100099448 100099451 100041645 100099452 100099454 100099455 100099456 100099457 100099458 100099459 100099460
tba† tba tba tba tba tba tba tba tba tba tba tba tba tba tba
† to
be assigned
562 Dominator* Motors—Hotline* 425 HX-XD Type Frequency, 60 Hz
Frequency, 50 Hz
Power Rating, hp
Voltage, V
Power Rating, hp
Voltage, V
Current, A
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
43 64 107 128 150 171 193 214 235 257 278 300 321
751 1,317 2,353 2,252 2,184 2,241 2,236 2,168 2,385 2,221 2,405 2,592 2,776
36 54 89 107 125 143 161 178 196 214 232 250 268
626 1,098 1,961 1,877 1,820 1,868 1,863 1,807 1,988 1,851 2,004 2,160 2,313
33.1 28.4 26.4 33.1 39.8 44.3 50.0 57.3 57.3 67.1 67.2 67.2 67.2
S S S S S S S S S S S S S
7.9 [2.4] 10.0 [3.1] 14.2 [4.3] 16.3 [5.0] 18.4 [5.6] 20.5 [6.3] 22.6 [6.9] 24.7 [7.5] 26.8 [8.2] 28.9 [8.8] 30.9 [9.4] 33.0 [10.1] 35.1 [10.7]
573 [260.1] 724 [328.7] 1,027 [466.3] 1,179 [535.3] 1,330 [603.8] 1,482 [672.8] 1,634 [741.8] 1,785 [810.4] 1,937 [879.4] 2,088 [948.0] 2,240 [1,017.0] 2,391 [1,085.5] 2,543 [1,154.5]
100104384 100104385 100099777 100099779 100010918 100099780 100099783 100067487 100099784 100099785 100099786 100099788 100099789
tba† tba tba tba tba tba tba tba tba tba tba tba tba
† to
be assigned
Motors
■
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
562 Dominator Motors
Return to Motors
738 Dominator Motors 738 Dominator* Motors—RK Type Frequency, 60 Hz Power Rating, hp
2,277 3,238 4,200 2,270 3,656 4,117 2,379 3,187 4,265 2,411 3,335 4,258 2,020 2,366 3,405 4,097 1,860 1,860 2,244 2,244 3,398 4,169 2,046 2,046 2,469 3,315 4,162 1,770 2,232 1,770 2,232 2,232 3,155 3,616 1,917 1,917 2,418 3,418 3,918
250
300
350
400
450
500
550
600
650
Motors
Voltage, V
■
Frequency, 50 Hz Power Rating, hp 208
250
292
333
375
417
458
500
541
Voltage, V
Current, A
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
1,897 2,697 3,499 1,891 3,045 3,429 1,982 2,655 3,553 2,008 2,778 3,547 1,683 1,971 2,836 3,413 1,549 1,549 1,869 1,869 2,831 3,473 1,704 1,704 2,057 2,762 3,468 1,474 1,859 1,474 1,859 1,859 2,628 3,012 1,597 1,597 2,014 2,847 3,264
66.7 46.9 36.2 80.3 49.8 44.3 89.4 66.7 49.8 100.8 72.9 57.1 135.3 115.5 80.3 66.7 163.3 163.3 135.4 135.4 89.4 72.9 163.3 163.3 135.3 100.8 80.3 205.9 163.3 205.9 163.3 163.3 115.5 100.8 206.0 206.0 163.3 115.5 100.8
S S S S S S S S S S S S UT S S S UT LT LT S S S UT LT S S S UT UT LT LT S S S UT LT S S S
12.3 [3.8] 12.3 [3.8] 12.3 [3.8] 13.9 [4.2] 13.9 [4.2] 13.9 [4.2] 15.6 [4.8] 15.6 [4.8] 15.6 [4.8] 17.2 [5.2] 17.2 [5.2] 17.2 [5.2] 18.8 [5.7] 18.8 [5.7] 18.8 [5.7] 18.8 [5.7] 20.5 [6.3] 20.0 [6.1] 20.0 [6.1] 20.5 [6.3] 20.5 [6.3] 20.5 [6.3] 22.2 [6.8] 21.7 [6.6] 22.2 [6.8] 22.2 [6.8] 22.2 [6.8] 23.8 [7.3] 23.8 [7.3] 23.4 [7.1] 23.4 [7.1] 23.8 [7.3] 23.8 [7.3] 23.8 [7.3] 25.5 [7.8] 25.0 [7.6] 25.5 [7.8] 25.5 [7.8] 25.5 [7.8]
1,256 [570.2] 1,256 [570.2] 1,256 [570.2] 1,490 [676.5] 1,490 [676.5] 1,490 [676.5] 1,724 [782.7] 1,724 [782.7] 1,724 [782.7] 1,958 [888.9] 1,958 [888.9] 1,958 [888.9] 2,193 [995.6] 2,193 [995.6] 2,193 [995.6] 2,193 [995.6] 2,427 [1,101.9] 2,427 [1,101.9] 2,427 [1,101.9] 2,427 [1,101.9] 2,427 [1,101.9] 2,427 [1,101.9] 2,661 [1,208.1] 2,661 [1,208.1] 2,661 [1,208.1] 2,661 [1,208.1] 2,661 [1,208.1] 2,895 [1,314.3] 2,895 [1,314.3] 2,895 [1,314.3] 2,895 [1,314.3] 2,895 [1,314.3] 2,895 [1,314.3] 2,895 [1,314.3] 3,129 [1,420.6] 3,129 [1,420.6] 3,129 [1,420.6] 3,129 [1,420.6] 3,129 [1,420.6]
2012369 2012370 2012371 2012373 2012374 2012372 2012375 2012376 2012377 2012378 2012379 2012380 2012511 2012381 2012382 2012383 2012512 2013061 2013063 2012384 2012385 2012386 2012513 2013064 2012387 2012388 2012389 2013240 2012514 2013065 2013066 2012390 2012391 2012392 2013241 2013067 2012393 2012394 2012395
2012472 2012473 2012474 2012476 2012477 2012475 2012478 2012479 2012480 2012481 2012482 2012483 2012519 2012484 2012485 2012486 2012520 2013079 2013080 2012487 2012488 2012489 2012521 2013081 2012490 2012491 2012492 2013247 2012522 2013082 2013083 2012493 2012494 2012495 2013248 2013084 2012496 2012497 2012498
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
738 Dominator Motors
Return to Motors
738 Dominator* Motors—RK Type (continued) Frequency, 60 Hz Power Rating, hp
700
750
800
850
900
Voltage, V 2,065 2,065 2,604 3,142 4,220 2,212 2,212 2,212 3,367 3,943 2,360 2,975 3,591 2,507 3,161 3,815 3,347 4,040
Frequency, 50 Hz Power Rating, hp
583
625
666
708
750
Voltage, V
Current, A
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
1,720 1,720 2,169 2,617 3,515 1,843 1,843 1,843 2,805 3,285 1,966 2,478 2,991 2,088 2,633 3,178 2,788 3,365
205.9 205.9 163.3 135.3 100.8 206.0 206.0 206.0 135.3 115.5 205.9 163.3 135.3 206.0 163.3 135.3 163.3 135.3
UT LT S S S UT LT S S S S S S S S S S S
27.1 [8.3] 26.6 [8.1] 27.1 [8.3] 27.1 [8.3] 27.1 [8.3] 28.7 [8.8] 28.3 [8.6] 28.8 [8.8] 28.8 [8.8] 28.8 [8.8] 30.4 [9.3] 30.4 [9.3] 30.4 [9.3] 32.0 [9.8] 32.0 [9.8] 32.0 [9.8] 33.7 [10.3] 33.7 [10.3]
3,363 [1,526.8] 3,363 [1,526.8] 3,363 [1,526.8] 3,363 [1,526.8] 3,363 [1,526.8] 3,598 [1,633.5] 3,598 [1,633.5] 3,598 [1,633.5] 3,598 [1,633.5] 3,598 [1,633.5] 3,832 [1,739.7] 3,832 [1,739.7] 3,832 [1,739.7] 4,066 [1,846.0] 4,066 [1,846.0] 4,066 [1,846.0] 4,300 [1,955.2] 4,300 [1,955.2]
2013242 2013068 2012396 2012397 2012398 2001634 2013069 2013305 2012399 2012400 2013306 2012401 2012402 2013307 2012403 2012404 2012406 2012405
2013249 2013085 2012499 2012500 2012501 2013250 2013086 2013311 2012502 2012503 2013312 2012504 2012505 2013313 2012506 2012507 2012509 2012508
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Motors
738 Dominator Motors 738 Dominator* Motors—RX Type with Integral Phoenix* Sensor Adapter Frequency, 60 Hz Power Rating, hp
2,277 3,238 4,200 2,270 3,656 4,117 2,379 3,187 4,265 2,411 3,335 4,258 2,366 3,405 1,860 2,244 2,244 3,398 4,169 2,046 2,469 3,315 4,162 1,770 2,232 2,232 3,155 3,616 1,917 2,418 3,418 3,918 2,065 2,604 3,142 4,220 2,212 2,212 3,367 3,943
250
300
350
400
450
500
550
600
650
700
750
Motors
Voltage, V
■
Frequency, 50 Hz Power Rating, hp 208
250
292
333
375
417
458
500
541
583
625
Voltage, V
Current, A
Type
Length, ft [m]
1,897 2,697 3,499 1,891 3,045 3,429 1,982 2,655 3,553 2,008 2,778 3,547 1,971 2,836 1,549 1,869 1,869 2,831 3,473 1,704 2,057 2,762 3,468 1,474 1,859 1,859 2,628 3,012 1,597 2,014 2,847 3,264 1,720 2,169 2,617 3,515 1,843 1,843 2,805 3,285
66.7 46.9 36.2 80.3 49.8 44.3 89.4 66.7 49.8 100.8 72.9 57.1 115.5 80.3 163.3 135.4 135.4 89.4 72.9 163.3 135.3 100.8 80.3 205.9 163.3 163.3 115.5 100.8 206.0 163.3 115.5 100.8 205.9 163.3 135.3 100.8 206.0 206.0 135.3 115.5
S S S S S S S S S S S S S S LT LT S S S LT S S S LT LT S S S LT S S S LT S S S LT S S S
12.5 [3.8] 12.5 [3.8] 12.5 [3.8] 14.1 [4.3] 14.1 [4.3] 14.1 [4.3] 15.7 [4.8] 15.7 [4.8] 15.7 [4.8] 17.4 [5.3] 17.4 [5.3] 17.4 [5.3] 19.0 [5.8] 19.0 [5.8] 20.2 [6.2] 20.2 [6.2] 20.6 [6.3] 20.6 [6.3] 20.6 [6.3] 21.9 [6.7] 22.4 [6.8] 22.4 [6.8] 22.4 [6.8] 23.5 [7.2] 23.5 [7.2] 24.0 [7.3] 24.0 [7.3] 24.0 [7.3] 25.2 [7.7] 25.7 [7.8] 25.7 [7.8] 25.7 [7.8] 26.8 [8.2] 27.3 [8.3] 27.3 [8.3] 27.3 [8.3] 28.5 [8.7] 28.9 [8.8] 28.9 [8.8] 28.9 [8.8]
Weight, lbm [kg] 1,256 [570.2] 1,256 [570.2] 1,256 [570.2] 1,490 [676.5] 1,490 [676.5] 1,490 [676.5] 1,724 [782.7] 1,724 [782.7] 1,724 [782.7] 1,958 [888.9] 1,958 [888.9] 1,958 [888.9] 2,193 [995.6] 2,193 [995.6] 2,427 [1,101.9] 2,427 [1,101.9] 2,427 [1,101.9] 2,427 [1,101.9] 2,427 [1,101.9] 2,661 [1,208.1] 2,661 [1,208.1] 2,661 [1,208.1] 2,661 [1,208.1] 2,895 [1,314.3] 2,895 [1,314.3] 2,895 [1,314.3] 2,895 [1,314.3] 2,895 [1,314.3] 3,129 [1,420.6] 3,129 [1,420.6] 3,129 [1,420.6] 3,129 [1,420.6] 3,363 [1,526.8] 3,363 [1,526.8] 3,363 [1,526.8] 3,363 [1,526.8] 3,598 [1,633.5] 3,598 [1,633.5] 3,598 [1,633.5] 3,598 [1,633.5]
Carbon Steel Part Number
Redalloy* Alloy Part Number
2013100 2013101 2013102 2013104 2013105 2013103 2013106 2013107 2013108 2013109 2013110 2013111 2013112 2013113 2013213 2013214 2013115 2013116 2013117 2013215 2013118 2013119 2013120 2013216 2013217 2013121 2013122 2013123 2013218 2013124 2013125 2013126 2013219 2013127 2013128 2013129 2001625 2013343 2009859 2013130
2013174 2013175 2013176 2013178 2013179 2013177 2013180 2013181 2013182 2013183 2013185 2013186 2013187 2013188 2013228 2013229 2013190 2013191 2013192 2013230 2013193 2013194 2013195 2013231 2013232 2013196 2013197 2013198 2013233 2013199 2013200 2013201 2013234 2013202 2013203 2013204 2013235 2013349 2013205 2013206
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
738 Dominator Motors
Return to Motors
738 Dominator* Motors—RX Type with Integral Phoenix* Sensor Adapter (continued) Frequency, 60 Hz Power Rating, hp 800
850
900
Voltage, V 2,360 2,975 3,591 2,507 3,161 3,815 3,347 4,040
Frequency, 50 Hz Power Rating, hp 666
708
750
Voltage, V
Current, A
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Alloy Part Number
1,966 2,478 2,991 2,088 2,633 3,178 2,788 3,365
205.9 163.3 135.3 206.0 163.3 135.3 163.3 135.3
S S S S S S S S
30.6 [9.3] 30.6 [9.3] 30.6 [9.3] 32.2 [9.8] 32.2 [9.8] 32.2 [9.8] 33.8 [10.3] 33.8 [10.3]
3,832 [1,739.7] 3,832 [1,739.7] 3,832 [1,739.7] 4,066 [1,846.0] 4,066 [1,846.0] 4,066 [1,846.0] 4,300 [1,952.2] 4300, [1,952.2]
2013344 2013131 2013132 2013345 2013133 2013134 2013135 2006498
2013350 2013207 2013208 2013351 2013209 2013210 2013212 2013211
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Return to Motors
Maximus* Components
Back to Maximus Components
456 Series Maximus Motors 456 Series Maximus* Motors Frequency, 60 Hz
Frequency, 50 Hz
Power Rating, hp
Power Rating, hp
Voltage, V
463
Current, A
386
42.3
599
27.2
482
42.5
899
749
27.3
438
365
67.1
686
35.7
950
792
30.9
660
550
52.0
614
46.7
959
799
35.8
1,109
924
31.0
754
628
52.1
771
42.3
1,096
913
35.7
1,438
1,198
27.2
708
52.0
1,027
35.8
30.0
25.0 719 578
37.5
31.3
45.0
823
37.5
736 52.5
43.8
925 60.0
50.0
849 67.5
56.3 1,233
Motors
Voltage, V
■
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Carbon Steel with Monel Trim Part Number
Redalloy* Part Number
S-GRB S S-GRB S S-GRB S S-GRB S S-GRB S S-GRB S S-GRB S S-GRB S S-GRB S S-GRB S S-GRB S S-GRB S S-GRB S S-GRB S S-GRB S S-GRB S S-GRB S
5.8 [1.8] 5.7 [1.7] 5.8 [1.8] 5.7 [1.7] 6.7 [2.0] 6.6 [2.0] 6.7 [2.0] 6.6 [2.0] 7.4 [2.3] 7.3 [2.2] 7.4 [2.3] 7.3 [2.2] 7.4 [2.3] 7.3 [2.2] 8.3 [2.5] 8.2 [2.5] 8.3 [2.5] 8.2 [2.5] 8.3 [2.5] 8.2 [2.5] 8.3 [2.5] 8.2 [2.5] 9.0 [2.7] 8.9 [2.7] 9.0 [2.7] 8.9 [2.7] 9.0 [2.7] 8.9 [2.7] 9.0 [2.7] 8.9 [2.7] 9.9 [3.0] 9.8 [3.0] 9.9 [3.0] 9.8 [3.0]
266 [120.7] 266 [120.7] 266 [120.7] 266 [120.7] 303 [137.4] 303 [137.4] 303 [137.4] 303 [137.4] 339 [153.8] 339 [153.8] 339 [153.8] 339 [153.8] 339 [153.8] 339 [153.8] 376 [170.6] 376 [170.6] 376 [170.6] 376 [170.6] 376 [170.6] 376 [170.6] 376 [170.6] 376 [170.6] 413 [187.3] 413 [187.3] 413 [187.3] 413 [187.3] 413 [187.3] 413 [187.3] 413 [187.3] 413 [187.3] 450 [204.1] 450 [204.1] 450 [204.1] 450 [204.1]
100315385 100316343 100316645 100317318 100316652 100317319 100316653 100317320 100316654 100317321 100368226 100343489 100368229 100343490 100316657 100317324 100368234 100343493 100368231 100343491 100368233 100343492 100316667 100317328 100368239 100343496 100368235 100343494 100368237 100343495 100368241 100343497 100316672 100317333
100315970 100316347 100316754 100317350 100316756 100317351 100316757 100317352 100316758 100317353 100368680 100343504 100368683 100343505 100316761 100317356 100368686 100343508 100368684 100343506 100368685 100343507 100316767 100317362 100368690 100343511 100368688 100343509 100368689 100343510 100368693 100343512 100317130 100317367
100315980 100316348 100317214 100317384 100317215 100317385 100317216 100317386 100317217 100317387 100368747 100343519 100368748 100343520 100317220 100317390 100368755 100343523 100368750 100343521 100368753 100343522 100317238 100317395 100368759 100343526 100368756 100343524 100368757 100343525 100368760 100343527 100317243 100317400
© 2007 Schlumberger. All rights reserved. *Mark of Schlumberger
456 Series Maximus Motors
Back to Maximus Components
456 Series Maximus* Motors (continued) Frequency, 60 Hz
Frequency, 50 Hz
Power Rating, hp
Power Rating, hp
Voltage, V
Voltage, V
Current, A
943
786
52.0
1,157
964
42.3
1,477
1,231
33.3
1,797
1,498
27.3
803
669
67.3
921
767
58.7
1,272
1,060
42.5
1,978
1,648
27.3
875
730
67.4
1,516
1,263
38.7
1,901
1,584
31.0
2,156
1,797
27.2
75.0
62.5
82.5
68.8
90.0
75.0
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Carbon Steel with Monel Trim Part Number
Redalloy* Part Number
UT S-GRB S LT-GRB UT S-GRB S LT-GRB UT S-GRB S LT-GRB UT S-GRB S LT-GRB UT S-GRB S UT S-GRB S UT S-GRB S UT S-GRB S UT S-GRB S LT-GRB UT S-GRB S LT-GRB UT S-GRB S LT-GRB UT S-GRB S LT-GRB
10.7 [3.3] 10.6 [3.2] 10.5 [3.2] 10.4 [3.2] 10.7 [3.3] 10.6 [3.2] 10.5 [3.2] 10.4 [3.2] 10.7 [3.3] 10.6 [3.2] 10.5 [3.2] 10.4 [3.2] 10.7 [3.3] 10.6 [3.2] 10.5 [3.2] 10.4 [3.2] 11.5 [3.6] 10.0 [3.1] 10.1 [3.1] 11.5 [3.6] 10.0 [3.1] 10.1 [3.1] 11.5 [3.6] 10.0 [3.1] 10.1 [3.1] 11.5 [3.6] 10.0 [3.1] 10.1 [3.1] 12.3 [3.8] 11.8 [3.7] 11.9 [3.7] 12.0 [3.7] 12.3 [3.8] 11.8 [3.7] 11.9 [3.7] 12.0 [3.7] 12.3 [3.8] 11.8 [3.7] 11.9 [3.7] 12.0 [3.7] 12.3 [3.8] 11.8 [3.7] 11.9 [3.7] 12.0 [3.7]
482 [218.6] 486 [220.4] 486 [220.4] 443 [200.9] 482 [218.6] 486 [220.4] 486 [220.4] 443 [200.9] 482 [218.6] 486 [220.4] 486 [220.4] 443 [200.9] 482 [218.6] 486 [220.4] 486 [220.4] 443 [200.9] 519 [235.2] 523 [237.2] 523 [237.2] 519 [235.2] 523 [237.2] 523 [237.2] 519 [235.2] 523 [237.2] 523 [237.2] 519 [235.2] 523 [237.2] 523 [237.2] 555 [251.7] 560 [254.0] 560 [254.0] 532 [241.3] 555 [251.7] 560 [254.0] 560 [254.0] 532 [241.3] 555 [251.7] 560 [254.0] 560 [254.0] 532 [241.3] 555 [251.7] 560 [254.0] 560 [254.0] 532 [241.3]
100295838 100368242 100343498 100304913 100295839 100316675 100317336 100304914 100295837 100316673 100317334 100304908 100295841 100368243 100343499 100304915 100295842 100316677 100317338 100295847 100316681 100317341 100295844 100368245 100343500 100295845 100368248 100343501 100295849 100316682 100317342 100304916 100295851 100316683 100317343 100304917 100295854 100316685 100317345 100304920 100295853 100316684 100317344 100304918
100295715 100368696 100343513 100304852 100295716 100317133 100317370 100304853 100295683 100317131 100317368 100304851 100295719 100368698 100343516 100304854 100295722 100317135 100317372 100295730 100317138 100317375 100295724 100368700 100343514 100295727 100368701 100343518 100295731 100317139 100317376 100304855 100295732 100317140 100317377 100304856 100295734 100317142 100317379 100304860 100295733 100317141 100317378 100304858
100297267 100368761 100343528 100305019 100297269 100317248 100317404 100305020 100297265 100317244 100317401 100305018 100297270 100368763 100343529 100305021 100297271 100317253 100317406 100297276 100317257 100317409 100297274 100368765 100343530 100297275 100368766 100343531 100297277 100317258 100317411 100305023 100297279 100317259 100317412 100305024 100297281 100317261 100317415 100305027 100297280 100317260 100317413 100305026
© 2007 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Back to Maximus Components
456 Series Maximus* Motors (continued) Frequency, 60 Hz
Frequency, 50 Hz
Power Rating, hp
Power Rating, hp
Voltage, V
Current, A
949
791
67.3
1,227
1,022
52.0
1,782
1,485
35.8
2,060
1,717
31.0
1,021
851
67.1
1,470
1,225
46.6
2,067
1,723
33.3
2,217
1,848
30.9
935
779
78.9
1,230
52.0
2,057
1,714
35.8
997
831
78.6
1,508
1,257
52.0
2,192
1,826
35.8
2,533
2,111
30.9
97.5
81.3
105.0
87.5
112.5
1,415
120.0
Motors
Voltage, V
93.8
100.0
■
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Carbon Steel with Monel Trim Part Number
Redalloy* Part Number
UT S-GRB S UT S-GRB S UT S-GRB S UT S-GRB S UT S-GRB LT-GRB UT S-GRB LT-GRB UT S-GRB LT-GRB UT S-GRB LT-GRB UT S-GRB UT S-GRB UT S-GRB UT S-GRB UT S-GRB LT-GRB UT S-GRB LT-GRB UT S-GRB LT-GRB
13.1 [4.1] 11.8 [3.7] 11.9 [3.7] 13.1 [4.1] 11.8 [3.7] 11.9 [3.7] 13.1 [4.1] 11.8 [3.7] 11.9 [3.7] 13.1 [4.1] 11.8 [3.7] 11.9 [3.7] 13.9 [4.3] 13.4 [4.2] 13.6 [4.2] 13.9 [4.3] 13.4 [4.2] 13.6 [4.2] 13.9 [4.3] 13.4 [4.2] 13.6 [4.2] 13.9 [4.3] 13.4 [4.2] 13.6 [4.2] 14.7 [4.6] 14.2 [4.4] 14.8 [4.6] 14.2 [4.4] 14.7 [4.6] 14.2 [4.4] 15.5 [4.8] 15.0 [4.7] 15.5 [4.8] 15.0 [4.7] 15.2 [4.7] 15.5 [4.8] 15.0 [4.7] 15.2 [4.7] 15.5 [4.8] 15.0 [4.7] 15.2 [4.7]
592 [268.3] 597 [271.0] 597 [271.0] 592 [268.3] 597 [271.0] 597 [271.0] 592 [268.3] 597 [271.0] 597 [271.0] 592 [268.3] 597 [271.0] 597 [271.0] 628 [284.9] 633 [287.1] 621 [281.7] 628 [284.9] 633 [287.1] 621 [281.7] 628 [284.9] 633 [287.1] 621 [281.7] 628 [284.9] 633 [287.1] 621 [281.7] 665 [301.6] 670 [303.9] 665 [301.6] 670 [303.9] 665 [301.6] 670 [303.9] 702 [318.4] 706 [320.2] 702 [318.4] 706 [320.2] 709 [321.6] 702 [318.4] 706 [320.2] 709 [321.6] 702 [318.4] 706 [320.2] 709 [321.6]
100295855 100316686 100317346 100295866 100368249 100343502 100295868 100316689 100317349 100295867 100368252 100343503 100295870 100316690 100304921 100295928 100368253 100304922 100295933 100316693 100304924 100295930 100368254 100304923 100295935 100316694 100295937 100368256 100295941 100368257 100343207 100316697 100295945 100368259 100304925 100295952 100316700 100304927 100295948 100316699 100304926
100295735 100317143 100317380 100295736 100368702 100343515 100295738 100317146 100317383 100295737 100368703 100343517 100295739 100317147 100304861 100295740 100368704 100304862 100295742 100317152 100304864 100295741 100368705 100304863 100295743 100317157 100298723 100368706 100295745 100368707 100343206 100317160 100295748 100368709 100304865 100295750 100317163 100304867 100295749 100317162 100304866
100297282 100317262 100317416 100297283 100368768 100343532 100297285 100317265 100317419 100297284 100368769 100343533 100297286 100317266 100305029 100297288 100368770 100305030 100297290 100317269 100305032 100297289 100368771 100305031 100297291 100317270 100297292 100368773 100297293 100368774 100343208 100317273 100297295 100368776 100305033 100297297 100317276 100305037 100297296 100317275 100305034
© 2007 Schlumberger. All rights reserved. *Mark of Schlumberger
456 Series Maximus Motors
Back to Maximus Components
456 Series Maximus* Motors (continued) Frequency, 60 Hz
Frequency, 50 Hz
Power Rating, hp
Power Rating, hp
Voltage, V
1,059
Current, A
882
78.9
1,035
67.3
1,423
1,186
58.7
2,150
1,791
38.8
1,121
934
78.9
1,313
1,094
67.4
1,254
58.7
2,081
1,734
42.5
2,658
2,215
33.3
1,184
987
78.8
1,494
52.0
2,199
1,833
42.5
2,403
2,002
38.8
1,246
1,038
78.6
1,673
1,394
58.7
1,886
1,572
52.1
2,314
1,928
42.3
1,651
52.0
1,838
46.8
1,241 127.5
135.0
Voltage, V
106.3
1,505
112.5
1,793 142.5
118.8
150.0
125.0
1,981 157.5
131.3 2,205
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Carbon Steel with Monel Trim Part Number
Redalloy* Part Number
UT S-GRB UT S-GRB UT S-GRB UT S-GRB UT S-GRB LT-GRB UT S-GRB LT-GRB UT S-GRB LT-GRB UT S-GRB LT-GRB UT S-GRB LT-GRB UT S-GRB UT S-GRB UT S-GRB UT S-GRB UT S-GRB LT-GRB UT S-GRB LT-GRB UT S-GRB LT-GRB UT S-GRB LT-GRB UT S-GRB UT S-GRB
16.3 [5.1] 15.8 [4.9] 16.3 [5.1] 15.8 [4.9] 16.3 [5.1] 15.8 [4.9] 16.3 [5.1] 15.8 [4.9] 17.1 [5.3] 16.6 [5.1] 16.8 [5.2] 17.1 [5.3] 16.6 [5.1] 16.8 [5.2] 17.1 [5.3] 16.6 [5.1] 16.8 [5.2] 17.1 [5.3] 16.6 [5.1] 16.8 [5.2] 17.1 [5.3] 16.6 [5.1] 16.8 [5.2] 17.9 [5.6] 17.4 [5.4] 17.9 [5.6] 17.4 [5.4] 17.9 [5.6] 17.4 [5.4] 17.9 [5.6] 17.4 [5.4] 18.7 [5.8] 18.2 [5.6] 18.4 [5.7] 18.7 [5.8] 18.2 [5.6] 18.4 [5.7] 18.7 [5.8] 18.2 [5.6] 18.4 [5.7] 18.7 [5.8] 18.2 [5.6] 18.4 [5.7] 19.5 [6.1] 19.0 [5.9] 19.5 [6.1] 19.0 [5.9]
741 [336.1] 743 [337.0] 741 [336.1] 743 [337.0] 741 [336.1] 743 [337.0] 741 [336.1] 743 [337.0] 780 [353.8] 784 [355.6] 798 [362.0] 780 [353.8] 784 [355.6] 798 [362.0] 780 [353.8] 784 [355.6] 798 [362.0] 780 [353.8] 784 [355.6] 798 [362.0] 780 [353.8] 784 [355.6] 798 [362.0] 817 [370.4] 821 [372.4] 817 [370.4] 821 [372.4] 817 [370.4] 821 [372.4] 817 [370.4] 821 [372.4] 853 [386.9] 858 [389.2] 871 [395.5] 853 [386.9] 858 [389.2] 871 [395.5] 853 [386.9] 858 [389.2] 871 [395.5] 853 [386.9] 858 [389.2] 871 [395.5] 890 [403.5] 895 [406.0] 890 [403.5] 895 [406.0]
100295954 100316701 100343210 100368261 100295963 100316703 100295964 100368262 100343213 100368263 100304928 100295969 100368266 100304931 100295966 100316706 100304929 100296014 100316712 100304932 100295967 100368264 100304930 100303935 100316718 100343221 100316713 100296022 100316714 100296025 100368269 100343224 100316719 100304958 100296030 100316720 100304959 100296034 100316723 100304962 100296032 100316721 100304961 100343228 100316725 100343233 100368271
100295751 100317164 100343211 100368710 100295755 100317166 100295756 100368711 100343214 100368712 100304868 100295763 100368715 100304871 100295759 100317170 100304869 100295764 100317173 100304872 100295761 100368713 100304870 100303936 100317178 100343222 100317175 100295767 100317176 100295768 100368718 100343225 100317179 100304877 100295771 100317180 100304878 100295773 100317182 100298746 100295772 100317181 100304879 100343229 100317183 100343234 100368720
100297298 100317277 100343212 100368777 100297300 100317279 100297301 100368779 100343215 100368780 100305038 100297306 100368783 100305043 100297303 100317282 100305039 100297307 100317285 100305044 100297305 100368782 100305041 100303937 100317289 100343223 100317286 100297309 100317287 100297310 100368785 100343226 100317290 100305049 100297312 100317291 100305050 100297314 100317293 100305270 100297313 100317292 100305269 100343230 100317294 100343235 100368786
© 2007 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Back to Maximus Components
456 Series Maximus* Motors (continued) Frequency, 60 Hz
Frequency, 50 Hz
Power Rating, hp
Power Rating, hp
Voltage, V
Voltage, V
Current, A
1,370
1,142
78.6
1,839
1,533
58.8
2,075
1,729
52.1
2,545
2,121
42.3
1,238
1,032
95.0
1,495
1,245
78.9
2,262
1,885
52.0
2,520
2,100
46.6
1,342
1,118
95.0
1,349
78.6
2,730
2,275
46.6
2,346
1,955
58.7
2,200
52.0
165.0
137.5
180.0
150.0
195.0 1,619
210.0
175.0 2,640
Motors
162.5
■
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Carbon Steel with Monel Trim Part Number
Redalloy* Part Number
UT S-GRB LT-GRB UT S-GRB LT-GRB UT S-GRB LT-GRB UT S-GRB LT-GRB UT S-GRB LT-GRB UT S-GRB LT-GRB UT S-GRB LT-GRB UT S-GRB LT-GRB UT-HSS UT S-GRB LT-GRB UT-HSS UT S-GRB LT-GRB UT-HSS UT S-GRB LT-GRB UT-HSS UT S-GRB LT-GRB UT-HSS UT S-GRB LT-GRB
20.3 [6.3] 19.8 [6.1] 20.0 [6.2] 20.3 [6.3] 19.8 [6.1] 20.0 [6.2] 20.3 [6.3] 19.8 [6.1] 20.0 [6.2] 20.3 [6.3] 19.8 [6.1] 20.0 [6.2] 21.9 [6.8] 21.4 [6.6] 21.6 [6.7] 21.9 [6.8] 21.4 [6.6] 21.6 [6.7] 21.9 [6.8] 21.4 [6.6] 21.6 [6.7] 21.9 [6.8] 21.4 [6.6] 21.6 [6.7] 23.6 [7.3] 23.6 [7.3] 23.0 [7.1] 23.2 [7.2] 23.6 [7.3] 23.6 [7.3] 23.0 [7.1] 23.2 [7.2] 23.6 [7.3] 23.6 [7.3] 23.0 [7.1] 23.2 [7.2] 25.2 [7.8] 25.2 [7.8] 24.7 [7.6] 24.8 [7.7] 25.2 [7.8] 25.2 [7.8] 24.7 [7.6] 24.8 [7.7]
926 [420.0] 931 [422.3] 945 [428.6] 926 [420.0] 931 [422.3] 945 [428.6] 926 [420.0] 931 [422.3] 945 [428.6] 926 [420.0] 931 [422.3] 945 [428.6] 1,000 [453.6] 1,004 [455.4] 1,018 [461.8] 1,000 [453.6] 1,004 [455.4] 1,018 [461.8] 1,000 [453.6] 1,004 [455.4] 1,018 [461.8] 1,000 [453.6] 1,004 [455.4] 1,018 [461.8] 1,073 [486.7] 1,073 [486.7] 1,078 [489.0] 1,092 [495.3] 1,073 [486.7] 1,073 [486.7] 1,078 [489.0] 1,092 [495.3] 1,073 [486.7] 1,073 [486.7] 1,078 [489.0] 1,092 [495.3] 1,147 [520.3] 1,147 [520.3] 1,151 [522.0] 1,165 [528.4] 1,147 [520.3] 1,147 [520.3] 1,151 [522.0] 1,165 [528.4]
100343236 100316727 100304967 100296046 100316729 100304994 100296047 100368275 100304996 100303938 100316728 100304968 100303941 100316731 100304997 100296052 100316732 100304998 100296055 100316733 100305000 100296059 100368276 100305001 100330124 100343240 100316735 100305002 100330172 100343244 100368277 100305003 100330177 100343248 100368279 100305005 100330185 100343256 100368284 100305007 100330182 100343252 100368281 100305006
100343237 100317185 100304882 100295781 100317187 100304884 100295783 100368722 100304885 100303939 100317186 100304883 100303943 100317189 100304886 100295786 100317190 100304887 100295790 100317191 100304888 100295793 100368724 100304889 100330188 100343241 100317194 100304890 100330195 100343245 100368725 100304892 100330199 100343249 100368726 100304893 100330203 100343257 100368729 100304896 100330201 100343253 100368728 100304895
100343238 100317296 100305273 100297320 100317298 100305275 100297321 100368787 100305276 100303940 100317297 100305274 100303944 100317300 100305277 100297323 100317301 100305278 100297324 100317302 100305280 100297326 100368788 100305281 100330212 100343242 100317304 100305282 100330215 100343246 100368789 100305283 100330217 100343250 100368791 100305284 100330224 100343258 100368794 100305286 100330222 100343254 100368793 100305285
© 2007 Schlumberger. All rights reserved. *Mark of Schlumberger
456 Series Maximus Motors
Back to Maximus Components
456 Series Maximus* Motors (continued) Frequency, 60 Hz
Frequency, 50 Hz
Power Rating, hp
Power Rating, hp
Voltage, V
Voltage, V
Current, A
1,557
78.9
2,829
2,357
52.0
1,993
1,661
78.6
2,676
2,230
58.7
2,118
1,765
78.6
2,842
2,369
58.7
1,858
1,549
95.0
1,868
78.6
2,189
67.1
1,868 225.0
187.5
240.0
200.0
255.0
270.0
212.5
2,241
225.0
2,626
Type
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Carbon Steel with Monel Trim Part Number
Redalloy* Part Number
UT-HSS S-GRB LT-GRB UT-HSS S-GRB LT-GRB UT-HSS S-GRB LT-GRB UT-HSS S-GRB LT-GRB UT-HSS S-GRB LT-GRB UT-HSS S-GRB LT-GRB UT-HSS S-GRB LT-GRB UT-HSS S-GRB LT-GRB UT-HSS S-GRB LT-GRB
26.8 [8.3] 26.3 [8.1] 26.4 [8.2] 26.8 [8.3] 26.3 [8.1] 26.4 [8.2] 28.4 [8.8] 27.9 [8.6] 28.0 [8.7] 28.4 [8.8] 27.9 [8.6] 28.0 [8.7] 30.0 [9.3] 29.5 [9.1] 29.7 [9.2] 30.0 [9.3] 29.5 [9.1] 29.7 [9.2] 31.6 [9.8] 31.1 [9.6] 31.3 [9.7] 31.6 [9.8] 31.1 [9.6] 31.3 [9.7] 31.6 [9.8] 31.1 [9.6] 31.3 [9.7]
1,220 [553.4] 1,225 [555.7] 1,248 [566.0] 1,220 [553.4] 1,225 [555.7] 1,248 [566.0] 1,293 [586.5] 1,298 [588.8] 1,293 [586.5] 1,293 [586.5] 1,298 [588.8] 1,293 [586.5] 1,367 [620.1] 1,371 [621.9] 1,390 [630.5] 1,367 [620.1] 1,371 [621.9] 1,390 [630.5] 1,440 [653.2] 1,449 [657.3] 1,463 [663.6] 1,440 [653.2] 1,449 [657.3] 1,463 [663.6] 1,440 [653.2] 1,449 [657.3] 1,463 [663.6]
100296069 100368286 100305009 100296067 100368285 100305008 100296072 100316744 100305010 100296073 100316745 100305011 100296078 100316747 100305013 100296075 100316746 100305012 100296086 100316750 100305016 100296083 100316749 100305015 100296080 100316748 100305014
100295827 100368732 100304898 100295826 100368730 100304897 100295828 100317207 100304899 100295830 100317208 100304900 100295832 100317210 100304902 100295831 100317209 100304901 100295836 100317213 100304905 100295834 100317212 100304904 100295833 100317211 100304903
100297335 100368796 100305288 100297332 100368795 100305287 100297337 100317311 100305289 100297339 100317312 100305291 100297341 100317314 100305293 100297340 100317313 100305292 100297345 100317317 100305296 100297344 100317316 100305295 100297342 100317315 100305294
© 2007 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Back to Maximus Components
Maximus ProMotors Applications ■
■ ■
ESP applications with flow rates from 200 to 28,000 B/D [30 to 4,450 m3/d] Production optimization programs Low-ambient temperature installations (Canada, Alaska, Siberia)
Benefits ■
■
■
Simplified, field-friendly installation Reduced installation costs and nonproductive time Improved pump operation and monitoring reliability to reduce early ESP failures and extend run life
Operational efficiency
Features ■
■ ■ ■
Factory prefilled and preshimmed system Integrated protector assembly Direct connect motor pothead Integrated Phoenix* real-time pressure and temperature sensor
Integrated ESP systems REDA* Maximus* ESP systems are the next evolution in the continuous innovation and improvement of REDA ESP technology. These next-generation ESP systems deliver improved reliability and performance through the use of integrated components with fewer mechanical connections. This field friendly system reduces early-life failures and extends ESP run life. A key component in the improved Maximus ESP system is the newly developed ProMotor unit.
ProMotors
The multifunctional ProMotor unit combines the motor, protector, and downhole sensor into one package. The ProMotor unit is prefilled in a controlled manufacturing environment to simplify wellsite operations and reduce installation time. The integrated Phoenix sensor in the ProMotor unit measures downhole pressures, temperatures, and equipment vibrations. These real-time measurements can be used by artificial lift engineers to improve pump performance and increase production. Compatible with all standard REDA pumps, the ProMotor unit is available in a wide range of power (25 to 825 hp) for use with pump systems rates from 200 to 28,000 B/D [30 to 4,450 m3/d].
■
Operational and equipment problems, such as ESP failure within the first 90 days of operation, can require substantial troubleshooting efforts and nonproductive time. By reducing the installation complexity, the ProMotor unit improves REDA Maximus ESP system reliability and performance through simplified wellsite assembly. The ease of installation also helps save costly rig time during installation. The integrated Phoenix sensor provides continuous equipment performance measurements to help operators anticipate production problems. They can also apply petroleum engineering analysis to better understand the well’s production potential. Combined with the Schlumberger espWatcher* surveillance and control system, operators can proactively enhance their ESP operations to improve production and equipment run life.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Maximus ProMotors
Back to Maximus Components
456 Maximus ProMotor 456 Maximus* ProMotor—SK Type Frequency, 60 Hz
Frequency, 50 Hz
Power Rating, hp
Power Rating, hp
Voltage, V 483 750 603 937 457 858 991 689 768 1,000 1,156 787 965 1,143 1,499 886 1,286 983 1,207 1,540 1,874 837 960 1,327 2,063 913 1,581 1,982 2,248 990 1,279 1,859 2,148
30 38
45
53
60
68
75
83
90
98
† to
25 31
38
44
50
56
63
69
75
81
Voltage, V
Current, A
Type
Protector Gauge Configuration
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
402 625 502 781 380 715 826 574 640 833 963 655 804 952 1,249 738 1,072 820 1,006 1,283 1,562 698 800 1,106 1,719 761 1,317 1,652 1,874 825 1,066 1,549 1,790
42 27 42 27 66 35 31 51 46 35 31 51 42 35 27 51 35 51 42 33 27 66 58 42 27 66 38 31 27 66 51 35 31
S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S S
BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL
12.1 [3.7] 12.1 [3.7] 13.0 [4.0] 13.0 [4.0] 13.7 [4.2] 13.7 [4.2] 13.7 [4.2] 14.6 [4.5] 14.6 [4.5] 14.6 [4.5] 14.6 [4.5] 15.3 [4.7] 15.3 [4.7] 15.3 [4.7] 15.3 [4.7] 16.2 [4.9] 16.2 [4.9] 16.9 [5.2] 16.9 [5.2] 16.9 [5.2] 16.9 [5.2] 17.8 [5.4] 17.8 [5.4] 17.8 [5.4] 17.8 [5.4] 18.5 [5.6] 18.5 [5.6] 18.5 [5.6] 18.5 [5.6] 19.4 [5.9] 19.4 [5.9] 19.4 [5.9] 19.4 [5.9]
395 [179.3] 395 [179.3] 435 [132.7] 435 [132.7] 470 [143.4] 470 [143.4] 470 [143.4] 500 [152.5] 500 [152.5] 500 [152.5] 500 [152.5] 545 [166.2] 545 [166.2] 545 [166.2] 545 [166.2] 575 [175.4] 575 [175.4] 610 [186.1] 610 [186.1] 610 [186.1] 610 [186.1] 650 [198.3] 650 [198.3] 650 [198.3] 650 [198.3] 690 [210.5] 690 [210.5] 690 [210.5] 690 [210.5] 725 [221.1] 725 [221.1] 725 [221.1] 725 [221.1]
100175137 100175163 100175177 100175189 100175200 100175203 100175211 100176375 100175341 100175260 100175336 100175360 100178610 100175366 100178609 100175378 100175386 100175398 100175400 100178615 100176384 100175404 100175768 100175756 100175764 100175770 100178618 100175909 100175884 100175913 100175918 100176024 100176017
tba† tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba
Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0
be assigned
ProMotors
■
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
456 Maximus ProMotor
Back to Maximus Components
456 Maximus* ProMotor—SK Type (continued) Frequency, 60 Hz
Frequency, 50 Hz
Power Rating, hp
Power Rating, hp
105
113
120
128
135
143
150
158 † to
Voltage, V 1,065 1,533 2,156 2,312 975 1,476 2,145 1,040 1,040 1,040 1,040 1,573 2,286 2,642 1,104 1,295 1,484 2,242 1,169 1,169 1,169 1,169 1,570 2,170 2,772 1,870 2,294 2,506 1,299 1,299 1,299 1,299 1,745 1,967 2,413 2,066 2,300
88
94
100
106
113
119
125
131
Voltage, V
Current, A
Type
Protector Gauge Configuration
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Redalloy* Part Number
887 1,278 1,797 1,927 812 1,230 1,788 866 866 866 866 1,311 1,905 2,202 920 1,079 1,237 1,868 974 974 974 974 1,308 1,809 2,310 1,558 1,911 2,088 1,083 1,083 1,083 1,083 1,454 1,639 2,011 1,722 1,917
66 46 33 31 78 51 35 78 78 78 78 51 35 31 78 65 58 38 78 78 78 78 58 42 33 51 42 38 78 78 78 78 58 51 42 51 46
S S S S S S S S UT LT LT S S S S S S S S UT LT LT S S S S S S S UT LT LT S S S S S
BSL BSL BSL BSL BSL BSL BSL BSL BPBSL
20.1 [6.1] 20.1 [6.1] 20.1 [6.1] 20.1 [6.1] 21.0 [6.4] 21.0 [6.4] 21.0 [6.4] 21.7 [6.6] 22.8 [7.0] 16.4 [5.0] 15.0 [4.6] 21.7 [6.6] 21.7 [6.6] 21.7 [6.6] 22.6 [6.9] 22.6 [6.9] 22.6 [6.9] 22.6 [6.9] 23.3 [7.1] 24.4 [7.4] 18.0 [5.5] 16.7 [5.1] 23.3 [7.1] 23.3 [7.1] 23.3 [7.1] 24.2 [7.4] 24.2 [7.4] 24.2 [7.4] 24.9 [7.6] 26 0 [7.9] 19.6 [6.0] 18.3 [5.6] 24.9 [7.6] 24.9 [7.6] 24.9 [7.6] 25.8 [7.9] 25.8 [7.9]
760 [231.8] 760 [231.8] 760 [231.8] 760 [231.8] 790 [241.0] 790 [241.0] 790 [241.0] 835 [254.7] 875 [266.9] 715 [218.1] 700 [213.5] 835 [254.7] 835 [254.7] 835 [254.7] 875 [266.9] 875 [266.9] 875 [266.9] 875 [266.9] 920 [280.6] 960 [292.8] 800 [244.0] 785 [239.4] 920 [280.6] 920 [280.6] 920 [280.6] 960 [292.8] 960 [292.8] 960 [292.8] 995 [303.5] 1,035 [315.7] 875 [266.9] 860 [262.3] 995 [303.5] 995 [303.5] 995 [303.5] 1,030 [314.2] 1,030 [314.2]
100178621 100178623 100176037 100178624 100176051 100176060 100176064 100176082 100179093 100179204 100196418 100176087 100176091 100178644 100176115 100176117 100176121 100176123 100176126 100179080 100130554 100196420 100178645 100176130 100178646 100176145 100176156 100176165 100178650 100179076 100179203 100196424 100178652 100176173 100176171 100176176 100176177
tba† tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba
Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0
BSL BSL BSL BSL BSL BSL BSL BSL BPBSL
Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0
BSL BSL BSL BSL BSL BSL BSL BPBSL
Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0
BSL BSL BSL BSL BSL
Type-0 Type-0 Type-0 Type-0 Type-0
be assigned
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ESP Catalog
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456 Maximus* ProMotor—SK Type (continued) Frequency, 60 Hz
Frequency, 50 Hz
Power Rating, hp
Power Rating, hp
Voltage, V 1,184 1,184 1,184 1,429 1,429 1,429 1,429 1,918 2,164 2,899 1,559 1,559 1,559 1,559 2,360 2,628 1,689 1,689 1,689 1,689 2,847 2,446 2,446 2,753 1,948 1,948 1,948 1,948 2,950
165
180
195
210
225
† to
138
150
163
175
188
Voltage, V
Current, A
Type
Protector Gauge Configuration
987 987 987 1,191 1,191 1,191 1,191 1,599 1,803 2,415 1,299 1,299 1,299 1,299 1,966 2,190 1,407 1,407 1,407 1,407 2,372 2,039 2,039 2,294 1,623 1,623 1,623 1,623 2,459
94 94 94 78 78 78 78 58 51 38 78 78 78 78 51 46 78 78 78 78 46 58 58 51 78 78 78 78 51
UT LT LT UT S LT LT S S S S UT LT LT S S UT S LT LT S S S S UT S LT LT S
BPBSL Type-0 BPBSL BSL
BSL BSL BSL BSL BPBSL
Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0
BSL BSL BPBSL BPBSL
BPBSL BSL BPBSL BPBSL BPBSL BPBSL
BPBSL
Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0
Length, ft [m] 27.7 [27.7] 21.2 [6.5] 19.9 [6.1] 27.7 [8.4] 26.6 [8.1] 21.2 [6.5] 19.9 [6.1] 26.6 [8.1] 26.6 [8.1] 26.6 [8.1] 28.2 [8.6] 29.3 [8.9] 22.8 [7.0] 21.5 [6.6] 28.2 [8.6] 28.2 [8.6] 30.9 [9.4] 32.0 [9.8] 24.4 [7.4] 30.9 [9.4] 32.0 [9.8] 31.4 [9.6] 33.6 [10.2] 33.6 [10.2] 34.1 [10.4] 35.2 [10.7] 27.6 [8.4] 26.3 [8.0] 35.2 [10.7]
Weight, lbm [kg] 1,110 [338.6] 950 [289.8] 935 [285.2] 1,110 [338.6] 1,070 [326.4] 950 [289.8] 935 [285.2] 1,070 [326.4] 1,070 [326.4] 1,070 [326.4] 1,145 [349.2] 1,185 [361.4] 1,025 [312.6] 1,010 [308.1] 1,145 [349.2] 1,145 [349.2] 1,260 [384.3] 1,260 [384.3] 1,100 [335.5] 1,260 [384.3] 1,260 [384.3] 1,310 [399.6] 1,335 [407.2] 1,335 [407.2] 1,410 [430.1] 1,410 [430.1] 1,250 [381.3] 1,235 [376.7] 1,410 [430.1]
Carbon Steel Part Number
Redalloy* Part Number
100136075 100136074 100196428 100131666 100176433 100130567 100196426 100176179 100176182 100178655 100178665 100179054 100179202 100196432 100178666 100178667 100125484 100178670 100125479 100196435 100178675 100149542 100178678 100178677 100099091 100178695 100098877 100196438 100178687
tba† tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba
be assigned
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456 Maximus ProMotor
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562 Maximus ProMotor 562 Maximus* ProMotor—SK Type Frequency, 60 Hz
Frequency, 50 Hz
Power Rating, hp
Power Rating, hp
Voltage, V 1,295 691 691 1,257 779 779 779 1,328 843 843 1,381 930 930 930 1,282 994 994 994 1,045 1,046 1,046 1,046 1,110 1,110 1,110 1,110 1,125 1,125 1,125 1,125
38
56
75
94
113
131
150
169
† to
31
47
63
78
94
109
125
141
Voltage, V
Current, A
Type
Protector Gauge Configuration
1,079 685 422 1,048 645 545 394 1,106 778 449 1,150 901 735 568 1,068 772 1364 1,955 871 793 1,025 1,257 898 1,293 2,081 2,345 869 1,018 1,315 1,613
18.5 29.1 47.3 28.5 46.3 54.8 75.9 36.0 51.2 88.8 43.3 55.3 67.8 87.7 56.0 77.5 43.9 30.6 68.4 88.0 68.1 55.5 88.8 61.7 38.3 34.0 103.3 88.2 68.2 55.6
S S S S S S S S S S S S S S S S S S LT S S S S S S S S S S S
BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL BSL
Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0
Length, ft [m]
Weight, lbm [kg]
12.0 [3.7] 12.0 [3.7] 12.0 [3.7] 13.2 [4.0] 13.2 [4.0] 13.2 [4.0] 13.2 [4.0] 14.1 [4.3] 14.1 [4.3] 14.1 [4.3] 15.3 [4.7] 15.3 [4.7] 15.3 [4.7] 15.3 [4.7] 16.2 [4.9] 16.2 [4.9] 16.2 [4.9] 16.2 [4.9] 10.4 [3.2] 17.4 [5.3] 17.4 [5.3] 17.4 [5.3] 18.3 [5.6] 18.3 [5.6] 18.3 [5.6] 18.3 [5.6] 19.5 [5.9] 19.5 [5.9] 19.5 [5.9] 19.5 [5.9]
691 [313.7] 691 [313.7] 691 [313.7] 779 [353.7] 779 [353.7] 779 [353.7] 779 [353.7] 843 [382.7] 843 [382.7] 843 [382.7] 930 [382.7] 930 [382.7] 930 [382.7] 930 [382.7] 994 [451.3] 994 [451.3] 994 [451.3] 994 [451.3] 686 [311.9] 1,046 [474.9] 1,046 [474.9] 1,046 [474.9] 1,110 [503.9] 1,110 [503.9] 1,110 [503.9] 1,110 [503.9] 1,125 [510.8] 1,125 [510.8] 1,125 [510.8] 1,125 [510.8]
Carbon Steel Part Number
Redalloy* Part Number
100229858 100237414 100237437 100229859 100237440 100237444 100237448 100229860 100237442 100237446 100229861 100237453 100237456 100237459 100223322 100237454 100237458 100237461 100116432 100237463 100237464 100237465 100237466 100237467 100237468 100237469 100237470 100237471 100237472 100237473
tba† tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba
be assigned
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562 Maximus ProMotor
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562 Maximus* ProMotor—SK Type (continued) Frequency, 60 Hz
Frequency, 50 Hz
Power Rating, hp
Power Rating, hp
188
206
225
263
† to
Voltage, V 1,217 1,217 1,217 1,544 1,544 2,530 2,925 3,517 1,150 1,544 2,530 2,925 3,517 1,150 1,427 1,427 1,427 1,491 1,491 1,491 1,491 1,381 1,854 2,327 2,800 1,381 1,854 2,327 2,800 1,612 1,612 1,887 1,887 1,334 2,715 1,887 1,634 1,634 1,634 1,634 1,334 2,715
156
172
188
219
Voltage, V
Current, A
Type
Protector Gauge Configuration
2,437 2,931 958 1,287 1,287 2,108 2,437 2,931 958 1,287 2,108 2,437 2,931 958 1,242 1,606 1,969 1,150 1,545 1,939 2,333 1,150 1,545 1,939 2,333 1,150 1,545 1,939 2,333 1,343 1,343 1,572 1,572 1,112 2,262 1,572 1,112 2,262 1,572 1,343 1,112 2,262
40.9 34.0 104.1 77.5 77.5 47.3 40.9 34.0 104.1 77.5 47.3 40.9 34.0 104.1 88.3 68.3 55.7 104.0 77.5 61.7 51.3 104.0 77.5 61.7 51.3 104.0 77.5 61.7 51.3 103.9 103.9 88.8 88.8 125.5 61.7 88.8 125.5 61.7 88.8 103.9 125.5 61.7
S S S S LT LT LT LT LT UT UT UT UT UT S S S S S S S LT LT LT LT UT UT UT UT LT UT UT LT LT LT UT S S S S UT UT
BPBSL BPBSL BPBSL BPBSL
BPBSL BPBSL BPBSL BPBSL BPBSL BPBSL BPBSL BPBSL BPBSL BPBSL BPBSL BPBSL-S
Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0
Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0
BPBSL BPBSL BPBSL BPBSL Type-0 BPBSL BPBSL Type-0 Type-0 Type-0 BPBSL BPBSL BPBSL BPBSL BPBSL BPBSL BPBSL
Type-0 Type-0 Type-0 Type-0
Length, ft [m]
Weight, lbm [kg]
22.9 [7.0] 22.9 [7.0] 22.9 [7.0] 22.9 [7.0] 14.5 [4.4] 14.5 [4.4] 14.5 [4.4] 14.5 [4.4] 14.5 [4.4] 21.7 [6.6] 21.7 [6.6] 21.7 [6.6] 21.7 [6.6] 21.7 [6.6] 24.0 [7.3] 24.0 [7.3] 24.0 [7.3] 24.9 [7.6] 24.9 [7.6] 24.9 [7.6] 24.9 [7.6] 16.6 [5.1] 16.6 [5.1] 16.6 [5.1] 16.6 [5.1] 23.8 [7.3] 23.8 [7.3] 23.8 [7.3] 23.8 [7.3] 18.7 [5.7] 25.9 [7.9] 25.9 [7.9] 18.7 [5.7] 18.7 [5.7] 18.7 [5.7] 25.9 [7.9] 27.0 [8.2] 27.0 [8.2] 27.0 [8.2] 27.0 [8.2] 25.9 [7.9] 25.9 [7.9]
1,217 [552.5] 1,217 [552.5] 1,217 [552.5] 1,217 [552.5] 989 [449.0] 989 [449.0] 989 [449.0] 989 [449.0] 989 [449.0] 1,372 [622.9] 1,372 [622.9] 1,372 [622.9] 1,372 [622.9] 1,372 [622.9] 1,427 [647.9] 1,427 [647.9] 1,427 [647.9] 1,491[676.9] 1,491 [676.9] 1,491 [676.9] 1,491[676.9] 1,133 [514.4] 1,133 [514.4] 1,133 [514.4] 1,133 [514.4] 1,505 [683.3] 1,505 [683.3] 1,505 [683.3] 1,505 [683.3] 1,290 [585.7] 1,557 [706.9] 1,557 [706.9] 1,290 [585.7] 1,290 [585.7] 1,290 [585.7] 1,557 [706.9] 1,634 [741.8] 1,634 [741.8] 1,634 [741.8] 1,634 [741.8] 1,557 [706.9] 1,557 [706.9]
Carbon Steel Part Number
Redalloy* Part Number
100237427 100237428 100237430 100223326 100233767 100233771 100233773 100233775 100233787 100236655 100236656 100236657 100236658 100236659 100237431 100237432 100237433 100237434 100237435 100237436 100237438 100233786 100233788 100233789 100233791 100236660 100236661 100236662 100236663 100140375 100145975 100147598 100147600 100233794 100233795 100223325 100237439 100237441 100237443 100237445 100236664 100236665
tba† tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba
be assigned
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ESP Catalog
Back to Maximus Components
562 Maximus* ProMotor—SK Type (continued) Frequency, 60 Hz
Frequency, 50 Hz
Power Rating, hp
Power Rating, hp
Voltage, V 1,776 1,776 1,776 1,776 1,525 2,472 2,787 1,840 1,525 2,472 2,787 1,840 2,070 2,781 1,919 1,919 1,919 1,716 1,716 2,070 2,781
300
338
† to
250
281
Voltage, V
Current, A
Type
Protector Gauge Configuration
1,271 2,060 2,323 1,534 1,271 2,060 2,323 1,534 1,271 2,060 2,323 1,534 1,725 2,317 1,430 1,725 2,317 1,430 1,430 1,725 2,317
125.5 77.4 68.7 104.0 125.5 77.4 68.7 104.0 125.5 77.4 68.7 104.0 104.0 77.4 125.5 104.0 77.4 125.5 125.5 104.0 77.4
S S S S LT LT LT LT UT UT UT UT LT LT S S S LT UT UT UT
BPBSL BPBSL BPBSL BPBSL
BPBSL BPBSL BPBSL BPBSL
BPBSL BPBSL BPBSL BPBSL BPBSL BPBSL
Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0 Type-0
Length, ft [m]
Weight, lbm [kg]
29.1 [8.9] 29.1 [8.9] 29.1 [8.9] 29.1 [8.9] 20.8 [6.3] 20.8 [6.3] 20.8 [6.3] 20.8 [6.3] 27.9 [8.5] 27.9 [8.5] 27.9 [8.5] 27.9 [8.5] 22.9 [7.0] 22.9 [7.0] 31.2 [9.5] 31.2 [9.5] 31.2 [9.1] 22.9 [7.0] 30.1 [9.2] 30.1 [9.2] 30.1 [9.2]
1,776 [806.3] 1,776 [806.3] 1,776 [806.3] 1,776 [806.3] 1,419 [644.2] 1,419 [644.2] 1,419 [644.2] 1,419 [644.2] 1,764 [800.9] 1,764 [800.9] 1,764 [800.9] 1,764 [800.9] 1,600 [726.4] 1,600 [726.4] 1,919 [871.2] 1,919 [871.2] 1,919 [871.2] 1,600 [726.4] 1,937 [879.4] 1,937 [879.4] 1,937 [879.4]
Carbon Steel Part Number
Redalloy* Part Number
100237447 100237449 100237450 100237451 100233798 100233800 100233802 100233803 100236666 100236667 100236668 100236669 100233808 100233809 100237452 100237455 100237457 100118726 100119228 100236670 100236671
tba† tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba tba
be assigned
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562 Maximus ProMotor
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Modular Protector Nomenclature Chamber Type (XXXXX–X) L B M
Labyrinth Elastomer bag Metal bellows
Connection Type (XXXXX–X) S P
Series Parallel
Thrust-Bearing Type (XXXXX–X) HL None
High-load Base configuration (intermediate load)
Shaft Material (XXXXX–X–X) HSS None
High-strength shaft Base configuration (intermediate strength)
Note: REDA* Maximus* protectors use MaxJoint* flange connection design and do not require oil servicing at the wellsite. All other designs of protectors must be refilled with oil at the wellsite during the installation process.
Nomenclature Definitions Type
Description
66L SB DB PF HL HSS HTM
Two-chambered labyrinth design Positive seal protector using a single elastomeric bag Positive seal protector with two elastomeric bags connected in parallel Prefilled protector High-load thrust bearing Indicates the use of high-strength shaft Indicates the use of high-temperature materials in the protector
Maximus Protectors
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Modular Protector Nomenclature
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Maximus Protector Configurations 400/456 Series Maximus* Protector—Single/Lower Tandem with HSN Elastomers Configuration
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Carbon Steel with Monel® Trim Part Number
Redalloy* Part Number
LSL LSL-HL LSB LSB-HL BSB BSB-HL BSL BSL-HL BPBSL BPBSL-HSS BPBSL-HL BPBSL-HL-HSS BSBSL BSBSL-HSS BSBSL-HL BSBSL-HL-HSS LSBPB LSBPB-HSS LSBPB-HL LSBPB-HL-HSS LSBSB LSBSB-HSS LSBSB-HL LSBSB-HL-HSS LSLSB LSLSB-HSS LSLSB-HL LSLSB-HL-HSS LSLSL LSLSL-HSS LSLSL-HL LSLSL-HL-HSS
5.8 [1.8] 5.8 [1.8] 5.8 [1.8] 5.8 [1.8] 5.8 [1.8] 5.8 [1.8] 5.8 [1.8] 5.8 [1.8] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4]
156 [70.8] 156 [70.8] 156 [70.8] 156 [70.8] 156 [70.8] 156 [70.8] 156 [70.8] 156 [70.8] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5]
100323805 100323817 100323807 100323818 100323808 100323819 100323809 100323820 100293040 100293041 100293046 100293048 100293441 100293442 100293445 100293446 100293215 100293217 100293230 100293232 100292371 100292374 100292365 100292369 100293541 100293546 100293549 100293553 100293874 100293875 100293879 100293881
100323825 100323833 100323826 100323834 100323827 100323835 100323828 100323837 100293054 100293067 100293071 100293075 100293453 100293454 100293459 100293460 100293237 100293238 100293245 100293250 100292312 100292314 100292307 100292310 100293557 100293561 100293578 100293579 100293884 100293885 100293890 100293892
100323842 100323850 100323843 100323851 100323844 100323852 100323845 100323853 100293081 100293084 100293095 100293100 100293464 100293466 100293469 100293470 100293256 100293257 100293262 100293263 100292386 100292389 100292378 100292382 100293584 100293586 100293590 100293594 100293897 100293899 100293906 100293907
Protectors
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Maximus Protector Configurations
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400/456 Series Maximus* Protector—Upper Tandem with HSN Elastomers Configuration
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Carbon Steel with Monel® Trim Part Number
Redalloy* Part Number
BPBSL BPBSL-HSS BPBSL-HL BPBSL-HL-HSS LSBPB LSBPB-HSS LSBPB-HL LSBPB-HL-HSS LSLSB LSLSB-HSS LSLSB-HL LSLSB-HL-HSS LSLSL LSLSL-HSS LSLSL-HL LSLSL-HL-HSS
8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4]
206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5]
100291981 100291982 100291985 100291987 100290587 100290596 100290584 100290591 100291169 100291171 100291174 100291175 100291907 100291908 100291911 100291912
100291991 100291992 100291996 100291997 100290383 100290561 100290345 100290557 100291180 100291181 100291187 100291188 100291916 100291917 100291921 100291923
100292001 100292002 100292005 100292006 100290729 100290727 100290717 100290715 100291191 100291192 100291197 100291199 100291927 100291928 100291932 100291933
© 2007 Schlumberger. All rights reserved. *Mark of Schlumberger Monel® is a registered trademark of Inco Alloys International, Inc.
ESP Catalog
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400/456 Series Maximus* Protector—Single/Lower Tandem with Aflas® Elastomers Configuration
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Carbon Steel with Monel® Trim Part Number
Redalloy* Part Number
LSL LSL-HL LSB LSB-HL BSB BSB-HL BSL BSL-HL BPBSL BPBSL-HSS BPBSL-HL BPBSL-HL-HSS BSBSL BSBSL-HSS BSBSL-HL BSBSL-HL-HSS LSBPB LSBPB-HSS LSBPB-HL LSBPB-HL-HSS LSBSB LSBSB-HSS LSBSB-HL LSBSB-HL-HSS LSLSB LSLSB-HSS LSLSB-HL LSLSB-HL-HSS LSLSL LSLSL-HSS LSLSL-HL LSLSL-HL-HSS
5.8 [1.8] 5.8 [1.8] 5.8 [1.8] 5.8 [1.8] 5.8 [1.8] 5.8 [1.8] 5.8 [1.8] 5.8 [1.8] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4]
156 [70.8] 156 [70.8] 156 [70.8] 156 [70.8] 156 [70.8] 156 [70.8] 156 [70.8] 156 [70.8] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5]
100323812 100323821 100323814 100323822 100323815 100323823 100323816 100323824 100293043 100293045 100293049 100293050 100293443 100293444 100293447 100293449 100293225 100293228 100293233 100293235 100292370 100292372 100292364 100292368 100293547 100293548 100293554 100293555 100293876 100293877 100293882 100293883
100323829 100323838 100323830 100323839 100323831 100323840 100323832 100323841 100293069 100293070 100293077 100293079 100293457 100293458 100293461 100293462 100293240 100293243 100293251 100293253 100292311 100292313 100288882 100292309 100293567 100293575 100293582 100293583 100293886 100293888 100293894 100293895
100323846 100323854 100323847 100323855 100323848 100323856 100323849 100323857 100293088 100293090 100293103 100293107 100293467 100293468 100293472 100293473 100293259 100293260 100293264 100293265 100292383 100292387 100292376 100292381 100293587 100293588 100293595 100293597 100293901 100293905 100293909 100293910
Protectors
■
© 2007 Schlumberger. All rights reserved. *Mark of Schlumberger Aflas® is a registered trademark of Asahi Glass Co., Ltd. Monel® is a registered trademark of Inco Alloys International, Inc.
Maximus Protector Configurations
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400/456 Series Maximus* Protector—Upper Tandem with Aflas® Elastomers Configuration
Length, ft [m]
Weight, lbm [kg]
Carbon Steel Part Number
Carbon Steel with Monel® Trim Part Number
Redalloy* Part Number
BPBSL BPBSL-HSS BPBSL-HL BPBSL-HL-HSS LSBPB LSBPB-HSS LSBPB-HL LSBPB-HL-HSS LSLSB LSLSB-HSS LSLSB-HL LSLSB-HL-HSS LSLSL LSLSL-HSS LSLSL-HL LSLSL-HL-HSS
8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4] 8.0 [2.4]
206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5] 206 [93.5]
100291983 100291984 100291988 100291989 100290589 100290593 100290413 100290590 100291172 100291173 100291178 100291179 100291909 100291910 100291913 100291914
100291993 100291995 100291998 100291999 100290361 100290567 100288669 100290551 100291182 100291184 100291189 100291190 100291918 100291920 100291924 100291925
100292003 100292004 100292007 100292008 100290720 100290719 100290712 100290713 100291193 100291194 100291201 100291203 100291930 100291931 100291934 100291935
© 2007 Schlumberger. All rights reserved. *Mark of Schlumberger Aflas® is a registered trademark of Asahi Glass Co., Ltd. Monel® is a registered trademark of Inco Alloys International, Inc.
ESP Catalog
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Maximus 300 Motorlead Extensions 456 Series, 4-kV KELB, 0.444-in × 1.122-in [11.28-mm × 28.50-mm] OD AWG Conductor Size
Armor
Monel®
6
Pothead Design
Maximus* 300 plug-in
Length, ft [m]
Weight, lbm [kg]
Part Number
40 [12.2] 50 [15.2] 60 [18.3] 75 [22.3] 80 [24.4] 90 [27.4] 100 [30.5] 110 [33.5] 120 [36.6] 130 [39.6] 140 [42.7] 150 [45.7]
43 [19.5] 54 [24.5] 64 [29.0] 80 [36.3] 86 [39.0] 96 [43.5] 107 [48.5] 118 [53.5] 128 [58.1] 139 [63.0] 150 [68.0] 161 [73.0]
100313420 100313421 100324398 100313422 100324385 100324395 100324361 100348541 100324370 100348542 100324379 100167119
Length, ft [m]
Weight, lbm [kg]
Part Number
40 [12.2] 50 [15.2] 60 [18.3] 75 [22.3] 80 [24.4] 90 [27.4] 100 [30.5] 120 [36.6] 140 [42.7] 150 [45.7]
45 [20.4] 56 [25.4] 67 [30.4] 84 [38.1] 90 [40.8] 101 [45.8] 112 [50.8] 134 [60.8] 157 [71.2] 168 [76.2]
100313417 100313418 100324400 100313419 100204016 100204004 100204011 100204013 100204014 100158174
456 Series, 4-kV KELB, 0.464-in × 1.142-in [11.79-mm × 29.01-mm] OD AWG Conductor Size
Armor
6
Motorlead Extensions
Galvanized
■
Pothead Design
Maximus 300 plug-in
Maximus 300 Motorlead Extensions
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© 2006 Schlumberger. All rights reserved. *Mark of Schlumberger Monel® is a registered trademark of Inco Alloys International, Inc.
Power Cable
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REDA ESP Power Cable The quality of the power cable used for ESPs is critical to the overall system efficiency and reliability. For over 60 years, REDA* ESP power cable has been recognized as the leader in highquality electrical cable for ESP systems. A wide range of materials, sizes, and construction types are available to deliver dependable performance in even the most hostile downhole environments. REDA ESP power cable is manufactured with a modular cable concept. Each cable is viewed as a customized collection of components (conductor, insulation, etc.). The selection of these components is based on a thorough analysis of the well conditions. Through the proper selection of materials, the cable can be precisely tailored to provide superior performance in each application. This concept optimizes the total value (price and performance) for customers.
Power Cable
■
REDA ESP Power Cable
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Modular cable nomenclature In line with the modular cable design philosophy, we are using descriptive nomenclature that uniquely identifies the components of each specific cable. The designations indicate the materials selected, starting from the insulation, working out to the barrier, jacket, armor, kilovolt rating, and shape.
AWG Conductor Size/Type #/solid #/stranded #/S/C
AWG#/solid conductor AWG#/stranded conductor AWG#/stranded compacted conductor
Insulation PPE P E K T S
Polypropylene copolymer Polyethylene copolymer EPDM rubber Kapton® film Semiconductive tape Special
Protective Barrier Against Well Fluid S TB-300 F TB-400 L
Extruded PVDF or Solef ® resin Tape and braid polyvinyl fluoride or Tedlar ® film Extruded fluoropolymer Proprietary high-temperature tape and braid Lead
Jacket PE O E
High-density polyethylene Oil-resistant nitrile rubber formulation (four temperature ratings) EPDM rubber
Cable Armor # G HG GG SS M FP
Armor thickness, in. Galvanized steel Heavy galvanized steel Double-layer galvanized steel Stainless steel MONEL® alloy Flat-profile interlocking armor
Cable Voltage Rating and Geometry 3, 4, 5, 6 F R
Voltage rating, kV Flat-cable profile Round-cable profile
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Kapton® and Tedlar ® are registered trademarks of E.I. du Pont de Nemours and Company. MONEL® is a registered trademark of Inco Alloys International, Inc. Solef ® is a registered trademark of Solvay Et Cie. Corporation.
ESP Catalog
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Polyethylene Applications
Description
■
This unarmored cable is designed primarily for water wells or oil wells with low oil cut and low BHP. As with all REDA* ESP power cables, any cable can be manufactured using RedaTube* cable manufacturing technology. These cables are useful when a hydraulic conduit is required for operation of safety valves, chemical injection, or other similar applications.
■
Electrical power cable for submersible pumping systems Conductors rated for well temperatures to 180°F [82°C]
Benefits ■
■
Uses alloy-coated conductors for corrosion protection Contains proprietary polypropylene copolymer for damage and chemical resistance
Components Features ■
Proprietary high-density polyethylene (HDPE) compound jacket
Power Cable
■
The jacket is made from a proprietary HDPE compound with improved flexibility and toughness. Polypropylene copolymer gives damage and chemical resistance to the insulation. The maximum conductor temperature is 180°F [82°C] based on the options selected. The conductors are made of alloy-coated copper to protect against corrosion and improve long-term electrical properties of the insulation.
Polyethylene
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PPEPE
Description
(PPEPE) O4R
AWG Conductor Size/Type
Conductor Diameter, in. [mm]
Insulation Diameter, in. [mm]
Overall Dimensions, in. [mm]
Unit Weight, lbm/ft [kg/m]
1/stranded 2/stranded 4/solid 6/solid 8/solid
0.328 [8.33] 0.292 [7.42] 0.204 [5.18] 0.162 [4.11] 0.128 [3.25]
0.478 [12.14] 0.442 [11.23] 0.354 [8.99] 0.312 [7.92] 0.279 [7.09]
1.187 [30.15] 1.110 [28.19] 0.921 [23.39] 0.830 [21.08] 0.758 [19.25]
1.19 [1.77] 0.98 [1.46] 0.63 [0.94] 0.45 [0.67] 0.33 [0.49]
Notes: Dimensions are nominal. Weight tolerance is ±4 %. Materials and specifications are subject to change without notice. Tolerances, in. [mm]: insulation, ±0.012 [0.305]; overall, ±0.030 [0.762]
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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Redalene Cable Applications
Description
■
All cable designs in the Redalene* ESP power cable family use polypropylene insulation (designated P or PPE) and an oil-resistant nitrile jacket (designated O). Several common cable designs in the family are shown. Many other designs are available depending on the options selected. As with all REDA* ESP power cables, any cable can be manufactured using RedaTube* cable manufacturing technology. These cables are useful when a hydraulic conduit is required for operation of safety valves, chemical injection, or other similar applications.
■
Electrical power cable for submersible pumping systems Conductors rated for well temperatures to 205°F [96°C]
Benefits ■
■
■
■
Includes corrosion protection for the copper conductors Contains proprietary insulation for damage and chemical resistance Incorporates barrier to prevent failure from chemical attack and gas decompression Provides armor options to resist corrosion and mechanical damage
Components
Features ■ ■
■
■
■
Alloy-coated copper conductors Polypropylene copolymer insulation Option of taped and extruded barriers Proprietary nitrile rubber jacket compound Cable armor standard with steel strips and galvanized coating on all sides
Power Cable
■
The conductors are made of alloycoated copper. Insulation is a proprietary polypropylene copolymer. Several types of taped and extruded barriers are available. A barrier prevents failure from chemical attack and gas decompression, enabling performance in wells with hostile environments or high gas/oil ratios. Cable armor made from steel strips featuring a galvanized coating on all sides is standard. Special materials are available for low-temperature handling to –45°F [–43°C].
Redalene Cable
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POTB
POF
PPEO
Redalene Flat Cable
Redalene Flat Cable
250
350 No. 2/0 Conductor No. 1/0 Conductor No. 1 Conductor No. 2 Conductor No. 4 Conductor No. 6 Conductor
200 Maximum conductor current, A
150
No. 2/0 Conductor No. 1/0 Conductor No. 1 Conductor No. 2 Conductor No. 4 Conductor No. 6 Conductor
300 250 Maximum conductor current, A
100 50
200 150 100 50
0
0 0
50
100
150
200
250
0
Maximum well temperature, °F
Description
(POTB)†
(POTB) G5F†
(POF) G4F‡
(POF) G5F‡
(PPEO) G4R§
(PPEO) G5R§
50
100
150
200
250
Maximum well temperature, °F
AWG Conductor Size/Type
Conductor Diameter, in. [mm]
Insulation Diameter, in. [mm]
Jacket Diameter, in. [mm]
Overall Dimensions, in. [mm]
Unit Weight, lbm/ft [kg/m]
1/stranded 2/stranded 4/solid 6/solid 1/compacted 2/compacted 4/solid 1/stranded 2/stranded 4/solid 6/solid 1/compacted 2/compacted 4/solid 1/stranded 2/stranded 4/solid 6/solid 1/compacted 2/compacted 4/solid
0.328 [8.33] 0.292 [7.42] 0.204 [5.18] 0.162 [4.11] 0.297 [7.54] 0.268 [6.81] 0.204 [5.18] 0.328 [8.33] 0.292 [7.42] 0.204 [5.18] 0.162 [4.11] 0.297 [7.54] 0.268 [6.81] 0.204 [5.18] 0.328 [8.33] 0.292 [7.42] 0.204 [5.18] 0.162 [4.11] 0.297 [7.54] 0.268 [6.81] 0.204 [5.18]
0.478 [12.14] 0.442 [11.23] 0.354 [8.99] 0.312 [7.92] 0.477 [12.12] 0.448 [11.38] 0.384 [9.75] 0.478 [12.14] 0.442 [11.23] 0.354 [8.99] 0.312 [7.92] 0.477 [12.12] 0.448 [11.38] 0.384 [9.75] 0.478 [12.14] 0.442 [11.23] 0.354 [8.99] 0.312 [7.92] 0.477 [12.12] 0.448 [11.38] 0.384 [9.75]
0.588 [14.94] 0.552 [14.02] 0.464 [11.79] 0.422 [10.72] 0.587 [14.91] 0.558 [14.17] 0.494 [12.55] 0.589 × 1.654 [14.96 × 42.01] 0.562 × 1.546 [14.27 × 39.27] 0.474 × 1.283 [12.04 × 32.59] 0.432 × 1.156 [10.97 × 29.36] 0.597 × 1.651 [15.16 × 41.94] 0.568 × 1.564 [14.43 × 39.73] 0.504 × 1.372 [12.80 × 34.85] 1.187 [30.15] 1.110 [28.20] 0.921 [23.39] 0.830 [21.08] 1.185 [30.10] 1.123 [28.52] 0.986 [25.04]
0.717 × 1.901 [18.21 × 48.29] 0.681 × 1.793 [17.30 × 45.54] 0.593 × 1.529 [15.06 × 38.84] 0.551 × 1.403 [14.00 × 35.64] 0.716 × 1.898 [18.19 × 48.21] 0.687 × 1.811 [17.45 × 46.00] 0.623 × 1.619 [15.82 × 41.12] 0.728 × 1.754 [18.49 × 44.55] 0.692 × 1.646 [17.58 × 41.81] 0.604 × 1.383 [15.34 × 35.13] 0.562 × 1.256 [14.27 × 31.90] 0.727 × 1.751 [18.47 × 44.48] 0.698 × 1.664 [17.73 × 42.27] 0.634 × 1.473 [16.10 × 37.41] 1.357 [34.47] 1.280 [32.51] 1.091 [27.71] 1.000 [25.40] 1.355 [34.42] 1.293 [32.84] 1.156 [29.36]
1.62 [2.41] 1.40 [2.08] 1.01 [1.50] 0.81 [1.21] 1.69 [2.51] 1.38 [2.05] 1.06 [1.58] 1.70 [2.53] 1.38 [2.05] 1.02 [1.52] 0.82 [1.22] 1.73 [2.57] 1.40 [2.08] 1.08 [1.61] 1.72 [2.56] 1.48 [2.20] 1.05 [1.56] 0.83 [1.24] 1.79 [2.66] 1.46 [2.17] 1.11 [1.65]
Notes: Dimensions are nominal. Weight tolerance is ±4 %. Materials and specifications are subject to change without notice. † Tolerances, in. [mm]: insulation, ±0.012 [0.305]; jacket, ±0.015 [0.381]; overall, minor, ±0.020 [0.508], major, ±0.045 [1.143] ‡ Tolerances, in. [mm]: insulation, ±0.012 [0.305]; jacket, minor, ±0.030 [0.762], major, ±0.040 [1.016]; overall, minor, ±0.040 [1.016], major, ±0.045 [1.143] § Tolerances, in. [mm]: insulation, ±0.012 [0.305]; jacket, ±0.030 [0.762]; overall, ±0.035 [0.889]
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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Redahot Cable Applications
Description
■
All cable designs in the Redahot* ESP power cable family use a proprietary EPDM insulation (designated E) and an oil-resistant nitrile jacket (designated O). Several common cable designs in the family are shown. Many other designs are available depending on the options selected. As with all REDA* ESP power cables, any cable can be manufactured using RedaTube* cable manufacturing technology. These cables are useful when a hydraulic conduit is required for operation of safety valves, chemical injection, or other similar applications.
■
Electrical power cable for submersible pumping systems Conductors rated for well temperatures from 220 to 350°F [121 to 177°C]
Benefits ■
■
■
Contains barrier to prevent failure from chemical attack and gas decompression Includes alloy coating for corrosion protection Offers armor options to resist corrosion and mechanical damage
Features ■ ■
■
■
■
Alloy-coated copper conductors Ethylene propylene diene methylene (EPDM) insulation Option of taped and extruded barriers Patented EPDM and nitrile rubber jacket compounds Cable armor standard with steel strips and galvanized coating on all sides
Power Cable
■
Components Alloy coating provides corrosion protection for copper and prevents degradation of the adhesive bond between conductor and the EPDM insulation. EPDM insulation compounds provide the optimum combination of electrical, physical, and chemical properties. Barriers prevent failure from chemical attack and gas decompression, enabling performance in high-temperature wells with hostile environments or high gas/oil ratios. Armor options can improve resistance to corrosion and mechanical damage.
Redahot Cable
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EO
ESO
ETBO
350 No. 2/0 Conductor No. 1/0 Conductor No. 1 Conductor No. 2 Conductor No. 4 Conductor No. 6 Conductor
300 250 Maximum conductor current, A
200 150 100 50 0 0
50
100
150
200
250
300
Maximum well temperature, °F
Description
(EO) G4R
(EO) G5R
(ESO) G5R
(ETBO) G4R
(ETBO) G5R
AWG Conductor Size/Type
Conductor Diameter, in. [mm]
Insulation Diameter, in. [mm]
Jacket Diameter, in. [mm]
Overall Dimensions, in. [mm]
Unit Weight, lbm/ft [kg/m]
1/stranded 2/stranded 4/solid 6/solid 1/compacted 2/compacted 4/solid 1/compacted 1/solid 2/compacted 2/solid 4/solid 1/stranded 2/stranded 4/solid 6/solid 1/compacted 2/compacted 4/solid
0.328 [8.33] 0.292 [7.42] 0.204 [5.18] 0.162 [4.11] 0.297 [7.54] 0.268 [6.81] 0.204 [5.18] 0.297 [7.54] 0.289 [7.34] 0.268 [6.81] 0.258 [6.55] 0.204 [5.18] 0.328 [8.33] 0.292 [7.42] 0.204 [5.18] 0.162 [4.11] 0.297 [7.54] 0.268 [6.81] 0.204 [5.18]
0.478 [12.14] 0.442 [11.22] 0.354 [8.99] 0.312 [7.92] 0.477 [12.12] 0.448 [11.38] 0.384 [9.75] 0.477 [12.12] 0.469 [11.91] 0.448 [11.37] 0.438 [11.13] 0.384 [9.75] 0.478 [12.14] 0.442 [11.22] 0.354 [8.99] 0.312 [7.92] 0.477 [12.12] 0.448 [11.37] 0.384 [9.75]
1.187 [30.15] 1.110 [28.19] 0.921 [23.39] 0.830 [21.08] 1.185 [30.09] 1.123 [28.52] 0.986 [25.04] 1.228 [31.19] 1.212 [30.78] 1.166 [29.62] 1.143 [29.03] 1.029 [26.14] 1.209 [30.71] 1.131 [28.73] 0.943 [23.95] 0.852 [21.64] 1.207 [30.66] 1.144 [29.06] 1.007 [25.58]
1.357 [34.47] 1.280 [32.51] 1.091 [27.71] 1.000 [25.40] 1.355 [34.42] 1.293 [32.84] 1.156 [29.36] 1.398 [35.51] 1.382 [35.10] 1.336 [33.93] 1.313 [33.35] 1.199 [30.45] 1.379 [35.03] 1.301 [33.05] 1.113 [28.27] 1.022 [25.96] 1.377 [34.98] 1.314 [33.38] 1.177 [29.90]
1.75 [2.60] 1.50 [2.23] 1.07 [1.59] 0.85 [1.26] 1.83 [2.72] 1.49 [2.22] 1.15 [1.71] 1.84 [2.74] 1.80 [2.68] 1.59 [2.37] 1.55 [2.31] 1.22 [1.82] 1.79 [2.66] 1.54 [2.29] 1.11 [1.65] 0.89 [1.32] 1.87 [2.78] 1.53 [2.28] 1.19 [1.77]
Notes: Dimensions are nominal. Weight tolerance is ±4 %. Materials and specifications are subject to change without notice. Tolerances, in. [mm]: insulation, ±0.012 [0.305]; jacket, ±0.030 [0.762]; overall, ± 0.035 [0.889]
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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Redablack Cable Applications
Description
■
All cable designs in the Redablack* ESP power cable family use a proprietary EPDM insulation formulation and EPDM jacket (both designated E). This specialized EPDM insulation is based on experience in rubber compounding and mixing for the oil industry. Several common cable designs in the family are shown. Many other designs are available depending on the options selected. As with all REDA* ESP power cables, any cable can be manufactured using RedaTube* cable manufacturing technology. These cables are useful when a hydraulic conduit is required for operation of safety valves, chemical injection, or other similar applications.
■
Electrical power cable for submersible pumping systems Conductors rated for well temperatures from 300 to 400°F [149 to 204°C]
Benefits ■
■
■
■
Includes alloy coating for corrosion protection Contains barrier to prevent failures from chemical attack and gas decompression Uses jacket compounds to increase physical properties and temperature capabilities Offers armor options to resist gas, corrosion, and mechanical damage
Features ■ ■
■
■
Alloy-coated copper conductors Option of taped and extruded barriers Proprietary ethylene propylene diene methylene (EPDM) rubber jacket compounds Cable armor standard with steel strips and a galvanized coating on all sides
Power Cable
■
EFE
ETBE-400
Components The conductor temperature range is 300 to 400°F [149 to 204°C]. Alloy coating provides corrosion protection for the copper conductors and prevents degradation of the adhesive bond between the conductor and the EPDM insulation. Barriers prevent failures from chemical attack and gas decompression, enabling performance in hightemperature wells with hostile environments or high gas/oil ratios. Several types of taped and extruded barriers are available. Jacket compounds provide exceptional physical properties and temperature capabilities. Cable armor made from steel strips featuring a galvanized coating on all sides is standard. Armor options can improve resistance to gas, corrosion, and mechanical damage.
Redablack Cable
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EER
ETBEF-300
Redablack 300 Round 400
No. 2/0 Conductor No. 1/0 Conductor No. 1 Conductor No. 2 Conductor No. 4 Conductor No. 6 Conductor
350 300 Maximum conductor current, A
Redablack 400 Round
250
Maximum conductor current, A
200 150 100 50 0 0
50
100
150
200
250
300
350
450 400 350 300 250 200 150 100 50 0
No. 2/0 Conductor No. 1/0 Conductor No. 1 Conductor No. 2 Conductor No. 4 Conductor No. 6 Conductor
0
50 100 150 200 250 300 350 400 450 Maximum well temperature, °F
Maximum well temperature, °F
Description
(EER)
G5R†
(ETBE-400) G5R†
(EFE) G5R†
(EEF) GG5F‡
(ETBEF-300) G5F‡
AWG Conductor Size/Type
Conductor Diameter, in. [mm]
Insulation Diameter, in. [mm]
Jacket Diameter, in. [mm]
Overall Dimensions, in. [mm]
Unit Weight, lbm/ft [kg/m]
1/compacted
0.297 [7.54]
0.477 [12.12]
1.185 [30.10]
1.355 [34.44]
1.86 [2.77]
2/compacted 4/solid 1/compacted 1/solid 2/compacted 2/solid 4/solid 1/compacted 1/solid 2/compacted 2/solid 4/solid 1/compacted 2/compacted 4/solid 1/compacted 2/compacted 4/solid
0.268 [6.81] 0.204 [5.18] 0.297 [7.54] 0.289 [7.34] 0.268 [6.81] 0.258 [6.55] 0.204 [5.18] 0.297 [7.54] 0.289 [7.34] 0.268 [6.81] 0.258 [6.55] 0.204 [5.18] 0.297 [7.54] 0.268 [6.81] 0.204 [5.18] 0.297 [7.54] 0.268 [6.81] 0.204 [5.18]
0.448 [11.38] 0.384 [9.75] 0.477 [12.12] 0.469 [11.91] 0.448 [11.38] 0.438 [11.12] 0.384 [9.75] 0.477 [12.12] 0.469 [11.91] 0.448 [11.38] 0.438 [11.12] 0.384 [9.75] 0.477 [12.12] 0.448 [11.38] 0.384 [9.75] 0.477 [12.12] 0.448 [11.38] 0.384 [9.75]
1.123 [28.52] 0.986 [25.04] 1.215 [30.86] 1.199 [30.45] 1.153 [29.29] 1.130 [28.70] 1.016 [25.81] 1.228 [31.19] 1.212 [30.78] 1.166 [29.62] 1.143 [29.03] 1.029 [26.14] 0.597 × 1.650 [15.16 × 41.91] 0.568 × 1.560 [14.43 × 39.62] 0.504 × 1.372 [12.80 × 34.85] 0.611 × 1.690 [15.52 × 42.93] 0.582 × 1.606 [14.78 × 40.79] 0.518 × 1.410 [13.16 × 35.81]
1.293 [32.84] 1.156 [29.36] 1.385 [35.18] 1.369 [34.77] 1.323 [33.60] 1.300 [33.02] 1.186 [30.12] 1.398 [35.51] 1.382 [35.10] 1.336 [33.93] 1.313 [33.35] 1.199 [30.45] 0.837 × 1.831 [21.26 × 46.51] 0.808 × 1.744 [20.52 × 44.30] 0.744 × 1.552 [18.90 × 39.42] 0.741 × 1.793 [18.82 × 45.54] 0.712 × 1.706 [18.08 × 43.33] 0.648 × 1.514 [16.46 × 38.46]
1.52 [2.26] 1.17 [1.74] 1.92 [2.86] 1.80 [2.68] 1.57 [2.34] 1.55 [2.31] 1.22 [1.82] 1.94 [2.89] 1.83 [2.72] 1.60 [2.38] 1.58 [2.35] 1.24 [1.85] 2.43 [3.62] 2.08 [3.10] 1.69 [2.51] 1.75 [2.60] 1.53 [2.28] 1.18 [1.76]
Notes: Dimensions are nominal. Weight tolerance is ±4 %. Materials and specifications are subject to change without notice. † Tolerances, in. [mm]: insulation, ±0.012 [0.305]; jacket, ±0.030 [0.762]; overall, ±0.035 [0.889] ‡ Tolerances, in. [mm]: insulation, ±0.012 [0.305]; jacket, minor, ±0.030 [0.762], major, ±0.040 [1.016]; overall, minor, ±0.040 [1.016], major, ±0.045 [1.143]
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Redalead Cable Applications
Description
■
All cable designs in the Redalead* ESP power cable family use a proprietary EPDM insulation formulation (designated E) and an impervious lead barrier (designated L). Common cable designs in the family are shown. Many other designs are available depending on the options selected. As with all REDA* ESP power cables, any cable can be manufactured using RedaTube* cable manufacturing technology. These cables are useful when a hydraulic conduit is required for operation of safety valves, chemical injection, or other similar applications.
■
Electrical power cable for submersible pumping systems Conductors rated for well temperatures from 400 to 450°F [204 to 232°C]
Benefits ■
■
■
Alloy coating for corrosion protection Lead barrier to prevent failure from chemical attack and gas decompression Armor options to resist gas, corrosion, and mechanical damage
Features ■ ■
■
■ ■
Alloy-coated copper conductors Ethylene propylene diene methylene (EPDM) insulation Fatigue- and corrosion-resistant lead Various barrier and jacket types Cable armor standard with steel strips and a galvanized coating on all sides
Power Cable
■
ELB
Components The conductor alloy coating provides corrosion protection for the copper and prevents degradation of the adhesive bond between the conductor and the EPDM insulation. Insulation compounds provide the optimum combination of electrical, physical, and chemical properties. The conductor temperature range is 400 to 450°F [204 to 232°C] based on the options selected. A lead barrier prevents failure from chemical attack and gas decompression, enabling performance in high-temperature wells with hostile environments or high gas/oil ratios. Additional barriers and jacket types are available to prevent mechanical damage and to maximize cable run life. Armor options can improve resistance to gas, corrosion, and mechanical damage.
Redalead Cable
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ELBE
Redalead Flat
Redalead Round
400 No. 2/0 Conductor No. 1/0 Conductor No. 1 Conductor No. 2 Conductor No. 4 Conductor No. 6 Conductor
350 300 Maximum conductor current, A
250 200 150
Maximum conductor current, A
100 50 0 0
450 400 350 300 250 200 150 100 50 0
50 100 150 200 250 300 350 400 450 500
0
Maximum well temperature, °F
Description
(ELB) G4F†
(ELB) G5F†
(ELBE) G4R‡
(ELBE) G5R‡
(ELTB) G4F†
No. 2/0 Conductor No. 1/0 Conductor No. 1 Conductor No. 2 Conductor No. 4 Conductor No. 6 Conductor
50 100 150 200 250 300 350 400 450 Maximum well temperature, °F
AWG Conductor Size/Type
Conductor Diameter, in. [mm]
Insulation Diameter, in. [mm]
Jacket Diameter, in. [mm]
Overall Dimensions, in. [mm]
Unit Weight, lbm/ft [kg/m]
1/stranded 2/stranded 4/solid 6/solid 1/compacted 2/compacted 4/solid 1/stranded 2/stranded 4/solid 6/solid 1/compacted 2/compacted 4/solid 1/stranded 2/stranded 4/solid 6/solid
0.328 [8.33] 0.292 [7.42] 0.204 [5.18] 0.162 [4.11] 0.297 [7.54] 0.268 [6.81] 0.204 [5.18] 0.328 [8.33] 0.292 [7.42] 0.204 [5.18] 0.162 [4.11] 0.297 [7.54] 0.268 [6.81] 0.204 [5.18] 0.328 [8.33] 0.292 [7.42] 0.204 [5.18] 0.162 [4.11]
0.464 [11.79] 0.428 [10.87] 0.320 [8.13] 0.278 [7.06] 0.447 [11.35] 0.418 [10.62] 0.354 [8.99] 0.464 [11.79] 0.428 [10.87] 0.320 [8.13] 0.278 [7.06] 0.447 [11.35] 0.418 [10.62] 0.354 [8.99] 0.464 [11.79] 0.428 [10.87] 0.320 [8.13] 0.278 [7.06]
0.544 [13.82] 0.508 [12.90] 0.400 [10.16] 0.358 [9.09] 0.527 [13.39] 0.498 [12.65] 0.434 [11.02] 1.345 [34.16] 1.268 [32.21] 1.036 [26.31] 0.944 [23.98] 1.309 [33.25] 1.246 [31.65] 1.109 [28.17] 0.544 [13.82] 0.508 [12.90] 0.400 [10.16] 0.358 [9.09]
0.669 × 1.757 [17.00 × 44.63] 0.633 × 1.649 [16.08 × 41.88] 0.525 × 1.325 [13.34 × 33.66] 0.483 × 1.199 [12.27 × 30.45] 0.652 × 1.706 [16.56 × 43.33] 0.623 × 1.619 [15.82 × 41.12] 0.559 × 1.427 [14.20 × 36.25] 1.515 [38.48] 1.438 [36.52] 1.206 [30.63] 1.114 [28.30] 1.479 [37.57] 1.416 [35.97] 1.279 [32.49] 0.673 × 1.769 [17.09 × 44.93] 0.637 × 1.661 [16.18 × 42.19] 0.529 × 1.337 [13.44 × 33.96] 0.487 × 1.211 [12.37 × 30.76]
2.37 [3.53] 2.09 [3.11] 1.50 [2.23] 1.24 [1.85] 2.39 [3.56] 2.02 [3.01] 1.62 [2.41] 2.85 [4.24] 2.53 [3.77] 1.84 [2.74] 1.53 [2.28] 2.78 [4.14] 2.49 [3.71] 1.99 [2.96] 2.38 [3.54] 2.10 [3.13] 1.50 [2.23] 1.24 [1.85]
Notes: Dimensions are nominal. Weight tolerance is ±4 %. Materials and specifications are subject to change without notice. † Tolerances, in. [mm]: insulation, ±0.012 [0.305]; jacket, ±0.015 [0.381]; overall, minor: ± 0.020 [0.508], major, ± 0.045 [1.143] ‡ Tolerances, in. [mm]: insulation, ±0.012 [0.305]; jacket, ±0.030 [0.762]; overall, ±0.035 [0.889]
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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RedaCDC Cable Applications
Description
■
With materials specifically designed for Southeast Asia, the RedaCDC* ESP power cable family offers many options for tailoring the cable design to a precise set of operating conditions. All RedaCDC cables use a proprietary EPDM insulation formulation (designated SE) compounded for the high temperatures and high gas/oil ratio conditions of Southeast Asia. Common cable designs in the family are shown. Many other designs are available depending on the options selected. As with all REDA* ESP power cables, any cable can be manufactured using RedaTube* cable manufacturing technology. These cables are useful when a hydraulic conduit is required for operation of safety valves, chemical injection, or other similar applications.
■
Electrical power cable for submersible pumping systems Conductors rated for well temperatures from 300 to 400°F [149 to 204°C]
Benefits ■
■
■
Contains alloy for corrosion protection Includes barrier to prevent failures from chemical attack and gas decompression Provides armor options to resist gas, corrosion, and mechanical damage
Features ■ ■
■
■
■
Alloy-coated copper conductors Ethylene propylene diene methylene (EPDM) insulation Option of taped and extruded barriers Proprietary EPDM and nitrile rubber jacket compounds Cable armor standard with steel strips and a galvanized coating on all sides
Power Cable
■
Components Alloy coating provides corrosion protection for copper and prevents degradation of the adhesive bond between conductor and the EPDM insulation. Insulation compounds provide the optimum combination of electrical, physical, high-temperature, and chemical properties. The conductor temperature range is 300 to 400°F [149 to 204°C] based on the options selected. Barriers prevent failures from attack and gas decompression, ensuring superior performance in high-temperature wells with hostile environments or wells with high gas/oil ratios. Several types of taped and extruded barriers are available. Armor options can improve resistance to gas, corrosion, and mechanical damage.
RedaCDC Cable
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SESO
SEFE
SETBO
SETBE-400
Description
(SESO) G5R†
(SEFE) G5R†
(SETBO) G5R†
(SETBE-400) G5R†
AWG Conductor Size/Type
Conductor Diameter, in. [mm]
Insulation Diameter, in. [mm]
Jacket Diameter, in. [mm]
Overall Dimensions, in. [mm]
Unit Weight, lbm/ft [kg/m]
1/compacted 1/solid 2/compacted 2/solid 4/solid 1/compacted 1/solid 2/compacted 2/solid 4/solid 1/compacted 1/solid 2/compacted 2/solid 4/solid 1/compacted 1/solid 2/compacted 2/solid 4/solid
0.297 [7.54] 0.289 [7.34] 0.268 [6.81] 0.258 [6.55] 0.204 [5.18] 0.297 [7.54] 0.289 [7.34] 0.268 [6.81] 0.258 [6.55] 0.204 [5.18] 0.297 [7.54] 0.289 [7.34] 0.268 [6.81] 0.258 [6.55] 0.204 [5.18] 0.297 [7.54] 0.289 [7.34] 0.268 [6.81] 0.258 [6.55] 0.204 [5.18]
0.477 [12.12] 0.469 [11.91] 0.448 [11.38] 0.438 [11.13] 0.384 [9.75] 0.477 [12.12] 0.469 [11.91] 0.448 [11.38] 0.438 [11.13] 0.384 [9.75] 0.477 [12.12] 0.469 [11.91] 0.448 [11.38] 0.438 [11.13] 0.384 [9.75] 0.477 [12.12] 0.469 [11.91] 0.448 [11.38] 0.438 [11.13] 0.384 [9.75]
1.228 [31.19] 1.212 [30.78] 1.166 [29.62] 1.143 [29.03] 1.029 [26.14] 1.228 [31.19] 1.212 [30.78] 1.166 [29.62] 1.143 [29.03] 1.029 [26.14] 1.207 [30.66] 1.190 [30.23] 1.144 [29.06] 1.122 [28.50] 1.007 [25.58] 1.215 [30.86] 1.199 [30.45] 1.153 [29.29] 1.130 [28.70] 1.016 [25.81]
1.398 [35.51] 1.382 [35.10] 1.336 [33.93] 1.313 [33.35] 1.199 [30.45] 1.398 [35.51] 1.382 [35.10] 1.336 [33.93] 1.313 [33.35] 1.199 [30.45] 1.377 [34.98] 1.360 [34.54] 1.314 [33.38] 1.292 [32.82] 1.177 [29.90] 1.385 [35.18] 1.369 [34.77] 1.323 [33.60] 1.300 [33.02] 1.186 [30.12]
1.84 [2.74] 1.80 [2.68] 1.59 [2.37] 1.55 [2.31] 1.22 [1.82] 1.94 [2.89] 1.83 [2.72] 1.60 [2.38] 1.58 [2.35] 1.24 [1.85] 1.87 [2.78] 1.75 [2.60] 1.53 [2.28] 1.51 [2.25] 1.19 [1.77] 1.92 [2.86] 1.80 [2.68] 1.57 [2.34] 1.55 [2.31] 1.22 [1.82]
Notes: Dimensions are nominal. Weight tolerance is ±4 %. Materials and specifications are subject to change without notice. † Tolerances, in. [mm]: insulation, ±0.012 [0.305]; jacket, ±0.030 [0.762]; overall, ±0.035 [0.889]
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
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RedaValu Cable Applications
Description
■
RedaValu* electrical power transmission cables are intended for use in low-temperature, nonaggressive wells. This cable type is a cost-effective alternative to Redalene* flat cables and conductors. The RedaValu cables utilize the same polypropylene insulation (designated P) and tape and braid (designated TB) as the Redalene cables, but the oil-resistant nitrile jacket has been eliminated to reduce the overall cost of the cable system. As with all REDA* ESP power cables, any cable can be manufactured using RedaTube* cable manufacturing technology. These cables are useful when a hydraulic conduit is required for operation of safety valves, chemical injection, or other similar applications.
■
Electrical power cable for submersible pumping systems Conductors rated for well temperatures to 205°F [96°C]
Benefits ■
■
■
Contains alloy coating for corrosion protection Includes polypropylene copolymer insulation to resist damage and chemicals Uses fluorocarbon tape barrier to protect the insulation from chemical attack
Features ■ ■
■ ■
Alloy-coated copper conductors Proprietary polypropylene copolymer insulation Fluorocarbon tape barrier Cable armor standard with steel strips and a galvanized coating on all sides
Power Cable
■
Components The alloy coating provides corrosion protection for the copper and improves long-term electrical properties of the insulation. Unique polypropylene copolymer gives improved damage and chemical resistance while improving low-temperature flexibility over standard polypropylene insulation. Fluorocarbon tape barrier is used to protect the insulation from chemical attack. The conductors are made of alloycoated copper. Insulation consists of a proprietary polypropylene copolymer. The barrier is fluorocarbon tape. Cable armor made from steel strips featuring a galvanized coating on all sides is standard.
RedaValu Cable
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PTB G4R
Description
PTB G4R
AWG Conductor Size/Type
Conductor Diameter, in. [mm]
Insulation Diameter, in. [mm]
Jacket Diameter, in. [mm]
Overall Dimensions, in. [mm]
Unit Weight, lbm/ft [kg/m]
2/stranded 4/solid 6/solid
0.292 [7.42] 0.204 [5.18] 0.162 [4.11]
0.442 [11.23] 0.354 [8.99] 0.312 [7.92]
0.562 × 1.546 [14.27 × 39.27] 0.474 × 1.283 [12.04 × 32.59] 0.432 × 1.156 [10.97 × 29.36]
1.463 × 0.571 [37.16 × 14.50] 1.199 × 0.483 [30.45 × 12.27] 1.073 × 0.441 [27.25 × 11.20]
1.17 [1.74] 0.81 [1.21] 0.62 [0.92]
Notes: Dimensions are nominal. Weight tolerance is ±4 %. Materials and specifications are subject to change without notice. Tolerances, in. [mm]: insulation, ±0.012 [0.305]; jacket, ±0.030 [0.762]; overall, ±0.040 [1.016]
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RedaSurface Cable Applications ■
For use in conduit and cable trays or for direct burial
Benefits ■
Meets the physical and environmental demands for surface use
Features ■
■
Available in three configurations and a range of conductor sizes Armored configurations protected by galvanized-steel interlocking armor
Description RedaSurface* electrical power transmission cables are designed to meet the tough physical and environmental demands for surface use in the petroleum industry. In addition, the cables are listed by UL. These cables are MV90 type, rated to 5,000 V, and meet the requirements of UL1072, the specification for medium-voltage power cables. The cables are intended for use in accordance with the National Electrical Code. RedaSurface cables are available in three configurations and in conductor sizes ranging from No. 4 to 1/0 AWG.
Power Cable
■
Cable designs in the RedaSurface family use a semiconductive tape (designated T) over the alloy-coated copper conductors, ethylene propylene insulation (designated E), bare copper grounding conductor, and solid nitrile-polyvinyl chloride jacket (designated OPVC) to protect the underlying components. The armored configurations are protected by galvanized-steel interlocking armor.
TEOPVC
Cable configurations Top: The TEOPVC cable configuration is for use in conduit and has the standard jacketed cable core without armor or extruded outer covering, allowing the cable to be pulled through conduit or tubing.
TEOPVC G5R
Middle: The TEOPVC G5R configuration is for use in cable trays and has a layer of galvanized-steel armor over the cable core. Bottom: The TEOPVC G5R PVC cable is rated for direct burial and comprises the standard cable core, a layer of interlocking galvanized-steel armor, and PVC outer jacket. These cables feature an extruded outer jacket of sunlight- and oil-resistant PVC that protects the cable from the environment. Direct burial cables offer an economical alternative to cable installed in conduit.
RedaSurface Cable
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TEOPVC G5R PVC
Description
(TEOPVC) G5R
(TEOPVC) PVC G5R
AWG Conductor Size/Type
Conductor Diameter, in. [mm]
Insulation Diameter, in. [mm]
Jacket Diameter, in. [mm]
Overall Dimensions, in. [mm]
Unit Weight, lbm/ft [kg/m]
1/compacted 2/compacted 4/solid 1/compacted 2/compacted 4/solid
0.297 [7.54] 0.268 [6.81] 0.204 [5.18] 0.297 [7.54] 0.268 [6.81] 0.204 [5.18]
0.509 [12.93] 0.480 [12.19] 0.416 [10.57] 0.509 [12.93] 0.480 [12.19] 0.416 [10.57]
1.296 [32.92] 1.233 [31.32] 1.096 [27.84] 1.296 [32.92] 1.233 [31.32] 1.096 [27.84]
1.456 [36.98] 1.393 [35.38] 1.256 [31.90] 1.511 [38.38] 1.448 [36.78] 1.311 [33.30]
1.79 [2.66] 1.58 [2.35] 1.24 [1.85] 1.93 [2.87] 1.72 [2.56] 1.36 [2.02]
Notes: Dimensions are nominal. Weight tolerance is ±4 %. Materials and specifications are subject to change without notice. Tolerances, in. [mm]: insulation, ±0.012 [0.305]; jacket, ±0.030 [0.762]; overall, ±0.040 [1.016]
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ESP Catalog
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RedaTube Cable Technology Applications
Description
■
In addition to three-conductor REDA ESP power cable designs, there is RedaTube* cable technology for integral stainless-steel tubing. This tubing can be used for chemical injection or downhole control applications. Round and flat designs with the integral tube are shown. Cost-effective manufacturing incorporates the injection tube during the phase conductor cabling operation, resulting in an accurate amount of armor material. The overall cable size is limited to 3.25-in. [82.55-mm] OD for round cable or maximum axis diameter for a flat cable design. Two standard sizes of injection tube are available: ■ 0.375-in. [9.53-mm] OD, 0.049-in. [1.25-mm] wall 316L stainless steel ■ 0.3125-in. [7.94-mm] OD, 0.049-in. [1.25-mm] wall 316L stainless steel Working pressure ratings are 4,900 psig [33,786 kPa] and 5,900 psig [40,681 kPa], respectively, for the 0.375- [9.53-] and 0.3125-in. [7.94-mm] OD tubes. (Burst pressures are much higher.) Other sizes of tube and materials are available as special order items.
■
Electrical power cable for submersible pumping systems Hydraulic conduit for operation of safety valves, chemical injection, or other similar applications
Benefits ■
■
Combines the power cable and injection tube into one package, simplifies workover operations, and prevents damage to the tubing. Includes round cable that is more resistant to mechanical damage, and rolls around restrictions encountered during installation.
Features ■
■
One layer of light composite armor with the injection tube in the cable core provides a smaller overall diameter. All REDA* ESP power cables for submersible pumps can be manufactured with an injection tube incorporated.
Power Cable
■
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
RedaTube Cable Technology
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Motorlead Extensions Applications
Description
■
Our motorlead extension (MLE) designs provide the optimal combination of installation clearance and downhole performance. The primary insulation of polyimide is used to significantly reduce cable dimensions. The same proprietary materials used in REDA* ESP power cables are employed in the MLE designs as secondary insulations and jackets to maximize system reliability. Several common MLE designs are shown.
■
Electrical power cable for submersible pumping systems Conductors rated for well temperatures from 250 to 450°F [121 to 232°C]
Benefits ■
■
Contains ethylene propylene diene methylene (EPDM) insulation compounds for optimal combination of electrical, physical, and chemical properties Includes barrier to prevent failures from chemical attack and gas decompression
Features ■
■
■
■
Fully annealed, high-conductivity copper components Lead and fluorocarbon tape barriers Proprietary nitrile rubber jacket compound in the KEOTB Standard galvanized steel and MONEL® armor
Power Cable
■
KEOTB
Components Conductor components are made from fully annealed, high-conductivity copper conductors. Primary insulation is made of dual layers of polyimide tape. Secondary insulation is a proprietary EPDM compound. Lead and fluorocarbon tape barriers prevent failures from chemical attack and gas decompression. Proprietary nitrile rubber compound with exceptional physical properties and oil resistance is used in the KEOTB jacket design. Galvanized steel and MONEL armor are standard.
Motorlead Extensions
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KELB
KELTB
300 No. 1 Conductor No. 2 Conductor No. 4 Conductor No. 6 Conductor
250 200 Maximum conductor current, A
150 100 50 0 0
50
100
150
200
250
300
350
400
450
500
Maximum well temperature, °F
Description
(KEOTB) G4F
(KEOTB) M4F
(KELB) G4F
(KELB) M4F
(KELB) G5F (KELB) M5F (KELTB-LP) G3F (KELTB-LP) M3F
AWG Conductor Size/Type
Conductor Diameter, in. [mm]
Insulation Diameter, in. [mm]
Jacket Diameter, in. [mm]
Overall Dimensions, in. [mm]
Unit Weight, lbm/ft [kg/m]
2/solid 4/solid 6/solid 2/solid 4/solid 6/solid 2/solid 4/solid 6/solid 2/solid 4/solid 6/solid 4/solid 6/solid 4/solid 6/solid 6/solid 6/solid
0.258 [6.55] 0.204 [5.18] 0.162 [4.11] 0.258 [6.55] 0.204 [5.18] 0.162 [4.11] 0.258 [6.55] 0.204 [5.18] 0.162 [4.11] 0.258 [6.55] 0.204 [5.18] 0.162 [4.11] 0.204 [5.18] 0.162 [4.11] 0.204 [5.18] 0.162 [4.11] 0.162 [4.11] 0.162 [4.11]
0.365 [9.27] 0.311 [7.90] 0.269 [6.83] 0.365 [9.27] 0.311 [7.90] 0.269 [6.83] 0.365 [9.27] 0.311 [7.90] 0.269 [6.83] 0.365 [9.27] 0.311 [7.90] 0.269 [6.83] 0.331 [8.41] 0.289 [7.34] 0.331 [8.41] 0.289 [7.34] 0.233 [5.92] 0.233 [5.92]
0.435 [11.05] 0.381 [9.68] 0.339 [8.61] 0.435 [11.05] 0.381 [9.68] 0.339 [8.61] 0.435 [11.05] 0.381 [9.68] 0.339 [8.61] 0.435 [11.05] 0.381 [9.68] 0.339 [8.61] 0.401 [10.19] 0.359 [9.12] 0.401 [10.19] 0.359 [9.12] 0.283 [7.19] 0.283 [7.19]
0.564 × 1.442 [14.33 × 36.63] 0.510 × 1.280 [12.95 × 32.51] 0.468 × 1.154 [11.89 × 29.31] 0.544 × 1.422 [13.82 × 36.12] 0.490 × 1.260 [12.44 × 32.00] 0.448 × 1.134 [11.38 × 28.80] 0.560 × 1.430 [14.22 × 36.32] 0.506 × 1.268 [12.85 × 32.21] 0.464 × 1.142 [11.79 × 29.01] 0.540 × 1.410 [13.72 × 35.81] 0.486 × 1.248 [12.34 × 31.70] 0.444 × 1.122 [11.28 × 28.50] 0.526 × 1.328 [13.36 × 33.73] 0.484 × 1.202 [12.29 × 30.53] 0.506 × 1.308 [12.85 × 33.22] 0.464 × 1.182 [11.79 × 30.02] 0.412 × 0.986 [10.46 × 25.04] 0.392 × 0.966 [9.96 × 24.54]
1.18 [1.76] 0.88 [1.31] 0.69 [1.03] 1.12 [1.67] 0.83 [1.24] 0.64 [0.95] 1.75 [2.60] 1.38 [2.05] 1.12 [1.67] 1.69 [2.51] 1.32 [1.96] 1.07 [1.59] 1.45 [2.16] 1.19 [1.77] 1.39 [2.07] 1.13 [1.68] 0.87 [1.29] 0.82 [1.22]
Notes: Dimensions are nominal. Weight tolerance is ±4 %. Materials and specifications are subject to change without notice. Tolerances, in. [mm]: insulation, ±0.010 [0.254]; jacket, ±0.012 [0.305]; overall, minor, ±0.020 [0.508], major, ±0.040 [1.016]
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger MONEL® is a registered trademark of Inco Alloys International, Inc.
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Lasalle Cable Protectors Applications
Introduction
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During the past 25 years, Lasalle* ESP cable protectors have been field proven in a wide array of oilfield applications and in many types of completions. Lasalle protectors from Schlumberger are used more often in subsea, deepwater, and extendedreach completions than any other type of cable protector. The all-cast crosscoupling cable protector is at the core of a wide range of manufactured products. Cast in either carbon or stainless steel, the Lasalle protectors are designed to ensure that all control lines and ESP power cables are protected for the full production string length. By protecting these components from crushing and abrasive forces during installation of the completion, Lasalle protectors extend the equipment run life, functionality, and operability of all downhole equipment. Without this protection, damage to the control line and cable could lead to premature malfunction or completion failure. Protectors can be custom designed to meet specific project requirements, or they can be adapted on site.
■ ■
ESP installations Completions with downhole gauges Intelligent and standard completions using control line, fiberoptic cable or electric cable
Benefits ■
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Molds control line and cable during installation Supports the control line rather than physically gripping it Prevents damage during dynamic motion of production tubing Demounts easily and allows reinstallation Reduces the risk of hang up during completion installation
Features ■ ■ ■ ■ ■ ■
■ ■ ■
Optimum standoff Reusable, one-piece design Optimized cable slot Maximized chamfers All cast construction Interlock design of hinge and fasteners Locator neck fixing position Weight-reducing pockets Unique flapper mechanism
Downhole Systems
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Crosscoupling cable protectors Lasalle crosscoupling cable protectors can be supplied in all-cast, strap-type, or slimline design. Strap-type protectors are only recommended when the internal drift of the casing is not sufficient to accommodate the all-cast design. However, the slimline protector design provides an all-cast protector for wells with restricted tubing or tight casing clearances.
Lasalle Cable Protectors
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Crosscoupling protectors are available for tubing sizes from 2 3⁄8 in. to 9 5⁄8 in. and can be produced for all coupling types and all control line and cable specifications. Continual design evolution of these protectors, based on client feedback, ensures that installation and removal of the protectors is simple and quick. When used with a pneumatic kit by an experienced rig crew, the preengaged hexagonal head bolt protector can be installed in approximately 20 s. The selflocating fastening mechanism minimizes the potential for thread damage.
Harsh environment cable protector In subsea wells, the completion string is subjected to excessive cyclical action caused by heave, rig misalignment, or both. Harsh environment protectors are available for tubing sizes from 3 in. to 7 in. and can be provided for all coupling types and all control line and cable specifications.
Motorlead extension cable protector Two motorlead extension (MLE) protectors are available in an all-cast body design, typically with a stainless steel saddle clamp. One MLE protector is specifically for the pothead location and the other is for the tandem equipment above and below the motor pothead. The MLE designs are centralized or noncentralized types to meet specific completion requirements. These protectors can be provided to meet all pump string combinations and all control line and cable specifications. Lasalle MLE protectors are designed for quick and simple installation. These protectors are typically designed with a preengaged hexagonal head bolt. Because this mechanism is self-locating, the potential for thread damage is minimized, saving time during installation.
Special application cable protectors Subsurface safety valve protector The patented design protects the control line and cable while it is bypassing large-diameter equipment. The unique flapper mechanism molds the control line and cable without rig crew assistance to ensure the control line and cable are lifted from the tubing to exit the protector parallel to the valve body. The protector securely captures the control line and cable in the protector body. The unit is designed to resist axial movement by locating a cast internal lip profile in the gap between the flow coupling and the equipment sub or a groove machined in the flow coupling. This protector is available for popular tubing sizes, and the range of sizes is being extended continuously. The standard Lasalle subsurface safety valve (SSSV) control line protector is available for all tubing sizes. Side-pocket mandrel protector In conjunction with the development of the new SSSV control line/cable protector, a new side-pocket mandrel (SPM) protector has also been developed. This unit incorporates the same protection capabilities as the SSSV control line protector, with the exception of the flapper mechanism. The minimal step between the tubing and the mandrel body leaves insufficient room to locate the flapper in this unit. This protector is available for popular tubing sizes, and the range of sizes is being extended continuously. The standard Lasalle SPM protector is available for all tubing sizes.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
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Power Cable Polyethylene (PPEPE) Round Cable Description
Unarmored, 4-kV voltage rating
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
1/stranded 2/stranded 4/solid 6/solid
1.187 [30.15] 1.110 [28.19] 0.921 [23.39] 0.830 [21.08]
1.19 [1.77] 0.98 [1.46] 0.63 [0.94] 0.45 [0.67]
738567 318865 738575 738583
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
1/stranded compacted 2/stranded compacted 4/solid 4/solid 6/solid 1/stranded 2/stranded 4/solid 6/solid 1/stranded 4/solid
0.72 × 1.90 [18.19 × 48.21] 0.69 × 1.81 [17.45 × 46.00] 0.62 × 1.62 [15.82 × 41.12] 0.59 × 1.53 [15.06 × 38.84] 0.55 × 1.40 [14.00 × 35.64] 0.72 × 1.90 [18.21 × 48.29] 0.68 × 1.79 [17.30 × 45.54] 0.59 × 1.53 [15.06 × 38.84] 0.55 × 1.40 [14.00 × 35.64] 0.72 × 1.90 [18.21 × 48.29] 0.59 × 1.53 [15.06 × 38.84]
1.69 [2.51] 1.38 [2.05] 1.06 [1.58] 1.01 [1.50] 0.81 [1.21] 1.62 [2.41] 1.40 [2.08] 1.01 [1.50] 0.81 [1.21] 1.69 [2.51] 1.07 [1.59]
977199 977207 901587 1156934 1179936 507582 508002 508291 508648 818625 1044288
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
1/stranded compacted 2/stranded compacted 4/solid 6/solid
0.73 × 1.75 [18.47 × 44.48] 0.67 × 1.64 [17.73 × 42.27] 0.60 × 1.38 [15.34 × 35.13] 0.56 × 1.26 [14.27 × 31.90]
1.73 [2.57] 1.40 [2.08] 1.02 [1.52] 0.82 [1.22]
1011022 1011048 1022557 1046341
Redalene* POTB Flat Cable Description
Galvanized armor, 5-kV voltage rating Galvanized armor, 4-kV voltage rating, low temperature
Galvanized armor, 4-kV voltage rating
MONEL ® armor, 4-kV voltage rating
Redalene POF Flat Cable Description
Galvanized armor, 5-kV voltage rating Galvanized armor, 4-kV voltage rating
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger MONEL® is a registered trademark of Inco Alloys International, Inc.
Power Cable
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Redalene* PPEO Round Cable Description
Galvanized armor, 5-kV voltage rating
MONEL® armor, 5-kV voltage rating Flat profile, galvanized armor, 4-kV voltage rating
Galvanized armor, 4-kV voltage rating
MONEL armor, 4-kV voltage rating
Flat profile, stainless steel armor, 4-kV voltage rating Stainless steel armor, 4-kV voltage rating
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
1/0/stranded compacted 1/stranded compacted 2/0/stranded 2/stranded compacted 4/solid 1/0/stranded compacted 1/stranded compacted 2/stranded compacted 4/solid
1.44 [36.60] 1.36 [34.42] 1.61 [40.82] 1.29 [32.84] 1.16 [29.36] 1.43 [36.35] 1.35 [34.16] 1.28 [32.59] 1.04 [26.31]
2.10 [3.12] 1.79 [2.66] 2.46 [3.66] 1.46 [2.17] 1.11 [1.65] 2.04 [3.04] 1.74 [2.59] 1.41 [2.10] 1.11 [1.65]
1035559 977173 829036 977181 901603 1071794 861435 1096312 1206614
1/stranded 2/stranded 4/solid 6/solid 1/stranded 2/stranded 4/solid 6/solid 2/stranded
1.36 [34.47] 1.28 [32.51] 1.09 [27.71] 1.00 [25.40] 1.35 [34.21] 1.27 [32.26] 1.08 [27.51] 0.99 [25.25] 1.20 [30.53]
1.72 [2.56] 1.48 [2.20] 1.05 [1.56] 0.83 [1.24] 1.66 [2.47] 1.43 [2.13] 1.00 [1.49] 0.79 [1.18] 1.45 [2.16]
742361 742379 742791 744854 507608 868695 816934 826107 1071398
4/solid
0.96 [24.46]
1.00 [1.49]
1060920
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
1/0/stranded compacted 1/stranded compacted 2/stranded compacted 1/stranded
1.46 [37.16] 1.38 [34.98] 1.31 [33.38] 1.37 [34.67]
2.18 [3.24] 1.87 [2.78] 1.53 [2.28] 2.12 [3.15]
1018449 1113398 1113406 1187038
2/stranded compacted 2/stranded 1/strand compacted 1/stranded 1/solid 2/stranded compacted 2/stranded 2/solid 4/solid 6/solid 1/stranded
1.35 [34.29] 1.35 [34.29] 1.31 [33.32] 1.38 [35.03] 1.30 [32.92] 1.25 [31.75] 1.30 [33.05] 1.23 [31.17] 1.11 [28.27] 1.02 [25.96] 1.21 [30.71]
1.88 [2.80] 1.88 [2.80] 1.78 [2.65] 1.79 [2.66] 1.66 [2.47] 1.44 [2.14] 1.54 [2.29] 1.44 [2.14] 1.11 [1.65] 0.89 [1.32] 1.27 [1.89]
1000132 868679 1000223 836221 1182401 1158401 836239 1182419 836247 836254 1144146
Redahot* ETBO Round Cable Description
Galvanized armor, 5-kV voltage rating Heavy flat profile, galvanized armor, 4-kV voltage rating Double galvanized armor, 4-kV voltage rating Heavy galvanized armor, 4-kV voltage rating
Galvanized armor, 4-kV voltage rating
Unarmored, 4-kV voltage rating
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger MONEL® is a registered trademark of Inco Alloys International, Inc.
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Power Cable Redahot* ETBO–HW Round Cable Description
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
Galvanized armor, 5-kV voltage rating Galvanized armor, 4-kV voltage rating
1/solid 1/stranded
1.42 [36.07] 1.44 [36.55]
1.84 [2.74] 1.86 [2.77]
1242072 1157809
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
2/stranded compacted 4/solid
1.23 [31.19] 1.10 [27.71]
1.40 [2.08] 1.07 [1.59]
1017177 1017169
Description
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
Heavy flat profile, galvanized armor, 5-kV voltage rating
4/solid
1.20 [30.38]
1.50 [2.23]
1129857
1/stranded compacted 4/solid 1/stranded compacted
1.41 [35.690] 1.23 [31.24] 1.31 [33.20]
2.09 [3.11] 1.40 [2.08] 1.85 [2.75]
1067370 1013176 1129865
2/stranded compacted 4/solid 1/stranded compacted 2/stranded compacted 1/stranded
1.27 [32.23] 1.13 [28.75] 1.38 [34.93] 1.34 [33.96] 1.45 [36.86]
1.54 [2.29] 1.12 [1.67] 1.77 [2.63] 1.47 [2.19] 2.07 [3.08]
1143601 1139591 1098607 1098599 863720
Redahot EO Round Cable Description
Galvanized armor, 4-kV voltage rating
Redahot EO–HW Round Cable
Heavy galvanized armor, 5-kV voltage rating Flat profile, stainless steel armor, 5-kV voltage rating Stainless steel armor, 5-kV voltage rating Heavy galvanized armor, 4-kV voltage rating
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Power Cable
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Redablack* EER Round Cable Description
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
1/stranded compacted 2/stranded compacted 4/solid 1/stranded compacted 2/stranded compacted 4/solid 1/0/stranded compacted 1/stranded compacted 2/stranded compacted 4/solid 2/strand compacted 4/solid 1/stranded 6/solid
1.38 [34.93] 1.31 [33.35] 1.18 [29.87] 1.36 [34.42] 1.29 [32.84] 1.16 [29.26] 1.43 [36.35] 1.35 [34.16] 1.28 [32.59] 1.15 [29.11] 1.28 [32.59] 1.15 [29.11] 1.36 [34.47] 1.00 [25.40]
2.06 [3.07] 1.71 [2.54] 1.34 [1.99] 1.86 [2.77] 1.52 [2.26] 1.17 [1.74] 2.11 [3.14] 1.81 [2.69] 1.47 [2.19] 1.12 [1.67] 1.42 [2.11] 1.08 [1.61] 1.77 [2.63] 0.87 [1.29]
1144526 1000116 1000157 979237 979245 1000736 1039023 973370 973305 973222 1203496 1203504 973339 973107
Description
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
Heavy flat profile, galvanized armor, 5-kV voltage rating
1/stranded compacted
1.37 [34.85]
2.25 [3.35]
1077353
1/solid 1/stranded compacted 2/stranded compacted 4/solid 1/solid 2/solid 4/solid 2/solid
1.37 [34.77] 1.39 [35.18] 1.32 [33.60] 1.21 [30.63] 1.36 [34.52] 1.22 [31.01] 1.22 [31.01] 1.23 [31.14]
1.80 [2.68] 1.92 [2.86] 1.57 [2.34] 1.13 [1.68] 1.75 [2.60] 1.55 [2.31] 1.55 [2.31] 1.45 [2.16]
7003684 1111707 1111723 1242064 1250901 7000482 1130004 1250919
Description
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
Heavy flat profile, galvanized armor, 5-kV Voltage Rating
1/stranded compacted
1.36 [34.62]
2.23 [3.32]
1197839
1/stranded compacted 2/stranded compacted 1/stranded compacted 1/stranded compacted 2/stranded compacted 4/solid
1.40 [35.48] 1.33 [33.88] 1.17 [29.64] 1.31 [33.32] 1.25 [31.75] 1.11 [28.27]
2.11 [3.14] 1.75 [2.60] 1.36 [2.02] 1.81 [2.69] 1.45 [2.16] 1.12 [1.67]
1139690 1115328 1247774 1156983 1156991 1157007
Heavy galvanized armor, 5-kV voltage rating
Galvanized armor, 5-kV voltage rating
MONEL® armor, 5-kV voltage rating
Stainless steel armor, 5-kV voltage rating Galvanized armor, 4-kV voltage rating
Redablack ETBE–400 Round Cable
Galvanized armor, 5-kV voltage rating
MONEL armor, 5-kV voltage rating Galvanized armor, 4-kV voltage rating Double galvanized armor, 4-kV voltage rating MONEL armor, 4-kV voltage rating
Redablack ETBE–300 Round Cable
Heavy galvanized armor, 5-kV voltage rating Unarmored, no splines, 5-kV voltage rating Galvanized armor, 4-kV voltage rating
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger MONEL® is a registered trademark of Inco Alloys International, Inc.
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Power Cable Redablack* EEF Flat Cable Description
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
1/stranded compacted 2/stranded compacted 4/solid
0.84 × 1.83 [21.26 × 46.51] 0.81 × 1.74 [20.52 × 44.30] 0.74 × 1.55 [18.90 × 39.42]
2.43 [3.62] 2.08 [3.10] 1.69 [2.51]
979252 979260 1037803
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
1/stranded compacted 2/stranded compacted
1.37 [34.75] 1.31 [33.17]
1.88 [2.80] 1.54 [2.29]
1111715 1111731
Description
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
Galvanized armor, 5-kV voltage rating with 3⁄8-in. [9.53-mm] stainless steel tube
2/stranded compacted
0.68 × 2.36 [17.35 × 59.92]
2.66 [3.96]
1245810
1/stranded compacted 2/stranded compacted 1/stranded compacted 2/stranded compacted 1/stranded 2/stranded 4/solid 1/stranded 2/stranded 4/solid 6/solid 1/stranded 2/stranded 4/solid 6/solid
0.76 × 1.79 [19.35 × 45.36] 0.73 × 1.70 [18.62 × 43.15] 0.65 × 1.71 [16.56 × 43.33] 0.62 × 1.62 [15.82 × 41.12] 0.77 × 1.84 [19.56 × 46.66] 0.74 × 1.73 [18.87 × 43.92] 0.64 × 1.41 [16.13 × 35.69] 0.67 × 1.76 [17.00 × 44.63] 0.63 × 1.65 [16.08 × 41.88] 0.53 × 1.33 [13.34 × 33.66] 0.48 × 1.20 [12.27 × 30.45] 0.67 × 1.76 [17.00 × 44.63] 0.63 × 1.65 [16.08 × 41.88] 0.53 × 1.33 [13.34 × 33.66] 0.48 × 1.20 [12.27 × 30.45]
2.95 [4.39] 2.56 [3.81] 2.39 [3.56] 2.02 [3.01] 2.95 [4.39] 2.64 [3.93] 1.96 [2.92] 2.37 [3.53] 2.09 [3.11] 1.50 [2.23] 1.24 [1.85] 2.44 [3.63] 2.16 [3.21] 1.55 [2.31] 1.28 [1.90]
977231 977249 977215 977223 872143 872127 872226 872200 872184 872168 923094 872218 872192 872176 923102
Double galvanized armor, 5-kV voltage rating
Redablack EBE Round Cable Description
Galvanized armor, 5-kV voltage rating
Redalead* ELB Flat Cable
Double galvanized armor, 5-kV voltage rating Galvanized armor, 5-kV voltage rating
Double galvanized armor, 4-kV voltage rating
Galvanized armor, 4-kV voltage rating
MONEL® armor, 4-kV voltage rating
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger MONEL® is a registered trademark of Inco Alloys International, Inc.
Power Cable
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Redalead* ELBE Round Cable Description
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
1/stranded compacted 2/stranded compacted 1/stranded 2/solid
1.48 [37.47] 1.41 [35.89] 1.50 [38.15] 1.37 [34.87]
2.78 [4.14] 2.49 [3.71] 2.858 [4.25] 2.29 [3.41]
1244730 1249614 1242049 1250893
Description
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
Galvanized armor, 5-kV voltage rating MONEL armor, 5-kV voltage rating
1/0/stranded compacted 1/0/stranded compacted
0.73 × 1.93 [18.44 × 48.97] 0.73 × 1.93 [18.44 × 48.97]
3.18 [4.73] 3.25 [4.84]
1000884 1043819
Description
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
Double galvanized armor, 5-kV voltage rating Galvanized armor, 5-kV voltage rating
2/solid 1/0/stranded compacted
1.51 [38.46] 1.63 [41.30]
3.23 [4.80] 3.69 [5.49]
1251818 1098581
Description
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
Galvanized armor, 4-kV voltage rating
4/solid
0.55 × 1.39 [13.84 × 35.18]
1.71 [2.54]
1137157
Description
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
0.025 Class II galvanized armor, ⁄8-in. [9.53-mm] OD × 0.049-in. [1.25-mm] wall capillary tube, 5-kV voltage rating
1/solid
0.67 × 2.22 [13.84 × 35.18]
3.29 [4.90]
7009186
1/stranded compacted
na†
3.30 [4.91]
tba‡
Description
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
Heavy galvanized armor, 5-kV voltage rating
1/stranded compacted 1/stranded compacted 2/stranded compacted
1.41 [35.69] 1.39 [35.18] 1.32 [33.60]
2.13 [3.17] 1.92 [2.86] 1.58 [2.35]
1187046 1159326 1159334
Galvanized armor, 5-kV voltage rating MONEL® armor, 4-kV voltage rating Stainless steel armor, 4-kV voltage rating
Redalead ELTB Flat Cable
Redalead EHLBE Round Cable
Redalead EHLB-NS Flat Cable
Redalead ELB Flat Cable
3
† ‡
not available to be assigned
RedaCDC* SETBE–400 Round Cable
Galvanized armor, 5-kV voltage rating
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger MONEL® is a registered trademark of Inco Alloys International, Inc.
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Power Cable RedaCDC* SETBE–300 Round Cable Description
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
Heavy flat profile galvanized armor, 5-kV voltage rating
1/solid
1.36 [34.42]
2.14 [3.18]
1236587
RedaValu* PTB Flat Cable Description
Galvanized armor, 4-kV voltage rating
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
2/stranded 4/solid 6/solid
1.46 × 0.57 [37.16 × 14.50] 1.20 × 0.48 [30.45 × 12.27] 1.07 × 0.44 [27.25 × 11.20]
1.17 [1.74] 0.805 [1.20] 0.62 [0.92]
1253772 1253780 1253798
RedaSurface* TEOPVC Round Cable Description
Galvanized armor, 5-kV voltage rating
Unarmored, 5-kV voltage rating
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
1/stranded compacted 2/stranded compacted 4/solid 1/stranded compacted 2/stranded compacted 4/solid
1.46 [36.98] 1.39 [35.38] 1.26 [31.90] 1.51 [38.40] 1.45 [36.80] 1.31 [33.32]
1.79 [2.66] 1.58 [2.35] 1.24 [1.85] 1.35 [2.01] 1.16 [1.73] 0.86 [1.28]
1253715 1253723 1253731 1253749 1253756 1253764
AWG Conductor Size/Type
OD, in. [mm]
Weight, lbm/ft [kg/m]
Part Number
1/stranded compacted 2/stranded compacted 4/solid
1.51 [38.38] 1.45 [36.78] 1.31 [33.30]
1.93 [2.87] 1.72 [2.56] 1.36 [2.02]
1253681 1253699 1253707
RedaSurface TEOPVC–PVC Description
Galvanized armor, 5-kV voltage rating
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Power Cable
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Motorlead Extensions 375 Series, 3-kV KELTB (Low Profile), 0.392-in. × 0.966-in. [9.96-mm × 24.54-mm] OD AWG Conductor Size
Armor
MONEL®
6
Pothead Design
Tape in
Length, ft [m]
Weight, lbm [kg]
Part Number
30 [9] 40 [12] 55 [17] 70 [17] 80 [24] 90 [27]
25 [11] 33 [15] 45 [20] 57 [26] 66 [30] 74 [34]
409441 409474 381764 381772 1035153 947796
Length, ft [m]
Weight, lbm [kg]
Part Number
30 [9] 40 [12] 55 [17] 70 [21] 80 [24] 90 [27] 100 [30] 110 [34] 120 [37]
21 [10] 28 [13] 38 [17] 48 [22] 55 [25] 62 [28] 69 [31] 76 [34] 83 [38]
404996 405001 356824 405019 414565 921163 944892 tba† tba
Length, ft [m]
Weight, lbm [kg]
Part Number
30 [9] 40 [12] 55 [17] 70 [21] 80 [24] 90 [27] 100 [30] 110 [34] 120 [37]
19 [9] 26 [12] 35 [16] 45 [20] 51 [23] 58 [26] 64 [29] 70 [32] 77 [35]
405027 405035 406033 406041 1237221 417402 tba† 499079 1046697
456 Series, 4-kV KEOTB, 0.468-in. × 1.154-in. [11.89-mm × 29.31-mm] OD AWG Conductor Size
6
†
Armor
Galvanized
Pothead Design
Tape in
to be assigned
456 Series, 4-kV KEOTB, 0.448-in. × 1.134-in. [11.38-mm × 28.80-mm] OD AWG Conductor Size
6
†
Armor
MONEL
Pothead Design
Tape in
to be assigned
Power Cable
■
© 2005 Schlumberger. All rights reserved. MONEL® is a registered trademark of Inco Alloys International, Inc.
Motorlead Extensions
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456 Series, 4-kV KELB, 0.464-in. × 1.142-in. [11.79-mm × 29.01-mm] OD AWG Conductor Size
6
†
Armor
Galvanized
Pothead Design
Tape in
Length, ft [m]
Weight, lbm [kg]
Part Number
30 [9] 40 [12] 55 [17] 70 [21] 80 [24] 90 [27] 100 [30] 110 [34] 120 [37]
34 [15] 45 [20] 62 [28] 78 [35] 90 [41] 101 [46] 112 [51] 123 [56] 134 [61]
406207 406215 406223 406231 418079 462200 499111 946186 tba†
Length, ft [m]
Weight, lbm [kg]
Part Number
30 [9] 40 [12] 55 [17] 70 [21] 80 [24] 90 [27] 100 [30] 110 [34] 120 [37]
32 [14] 43 [19] 59 [27] 75 [34] 86 [39] 96 [43] 107 [48] 118 [53] 128 [58]
406249 406256 406264 406272 880252 419101 499939 922468 927350
Length, ft [m]
Weight, lbm [kg]
Part Number
30 [9] 40 [12] 55 [17] 70 [21] 80 [24] 90 [27] 100 [30] 110 [34]
26 [12] 35 [16] 48 [22] 62 [28] 70 [32] 79 [36] 88 [40] 97 [44]
406058 406066 356865 406074 877324 498907 499491 895623
to be assigned
456 Series, 4-kV KELB, 0.444-in. × 1.122-in. [11.28-mm × 28.50-mm] OD AWG Conductor Size
6
Armor
MONEL®
Pothead Design
Tape in
540/562 Series, 4-kV KEOTB, 0.510-in. × 1.280-in. [12.95-mm × 32.51-mm] OD AWG Conductor Size
4
Armor
Galvanized
Pothead Design
Tape in
© 2005 Schlumberger. All rights reserved. MONEL® is a registered trademark of Inco Alloys International, Inc.
ESP Catalog
Back to Cables
Motorlead Extensions 540/562 Series, 4-kV KEOTB, 0.490-in. × 1.260-in. [12.44-mm × 32.00-mm] OD AWG Conductor Size
MONEL®
4
†
Armor
Pothead Design
Tape in
Length, ft [m]
Weight, lbm [kg]
Part Number
30 [9] 40 [12] 55 [17] 70 [21] 80 [24] 90 [27] 100 [30] 110 [34]
25 [11] 33 [15] 46 [21] 58 [26] 66 [30] 75 [34] 83 [38] 91 [41]
406082 406090 406108 406116 466169 499947 tba† 878934
Length, ft [m]
Weight, lbm [kg]
Part Number
30 [9] 40 [12] 55 [17] 70 [21] 80 [24] 90 [27] 100 [30] 110 [34] 120 [37]
41 [19] 55 [25] 76 [34] 97 [44] 110 [50] 124 [56] 138 [63] 152 [69] 166 [75]
406298 406306 406314 406322 462192 499053 414631 875088 889907
Length, ft [m]
Weight, lbm [kg]
Part Number
30 [9] 40 [12] 55 [17] 70 [21] 80 [24] 90 [27] 100 [30] 110 [34] 120 [37]
40 [18] 53 [24] 73 [33] 92 [42] 106 [48] 119 [54] 132 [60] 145 [66] 158 [72]
406330 406348 406355 406363 407981 407999 417485 874388 963736
to be assigned
540/562 Series, 4-kV KELB, 0.506-in. × 1.268-in. [12.85-mm × 32.21-mm] OD AWG Conductor Size
4
Armor
Galvanized
Pothead Design
Tape in
540/562 Series, 4-kV KELB, 0.486-in. × 1.248-in. [12.34-mm × 31.70-mm] OD AWG Conductor Size
4
Power Cable
Armor
MONEL
■
Pothead Design
Tape in
© 2005 Schlumberger. All rights reserved. MONEL® is a registered trademark of Inco Alloys International, Inc.
Motorlead Extensions
Back to Cables
540/562 Series, 5-kV KELB, 0.506-in. × 1.308-in. [12.85-mm × 33.22-mm] OD AWG Conductor Size
4
†
Armor
MONEL®
Pothead Design
Tape in
Length, ft [m]
Weight, lbm [kg]
Part Number
30 [9] 40 [12] 55 [55] 70 [21] 80 [24] 90 [27] 100 [30] 110 [34] 120 [37] 130 [40] 200 [61]
47 [21] 62 [28] 85 [39] 109 [49] 124 [56] 140 [63] 155 [70] 170 [77] 186 [84] 200 [91] 310 [140]
tba† tba tba 1252816 7000433 2000317 tba tba 1184894 7006471 1162270
Length, ft [m]
Weight, lbm [kg]
Part Number
30 [9] 40 [12] 55 [55] 70 [21] 80 [24] 90 [27] 100 [30] 110 [34] 120 [37] 130 [40] 200 [61]
47 [21] 62 [28] 85 [39] 109 [49] 124 [56] 140 [63] 155 [70] 170 [77] 186 [84] 200 [91] 310 [140]
tba† tba tba 1252816 7000433 2000317 tba tba 1184894 7006471 1162270
Length, ft [m]
Weight, lbm [kg]
Part Number
30 [9] 40 [12] 55 [17] 70 [21]
53 [24] 70 [32] 96 [43] 123 [56]
893560 893586 893594 893602
to be assigned
540/562 Series, 5-kV KELB, 0.560-in. × 1.430-in. [14.22-mm × 36.32-mm] OD AWG Conductor Size
4
†
Armor
MONEL
Pothead Design
Tape in
to be assigned
738 Series, 4-kV KELB, 0.560-in. × 1.430-in. [14.22-mm × 36.32-mm] OD AWG Conductor Size
2
Armor
Galvanized
Pothead Design
Tape in
© 2005 Schlumberger. All rights reserved. MONEL® is a registered trademark of Inco Alloys International, Inc.
ESP Catalog
Back to Cables
Motorlead Extensions 738 Series, 4-kV KELB, 0.540-in. × 1.410-in. [13.72-mm × 35.81-mm] OD AWG Conductor Size
Armor
2
MONEL®
Pothead Design
Tape in
Length, ft [m]
Weight, lbm [kg]
Part Number
30 [9] 40 [12] 55 [17] 70 [21]
51 [23] 68 [31] 93 [42] 118 [53]
893610 893628 893636 893644
Length, ft [m]
Weight, lbm [kg]
Part Number
55 [17] 75 [23] 120 [37] 165 [50] 250 [76]
156 [71] 222 [101] 333 [151] 443 [201] 705 [319]
2004013 7063738 7009871 7062995 7003692
562/738 Series, 5-kV KELB, 0.640-in. × 1.772-in. [16.26-mm × 45.00-mm] OD AWG Conductor Size
1
Power Cable
Armor
MONEL
■
Pothead Design
Direct connect
© 2005 Schlumberger. All rights reserved. MONEL® is a registered trademark of Inco Alloys International, Inc.
Motorlead Extensions
Back to Cables
Maximus 300 Motorlead Extensions 456 Series, 4-kV KELB, 0.444-in × 1.122-in [11.28-mm × 28.50-mm] OD AWG Conductor Size
Armor
Monel®
6
Pothead Design
Maximus* 300 plug-in
Length, ft [m]
Weight, lbm [kg]
Part Number
40 [12.2] 50 [15.2] 60 [18.3] 75 [22.3] 80 [24.4] 90 [27.4] 100 [30.5] 110 [33.5] 120 [36.6] 130 [39.6] 140 [42.7] 150 [45.7]
43 [19.5] 54 [24.5] 64 [29.0] 80 [36.3] 86 [39.0] 96 [43.5] 107 [48.5] 118 [53.5] 128 [58.1] 139 [63.0] 150 [68.0] 161 [73.0]
100313420 100313421 100324398 100313422 100324385 100324395 100324361 100348541 100324370 100348542 100324379 100167119
Length, ft [m]
Weight, lbm [kg]
Part Number
40 [12.2] 50 [15.2] 60 [18.3] 75 [22.3] 80 [24.4] 90 [27.4] 100 [30.5] 120 [36.6] 140 [42.7] 150 [45.7]
45 [20.4] 56 [25.4] 67 [30.4] 84 [38.1] 90 [40.8] 101 [45.8] 112 [50.8] 134 [60.8] 157 [71.2] 168 [76.2]
100313417 100313418 100324400 100313419 100204016 100204004 100204011 100204013 100204014 100158174
456 Series, 4-kV KELB, 0.464-in × 1.142-in [11.79-mm × 29.01-mm] OD AWG Conductor Size
Armor
6
Motorlead Extensions
Galvanized
■
Pothead Design
Maximus 300 plug-in
© 2006 Schlumberger. All rights reserved. *Mark of Schlumberger Monel® is a registered trademark of Inco Alloys International, Inc.
Maximus 300 Motorlead Extensions
Back to Cables
ProMotor Lead Extensions 456 Series, 4-kV KELB, 0.464-in. × 1.142-in. [11.79-mm × 29.01-mm] OD AWG Conductor Size
6
†
Armor
Galvanized
Pothead Design
Plug-in
Length, ft [m]
Weight, lbm [kg]
Part Number
70 [21] 80 [24] 90 [27] 100 [30] 120 [37] 130 [40] 140 [43] 150 [46]
78 [35] 90 [41] 101 [46] 112 [51] 134 [61] 146 [66] 157 [71] 168 [76]
tba† 100204016 100204004 100204011 100204013 tba 100204014 100158174
Length, ft [m]
Weight, lbm [kg]
Part Number
70 [21] 80 [24] 90 [27] 100 [30] 110 [34] 120 [37] 130 [40] 140 [43] 150 [46]
97 [44] 110 [50] 124 [56] 138 [63] 152 [69] 165 [75] 179 [81] 193 [87] 207 [94]
100227273 100227671 100227673 100227674 100227675 tba† 100227676 100227677 100227678
Length, ft [m]
Weight, lbm [kg]
Part Number
70 [21] 80 [24] 90 [27] 100 [30] 110 [34] 120 [37] 130 [40] 140 [43] 150 [46]
97 [44] 110 [50] 124 [56] 138 [63] 152 [69] 165 [75] 179 [81] 193 [87] 207 [94]
100227729 100227730 100227731 100227732 100227733 100227736 100227737 100227738 100227739
to be assigned
562 Series, 4-kV KELB, 0.506-in. × 1.268-in. [12.85-mm × 32.21-mm] OD AWG Conductor Size
4
†
Armor
Galvanized
Pothead Design
Plug-in
to be assigned
562 Series, 4-kV KELB, 0.506-in. × 1.268-in. [12.85-mm × 32.21-mm] OD AWG Conductor Size
MONEL®
4
Power Cable
Armor
■
Pothead Design
Plug-in
© 2005 Schlumberger. All rights reserved. MONEL® is a registered trademark of Inco Alloys International, Inc.
ProMotor Lead Extensions
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Fixed Speed Drives
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FixStar Fixed Speed Drive Applications ■
Fixed speed ESP installations
Benefits ■
■
■
■
Safety features provide protection for service personnel. A wide operating range means greater flexibility of input voltages. Extensive electrical system monitoring and fault protection capabilities protect equipment from damage. System simplifies data gathering and remote monitoring and control of ESP.
Features ■
■
■
■ ■
■
■
Separate low- and high-voltage compartments Main disconnect switch (circuit breaker) with fuse and vacuum (air-break) contactor Multitap control potential transformer UniConn* universal site controller True root-mean-square (rms) three-phase current measurement and protection Three-phase directly measured voltage monitoring and protection available Backspin and leg ground protection available
Fixed Speed Drives
■
The FixStar* fixed speed drive provides ESP operators with electrical system protection for downhole ESP systems in a fixed speed application. It also provides an effective platform for analyzing well and pump performance in real time. The modular FixStar drive is a proven protection system for an ESP operating in a fixed speed application. It incorporates a combination of a fused main disconnect switch (or circuit breaker) with a vacuum (or air-break) contactor that connects ESP systems to the surface power supply. This provides maximum protection for the ESP system in case of major surface or downhole electrical system faults. Built-in lightning arresters protect the downhole pump system from spikes in the supply system caused by lightning strikes. A control potential transformer provides power for all instruments housed in the FixStar drive enclosure. All the above-mentioned components are mounted in a high-voltage compartment. To provide better protection for field operators, the UniConn controller is located in a low-voltage compartment that is isolated from the high-voltage compartment. The UniConn controller in the FixStar drive provides extensive electrical system monitoring and protection against both surface and downhole electrical faults. The current transformer in the UniConn controller, together with its burden module, provides true rms and high-resolution three-phase current monitoring. The three-instrument potential transformers provide directly measured threephase voltages and the optional A095 backspin shunt provides backspin and leg ground protection.
FixStar Fixed Speed Drive
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© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Additionally, the FixStar drive is a platform for gathering data, remote monitoring, and controlling ESP operations when the UniConn controller’s expandable functionality is used. All wellsite surface instruments required for ■ running Phoenix* artificial lift monitoring systems ■ using the espWatcher remote surveillance and control system ■ monitoring and controlling remotely with SCADA and other applications can now be fully housed in the FixStar drive’s enclosure. This provides a compact and simple solution. The specially
designed low-voltage compartment can house the site communication box for the espWatcher* surveillance and control system for ESPs and the Phoenix gauge three-phase choke. Also, the high-voltage compartment can house a modified three-phase choke used with Phoenix gauges. Other optional instruments that can be installed with a FixStar drive include ■ Bristol chart recorder ■ pilot light set ■ 24-V DC battery pack.
These optional instruments allow the UniConn controller to gather data during power outages. All the FixStar drive options can be preassembled in the factory or assembled in the field.
FixStar Drive Specifications Model
Voltage Rating, V
Current Rating, A
Dimensions (H × W × D), in. [mm]
Weight, lbm [kg]
Power Rating, kVA
5000
5,000
70; 130; 170; 200
1,100 [498.9]
606; 1,126; 1,472; 1,732
3900
3,900
70; 130; 170; 200
1,100 [498.9]
473; 878; 1,148; 1,351
3300
3,300
70; 130; 170; 200
1,100 [498.9]
400; 743; 972; 1,143
1500
1,500
70; 130; 170; 200
78 × 36 × 24 [1,981.2 × 914.4 × 609.6] 78 × 36 × 24 [1,981.2 × 914.4 × 609.6] 78 × 36 × 24 [1,981.2 × 914.4 × 609.6] 78 × 36 × 24 [1,981.2 × 914.4 × 609.6] 42 × 28 × 14 [1,066.8 × 711.2 × 355.6]
1,100 [498.9]
182; 338; 442; 520
600
600
45; 90; 135
250 [113.4]
47; 94; 140
FixStar Drive Main Components Main disconnect switch (circuit breaker for 600-V models)—1 each Vacuum contactor (air-break contactor for 600-V, 45-, 90-, 135-A models)—1 each Multiple-tap control power transformer (750 VA for 600-V models, 1 kVA for all other models)—1 each Lightning arrester—3 each UniConn controller—1 each Current module with burden module—1 set Note: All FixStar models have operating temperature ratings of –40 to 131°F [–40 to 55°C] and storage temperature ratings of –58 to 158°F [–72 to 70°C]. All FixStar models come standard with NEMA 3/3R enclosure.
FixStar Drive Optional Components NEMA 4/4X enclosure Instrument potential transformer—3 each A095 backspin shunt—1 each Phoenix interface kit (UniConn Phoenix card, 3-phase choke and wiring)† espWatcher interface kit (internal SCB, UniConn SCADA card and wiring)† Bristol chart recorder kit,† pilot light kit,† 24-V DC battery pack † Available
as factory- or field-installed kits.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Revised 6/2006
ESP Catalog
Back to Surface Power and Control
FixStar Fixed Speed Drive FixStar* 600 Description
Max. Voltage Rating, V
Current Rating, A
Weight, lbm [kg]
Part Number (Base Model)
Part Number (400- to 1,000-V Backspin Protection)
FixStar 600-45 FixStar 600-90 FixStar 600-135
600 600 600
45 90 135
250 [114] 250 [114] 250 [114]
100151381 100151379 100151182
100135121 100135109 100120627
Note: Each FixStar drive comes with a UniConn* controller, but with no Bristol amp chart recorder.
FixStar 1500 Description
Max. Voltage Rating, V
Current Rating, A
Weight, lbm [kg]
Part Number (Base Model)
Part Number (800- to 2,000-V Backspin Protection)
FixStar 1500-70 FixStar 1500-130 FixStar 1500-170 FixStar 1500-200
1,500 1,500 1,500 1,500
60 125 150 200
1,100 [499] 1,100 [499] 1,100 [499] 1,100 [499]
100228228 100228226 100228225 100228224
100228223 100228221 100228220 100218365
Note: Each FixStar drive comes with a UniConn controller, but with no Bristol amp chart recorder.
FixStar 3300 Description
Max. Voltage Rating, V
Current Rating, A
Weight, lbm [kg]
Part Number (Base Model)
Part Number (1,800- to 4,000-V Backspin Protection)
FixStar 3300-70 FixStar 3300-130 FixStar 3300-170 FixStar 3300-200
3,300 3,300 3,300 3,300
70 130 170 200
1,100 [499] 1,100 [499] 1,100 [499] 1,100 [499]
100151203 100151202 100151198 100151195
100129046 100129018 100128973 100128667
Note: Each FixStar drive comes with a UniConn controller, but with no Bristol amp chart recorder.
Fixed Speed Drives
■
FixStar Fixed Speed Drive
Back to Surface Power and Control
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Revised 6/2006
FixStar 3900 Description
Max. Voltage Rating, V
Current Rating, A
Weight, lbm [kg]
Part Number (Base Model)
Part Number (1,800- to 4,000-V Backspin Protection)
FixStar 3900-70 FixStar 3900-130 FixStar 3900-170 FixStar 3900-200
3,900 3,900 3,900 3,900
70 130 170 200
1,100 [499] 1,100 [499] 1,100 [499] 1,100 [499]
100151186 100151185 100151184 100151177
100128253 100128251 100128246 100114021
Note: Each FixStar drive comes with a UniConn controller, but with no Bristol amp chart recorder.
FixStar 5000 Description
Max. Voltage Rating, V
Current Rating, A
Weight, lbm [kg]
Part Number (Base Model)
Part Number (3,000- to 5,000-V Backspin Protection)
FixStar 5000-70 FixStar 5000-130 FixStar 5000-170 FixStar 5000-200
5,000 5,000 5,000 5,000
70 130 170 200
1,100 [499] 1,100 [499] 1,100 [499] 1,100 [499]
100151193 100151189 100151188 100151187
100128303 100128300 100128298 100128274
Note: Each FixStar drive comes with a UniConn controller, but with no Bristol amp chart recorder.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
Back to Surface Power and Control
FixStar Drive Accessories FixStar* Drive Options Description
Factory Installed Part Number
Field Installed Part Number
Bristol amp chart recorder kit FixStar pilot light kit
100139601 100184185
100139607 100184190
Instrument Potential Transformers Description
Part Number
Instrument potential transfomer, 480/120 VAC Instrument potential transfomer, 3600 Multiple-tap/120 V AC Instrument potential transfomer, 5400 Multiple-tap/120 V AC
1157726 1157114 2003957
espWatcher* System Wellsite Hardware Description Stand-alone SCB-AA, North American version Stand-alone SCB-BA, Global version Internally mounted SCB-AA for SpeedStar* VSD or FixStar FSD Internally mounted SCB-BA for SpeedStar VSD or FixStar FSD Modbus™ multiplexer used to interface SCADA and espWatcher system
Factory Installed Part Number AC900001 AC900003 100136498 100055832 100134389
Field Installed Part Number na† na 100139656 100139658 tba‡
† not ‡ to
available be assigned
UniConn* Controller Options Description
Part Number
USC 100 communication card USC 200 Phoenix* gauge interface card Phoenix downhole monitoring surface kit, complete with USC 200 card, memory module, and ESP power cable interface. For use with UniConn controller in medium-voltage FixStar applications. Factory installed. Phoenix downhole monitoring surface kit, complete with USC 200 card, memory module, and ESP power cable interface. For use with UniConn controller in medium-voltage FixStar applications. Field installed. Phoenix downhole monitoring surface kit, complete with USC 200 card, memory module, and ESP power cable interface. For use with UniConn controller in low-voltage FixStar or SpeedStar VSD applications. Phoenix downhole monitoring surface kit, complete with USC 200 card, memory module, and ESP power cable interface. For use with UniConn controller in low-voltage FixStar or SpeedStar VSD applications. Factory installed.
100228568 100129807 100139602
† to
100139654
100139655
tba†
be assigned
Fixed Speed Drives
■
FixStar Drive Accessories
Back to Surface Power and Control
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Modbus™ is a trademark of Gould, Inc. Revised 6/2006
Variable Speed Drives
Back to Surface Power and Control
SpeedStar Low-Voltage VSDs Applications
Why use a VSD?
■
Using variable speed drives (VSDs) to control downhole or surface pumps provides maximum flexibility for responding to changing operating conditions. This allows operators to maximize oil recovery while minimizing energy costs and without pump resizing. Schlumberger, with indepth oilfield knowledge, and Toshiba International Corporation, with worldclass motor-control technology, have partnered to develop SpeedStar* VSD solutions, tailored to the unique requirements of ESPs and HSPs. The SpeedStar VSD portfolio offers a broad range of advanced ESP control and protection. Incorporating the smoothest waveform output available to minimize electrical system stress, SpeedStar VSDs are available in ratings ranging from 66 kVA to 1,500 kVA and in configurations rated to both NEMA 1 and NEMA 3R standards.
All ESPs and horizontal pumping systems (HPSs)
Benefits ■ ■ ■
Lowers pump operating costs Accelerates oil production Increases pump system life
Features ■
■
■
■
■
■
■
■
■
ESPs are isolated from line disturbances. Diode-bridge rectifier provides high input power factor and reduces reflected harmonics. IGBT inverter provides efficient pulse width modulated (PWM) waveform and reduces output harmonics. Sine wave filter provides sinusoidal output to extend the life of ESP system electrical components. UniConn* controller enhances ESP protection and control. Variable speed control enables soft and rocking starts for ESP motors. Control flexibility accommodates all production scenarios. Pump operation adapts to changing reservoir conditions. Motor harmonics are eliminated as a cause of equipment failure.
Variable Speed Drives
■
Low-voltage VSD solutions VSD operation can have a significant impact on ESP system run life. The SpeedStar VSD family was developed taking into consideration the many factors that enhance ESP performance and longevity. The Schlumberger SpeedStar VSD portfolio offers a complete range of low-voltage ESP control solutions: ■ The SpeedStar SWD* VSD is the premium low-voltage drive specifically designed for ESP systems. This PWM VSD incorporates a sine wave filter in the output section to provide a smooth output waveform. ■ The SpeedStar 2000 Plus* VSD is also a PWM-output VSD with reduced output harmonic distortion. It can be used with most ESP
SpeedStar Low-Voltage VSDs
Back to Surface Power and Control
Revised 6/2006
■
systems under the correct design conditions. A sine wave filter is optional for applications that require sinusoidal output. The SpeedStar 2000 Plus VSD is suitable for surface rotating equipment. The SpeedStar Titan* VSD incorporates the innovative Toshiba G7 power converter, which allows the drive to be rated in accordance with the operating ambient temperature. The SpeedStar Titan VSD provides economical and efficient VSD control for nearly all operating conditions.
Improving ESP system run life All VSDs rely on rapid switching of a DC bus to create a variable-frequency AC output. The rapid switching causes harmonic distortion and voltage stress in both the supply system and in the load. On the load (pump) side, harmonic distortion leads to excessive heating and shaft vibration, and voltage stress causes insulation breakdown. ESP system run life can be extended by eliminating harmonic distortion and reducing voltage stress in the applied waveform. In fact, eliminating harmonic distortion is the single most significant system improvement that can be made to promote longer ESP system run life. Analysis of the Schlumberger ESP performance database, comprising approximately 23,000 ESP installations over a 15-yr period, suggests that, on average, a 50% increase in run life can be achieved by eliminating harmonic distortion in the applied waveform. In high-cost operating environments, such as remote operations, offshore platforms, and subsea installations, improved ESP run life can result in dramatic savings by reducing workover costs, accelerating oil production, and lowering ESP system operating costs. Moreover, confidence in ESP system performance and run life can be decisive when the development scenarios are being determined.
Protecting power supply integrity On the supply system side, two recognized issues must be considered: harmonic distortion and commutation notching. Harmonic distortion is generated by the nonlinear rectifier, which converts the incoming AC waveform to DC (the commutation process). This harmonic distortion is reflected back to the supply system, where it can cause such problems as overheating of utility equipment (surface motors), disruption of the utility electrical system, and distorted readings for standard electrical meters. Mitigation of supply-side harmonic distortion is critical to ensuring that the VSD has minimal environmental impact and that it does not cause problems for other electricity users sharing the electrical source. The standard for compliance with supply-side harmonic distortion limits is IEEE-519, which sets the limits of total harmonic distortion allowed in particular configurations. To meet supply-side requirements, lowvoltage SpeedStar VSDs are available with either a 6-pulse or a 12-pulse rectifier or with an IEEE-519-compliant rectifier, if required. Commutation notching occurs when a diode rectifier or silicon-controlled rectifier (SCR) shorts out during the commutation process, causing a spike in the input waveform that is then reflected to the utility system. Conventional VSDs that use SCRs can switch at different points on the voltage waveform, resulting in a powerfactor decrease in a range of 0.6 to 0.8. SpeedStar VSDs use a diode rectifier, rather than an SCR. This ensures the fastest possible switching with minimal spike energy and minimal disruption of the supply system, potentially saving the cost of penalties while delivering a consistently high power factor of 0.96 or greater.
Certified design for maximum protection
receptacle for use in the field. Output current is measured using a Hall-effect current transformer to ensure stable speed, which cannot be achieved using a standard current transformer. Each SpeedStar VSD is type-tested, including heat-run, to ensure proper operation at rated temperature and under full-load conditions. SpeedStar VSDs are designed to operate continuously for at least 40,000 hr at their rated load and operating temperature. These VSDs incorporate protection features for the most severe fault conditions, such as phase-to-phase short circuiting on the load side. All units are available with the StarShield* transient voltage surge suppressor, which is superior to the multiple metal-oxide varistor (MOV) suppressors in general oilfield use for providing protection against both power supply surges and lightning strikes. SpeedStar VSDs are rated by UL to NEMA 1 or NEMA 3 to accommodate the environmental application. For outdoor applications, the electronics enclosure within the SpeedStar VSD has a NEMA 4 rating to ensure maximum environmental protection in all operating conditions.
Protection, control, and data acquisition All SpeedStar VSDs utilize the UniConn* universal site controller as the single-user interface for wellsite protection, control, and data acquisition, both at the surface and downhole. The UniConn controller accommodates all hard-wired and satellite-based SCADA systems, enabling real-time protection and monitoring of all vital ESP system parameters. ESPs can be controlled for speed, current, and pressure, and the UniConn controller provides protection against ESP motor backspin, enables rocking starts for stuck pumps, and enhances undervoltage ride-through.
All SpeedStar 2000 Plus and SpeedStar SWD drives are equipped with a potential transformer that powers a utility © 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Revised 6/2006
ESP Catalog
Back to Surface Power and Control
The SpeedStar SWD VSD This is the premier Schlumberger VSD solution in the SpeedStar drive portfolio. It is most suitable to applications in which ESP system run life is the most important consideration in VSD selection. With the standard sine wave filter, the SpeedStar SWD VSD provides a nearly sinusoidal output, which ensures constant speed and torque
control by calculating the main output current vector into separate magnetizing and torque-current vectors. Benefits include higher torque per amp, less motor heating, and reduced torque pulsations. A sine wave filter, built into the drive enclosure, provides an output voltage that is similar to a rotating generator output and is suitable for any ESP at any cable length.
Many publications and technical papers have described how pump variables such as cables, depth, and transformer tap setting affect VSD wave shape and make it difficult to predict actual voltage at the motor using conventional VSD technology. The SpeedStar SWD VSD removes these uncertainties and extends the life of ESP system electrical components, such as penetrators, cables, and motors.
SpeedStar SWD Specifications Principal control parameters Control system Input supply Output voltage regulation Frequency setting PWM carrier frequency Input configuration Efficiency Power factor Overload rating Protection features
Flux-vector PWM, V per Hz control 380 to 480 V ±10%, 50 or 60 Hz ±5% From 0 to supply voltage 0.01 to 120 Hz, 0.1-Hz resolution 2.2 kHz Diode, 6- or 12-pulse 98% at all loads and speeds 96% at all loads and speeds 120% for 120 s, 100% continuous Main circuit overcurrent at startup, electronic thermal overload, DC bus overvoltage and undervoltage, load side phase-to-phase short circuit, regeneration power ride-through, power failure ride-through, soft-stall: automatic load reduction, heat sink and enclosure overtemperature, and open output phase
Other specifications and ratings Enclosure NEMA 1 (indoor) or NEMA 3R (outdoor), standard compliance with UL-508 Cooling method Forced air (automatic internal and external fans) Maximum altitude 4,921 ft [1,500 m] above sea level Ambient temperature –22 to 122°F [–30 to 50°C] Relative humidity 20% to 100% maximum (noncondensing) H2S protection Circuit boards, heat sink, and heat exchanger Material 12-gauge steel enclosure Standard features Input circuit breaker disconnect with 100k-A interrupting capacity fuses Diode front-end converter IGBT inverter StarShield transient-voltage surge suppressor Heat-sink-mounted power components Outdoor-rated heat exchanger for forced-air cooling 1-kVA potential transformer for two 110-V receptacles Hall-effect current transformer speed-sensing device UniConn universal site controller Mounting studs and antenna stand Sine wave output filter Lockable weatherproof door with 3-point latch Lifting eyebolts 5-yr warranty
Variable Speed Drives
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SpeedStar Low-Voltage VSDs
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Revised 6/2006
SpeedStar SWD Specifications (continued) Optional features Space heater with thermostat to prevent condensation 3-phase current transformer module for current monitoring 3-potential transformer for 3-phase voltage monitoring Internal transceiver All UniConn controller expansion cards External junction box DC link or AC line reactor Door-mounted ammeter, voltmeters, push buttons, and switches Monitored parameters Current: Drive motor (calculated or 3-phase measured optional) Voltage: Drive input and output (3-phase step-up output optional) Supply voltage Power: Drive input and output, running frequency Spin frequency, leg ground (using A095) Protection set points Overload, underload, tracking underload, imbalance Overvoltage, undervoltage, imbalance, phase rotation High and low supply voltage Backspin, leg ground Control functionalities and parameters Speed: Target, maximum and minimum, base Three jump frequencies and bandwidths, individually settable V per Hz pattern, start-up boost, V per Hz slope Speed control in frequency, current, or pressure mode Catch a spinning motor, change rotation without stopping Speed follower based on external analog signal Stall protection: Automatic speed reduction Pressure mode: Automatic speed control Current mode: Automatic speed control
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Revised 6/2006
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The SpeedStar 2000 Plus VSD The SpeedStar 2000 Plus VSD is well suited for controlling ESPs in shallow wells where system resonance is negligible and a sine wave filter is not required. This VSD provides PWM output for maximum flexibility and control, with the benefits of simplicity and cost. The drive output provides high torque per amp, as well as low motor heating and reduced torque pulsations.
The SpeedStar 2000 Plus VSD uses the same platform and components as the SpeedStar SWD drive, with the exception of the sine wave filter. If needed, sine wave output can be obtained by adding a Schlumberger R-992 external sine wave filter. The SpeedStar 2000 Plus VSD is appropriate for all environmental conditions.
SpeedStar 2000 Plus Specifications Principal control parameters Control system Input supply Output voltage regulation Frequency setting PWM carrier frequency Input configuration Efficiency Power factor Overload rating Protection features
Flux vector PWM, V per Hz control 380 to 480 V ±10%, 50 or 60 Hz ±5% From 0 to supply voltage 0.01 to 120 Hz, 0.1-Hz resolution 2.2 kHz Diode, 6- or 12-pulse 98% at all load and speeds 96% at all loads and speeds 120% for 120 s, 100% continuous Main circuit overcurrent at startup, electronic thermal overload, DC bus overvoltage and undervoltage, load side phase-to-phase short circuit, regeneration power ride-through, power failure ride-through, soft-stall: Automatic load reduction, heat sink and enclosure overtemperature, and open output phase
Other specifications and ratings Enclosure NEMA 1 (indoor) or NEMA 3R (outdoor), standard compliance with UL-508 Cooling method Forced air (automatic internal and external fans) Maximum altitude 4,921 ft [1,500 m] above sea level Ambient temperature –22 to 122°F [–30 to 50°C] Relative humidity 20% to 100% maximum (noncondensing) H2S protection Circuit boards, heat sink, and heat exchanger Material 12-gauge steel enclosure Standard features Input circuit breaker disconnect with 100k-A interrupting capacity fuses Diode front-end converter IGBT inverter StarShield transient-voltage surge suppressor Heat-sink-mounted power components Outdoor-rated heat exchanger for forced-air cooling 1-kVA potential transformer for two 110-V receptacles Hall-effect current transformer speed-sensing device UniConn universal site controller Mounting studs and antenna stand Lockable weatherproof door with 3-point latch Lifting eyebolts 5-yr warranty
Variable Speed Drives
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SpeedStar Low-Voltage VSDs
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Revised 6/2006
SpeedStar 2000 Plus Specifications (continued) Optional features Space heater with thermostat to prevent condensation 3-phase current transformer module for current monitoring 3-potential transformer for 3-phase voltage monitoring Internal transceiver All UniConn controller expansion cards External junction box DC link or AC line reactor Door-mounted ammeter, voltmeters, push buttons, and switches Monitored parameters Current: Drive motor (calculated or 3-phase measured optional) Voltage: Drive input and output (3-phase step-up output optional) Supply voltage Power: Drive input and output, running frequency Spin frequency, leg ground (using A095) Protection set points Overload, underload, tracking underload, imbalance Overvoltage, undervoltage, imbalance, phase rotation High and low supply voltage Backspin, leg ground Control functionalities and parameters Speed: Target, maximum and minimum, base Three jump frequencies and bandwidths, individually settable V per Hz pattern, start-up boost, V per Hz slope Speed control in frequency, current, or pressure mode Catch a spinning motor, change rotation without stopping Speed follower based on external analog signal Stall protection: Automatic speed reduction Pressure mode: Automatic speed control Current mode: Automatic speed control
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Revised 6/2006
ESP Catalog
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The SpeedStar Titan VSD The SpeedStar Titan VSD, the industry’s first variable-rated VSD, enables power maximization in nearly all operating environments. An optional, internally mounted sine wave filter provides increased operational flexibility, longer system run life, and enhanced ESP system performance and efficiency, all as a result of lower voltage stress on the system. The Toshiba G7 power converter, which enables the drive to be rated in accordance with the operating ambient
temperature, provides an economical and efficient VSD solution for nearly all operating environments. A three-phase diode-bridge rectifier provides a constant high-power factor at the input terminals. It has a constantvoltage DC bus feeding a state-of-theart IGBT inverter section. The inverter output is a PWM waveform, which provides flexible frequency output with relatively low harmonic distortion. With the optional sine wave filter, the VSD provides a nearly sinusoidal output waveform to ensure constant speed
and torque control by calculating the main output current vector into separate magnetizing and torque-current vectors. Additional benefits include higher torque per amp, less motor heating, and reduced torque pulsations. The SpeedStar Titan VSD provides a uniquely flexible motor control solution that allows the operator to optimize the drive for specific load requirements and environmental conditions.
SpeedStar Titan Specifications Principal control parameters Control system Input supply Output voltage regulation Frequency setting PWM carrier frequency Input configuration Efficiency Power factor Overload rating Protection features
Flux vector PWM, V per Hz control 380 to 480 V ±10%, 50 or 60 Hz ±5% From 0 to supply voltage 0.01 to 120 Hz, 0.1-Hz resolution 2.2 kHz Diode, 6-pulse 98% at all loads and speeds 96% at all loads and speeds 120% for 120 s, 100% continuous Main circuit overcurrent at startup, electronic thermal overload, DC bus overvoltage and undervoltage, load side phase-to-phase short circuit, regeneration power ride-through, power failure ride-through, soft-stall: Automatic load reduction, heat sink and enclosure overtemperature, and open output phase
Other specifications and ratings Enclosure NEMA 3R (outdoor), standard compliance with UL-508 Cooling method Forced air (automatic internal and external fans) Maximum altitude 4,921 ft [1,500 m] above sea level Ambient temperature 14 to 122°F [–10 to 50°C] Relative humidity 20% to 100% maximum (noncondensing) H2S protection Circuit boards, heat sink, and heat exchanger Material 12-gauge steel enclosure Standard features Input circuit breaker disconnect with 100k-A interrupting capacity fuses Diode front-end converter IGBT inverter Heat-sink-mounted power components Outdoor-rated heat exchanger for forced-air cooling Hall-effect current transformer speed-sensing device UniConn universal site controller Mounting studs and antenna stand Lockable weatherproof door with 3-point latch Lifting eyebolts 5-yr warranty
Variable Speed Drives
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SpeedStar Low-Voltage VSDs
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Revised 6/2006
SpeedStar Titan Specifications (continued) Optional features StarShield transient-voltage surge suppressor 1-kVA potential transformer for two 110-V receptacles Space heater with thermostat to prevent condensation 3-phase current transformer module for current monitoring 3-potential transformer for 3-phase voltage monitoring Internal transceiver All UniConn controller expansion cards External junction box DC link or AC line reactor Door-mounted ammeter, voltmeters, push buttons, and switches Monitored parameters Current: Drive motor (calculated or 3-phase measured optional) Voltage: Drive input and output (3-phase step-up output optional) Supply voltage Power: Drive input and output, running frequency Spin frequency, leg ground (using A095) Protection set points Overload, underload, tracking underload, imbalance Overvoltage, undervoltage, imbalance, phase rotation High and low supply voltage Backspin, leg ground Control functionalities and parameters Speed: Target speed, maximum and minimum speed, base speed Three jump frequencies and bandwidths, individually settable V and Hz pattern, start-up boost, V and Hz slope Speed control in frequency, current, or pressure mode Catch a spinning motor, change rotation without stopping Speed follower based on external analog signal Stall protection: Automatic speed reduction Pressure mode: Automatic speed control Current mode: Automatic speed control
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Revised 6/2006
ESP Catalog
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SpeedStar MVD Variable Speed Drives Applications
Medium-voltage VSD solution
■
The SpeedStar MVD* VSD is the right solution when total ESP system run life is one of the most important considerations in drive selection. The SpeedStar MVD medium-voltage drive is a premium VSD. The MVD is designed for installations where space and weight are constrained and harmonic distortion at the input and output terminals must be eliminated. Schlumberger, with in-depth oilfield knowledge, and Toshiba International Corporation, with world-class motorcontrol technology, have partnered to develop the SpeedStar* family of VSD solutions. The VSD solutions are tailored to the unique requirements of ESPs and HPSs. The SpeedStar MVD drive is a singleunit VSD solution that integrates the traditional input transformer into the VSD enclosure. This solution enables variable output voltages between 480 and 4,800 V directly to the downhole ESP system. The integrated package eliminates the requirement for input and output transformers, cutting weight by about 18,720 lbm [8,490 kg] and space savings of about 5,500 ft3 [155 m3]. The SpeedStar MVD drive provides the industry with the best powerto-weight ratio and smallest footprint. Unlike the traditional VSD input and output oil-filled transformers, the SpeedStar MVD drive has a dry internal transformer. The use of dry components is increasingly becoming a specified requirement for all offshore installations where containment is an issue and where oil-filled equipment represents an unacceptable fire hazard. To promote long ESP run life, the SpeedStar MVD drive incorporates sine wave output filters in the drive output section. These filters convert the multilevel PWM output waveform to a waveform that is similar to that from a rotating generator. This functionality
Variable speed control of ESP and horizontal pumping systems (HPS)
Benefits ■
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Eliminates input and output harmonic distortion, extending ESP system run life Prevents equipment failure by isolating the ESP from system power disturbances Minimizes electrical and mechanical stress on equipment Enables single-unit replacement of traditional input transformer, variable speed drive (VSD), and output transformer components Provides smallest footprint and best power-to-weight ratio in the industry Enhances ESP protection and control
Features ■
■ ■ ■ ■ ■ ■
■
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Plug-and-play VSD solution in a single compact unit Integrated 24-pulse transformer Power output direct to ESP Sine wave filter VSD output filter UniConn* universal site controller NEMA 1 or NEMA 3R rating IEEE 519-1992 compliance at input terminals ESP motors with soft- and rockingstart capability Control system with multilevel pulse width modulated (PWM) flux vector or V or Hz control Insulated gate bipolar transistor (IGBT) Circuit breaker disconnect with current limiting fuses on the input Automatic load reduction and restart into a rotating motor
Variable Speed Drives
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SpeedStar MVD Variable Speed Drives
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enables the MVD to be used as a plugand-play ESP drive solution, without causing detrimental effects to the ESP motor installed at any cable length.
Better performance and less maintenance The SpeedStar MVD drive design incorporates control circuit topology, which provides the highest performance using the fewest parts. Fewer parts result in lower maintenance. Its modular vertical design enables power module interchangeability and offers the smallest footprint available to the industry. All SpeedStar MVD drives use the three power modules to provide flexible application and stress-free output voltage and current. A special racking mechanism allows module inspection and maintenance without removal. Additionally, the racking mechanism permits the module to slide easily from the drive for replacement, permitting easy change-out with minimal disruption to operations. The power module contains no fans, contactors, or large electrolytic capacitors. This reduction of components enables more reliable VSD performance.
Field-proven technology IGBT technology is an effective, fieldproven means of speed control in lowvoltage drives. The SpeedStar MVD drive design incorporates this technology, using both diodes and IGBTs in the main power circuit. IGBT technology provides the following advantages: ■ inherent short circuit and ground fault immunity at the output ■ low gating power requirements ■ small snubber circuitry.
The SpeedStar MVD drive uses fivelevel neutral point clamp (NPC) technology with highly reliable 3,300-V IGBTs in the inverter section. NPC technology offers a low-stress output from the drive with minimal neutral point shift, enabling the use of all motors across the full application range. This technology eliminates the need for motor derating. The voltage between the positive or negative bus and ground is 1,950 V. The IGBTs are rated to 3,300 V, providing a minimum voltage margin ratio of 169%. This ratio ensures long-term integrity through stress reduction.
SpeedStar MVD Specifications at 4,160-V Output (NEMA 1 Enclosure) Rating, hp/A
500/62 600/74 700/87 800/99 900/112 1,000/124 1,250/155 1,500/186 1,750/217 2,000/248
Dimensions (H × W × D), in. [cm]
Ambient Temperature, °F [°C]
104 × 74 × 44 [264 × 188 × 112] 104 × 74 × 44 [264 × 188 × 112] 104 × 74 × 44 [264 × 188 × 112] 104 × 74 × 44 [264 × 188 × 112] 104 × 74 × 44 [264 × 188 × 112] 104 × 74 × 44 [264 × 188 × 112] 104 × 122 × 44 [264 × 310 × 112] 104 × 122 × 44 [264 × 310 × 112] 104 × 122 × 44 [264 × 310 × 112] 104 × 122 × 44 [264 × 310 × 112]
104 [40]
447
104 [40]
536
104 [40]
625
104 [40]
715
104 [40]
804
104 [40]
893
104 [40]
1,116
104 [40]
1,340
104 [40]
1,563
104 [40]
1,786
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Drive Output, kVA
ESP Catalog
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Other Specifications Electrical Input power, kV, 50 or 60 Hz Input voltage tolerance, % Input frequency tolerance, % Output voltage, V Output frequency, Hz Inverter efficiency, % Power factor Overload current Accelerate and decelerate time, s Analog inputs Analog outputs Digital inputs Digital outputs Environmental Standard enclosure type Ambient temperature operating range, °F [°C] Certification Protective functions Current limit Overcurrent Overcharge Overload Undervoltage Overvoltage Ground fault Central processing unit error Abnormal cooling
> 13.8 ± 10 ±5 0 to 4,800 0 to 120 98 0.98 at all loads and speeds 110% for 60 s, 100% continuous 0.1 to 6,000 2 selectable voltages or currents 8 selectable voltages or currents, programmable 8 fully programmable 6 fully programmable NEMA 1 14 to 104 [–10 to 40] CE and UL
SpeedStar SWD System (932 kVA) Unit
Dimensions (W × H × D), in. [cm]
Weight, lbm [kg]
Input transformer
84 × 65 × 54 [213 × 165 × 137] 94 × 117 × 44 [239 × 297 × 112] 84 × 65 × 54 [213 × 165 × 137]
10,582 [4,800]
SWD Output transformer
5,071 [2,300] 10,582 [4,800]
SpeedStar MVD System (893 kVA) Unit
Dimensions (W × H × D), in. [cm]
Weight, lbm [kg]
Input transformer
na†
na
MVD
104 × 74 × 44 [264 × 188 × 112] na
7,518 [3,410]
Output transformer † not
na
applicable
Variable Speed Drives
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SpeedStar MVD Variable Speed Drives
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© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
SpeedStar SWD Variable Speed Drives SpeedStar SWD* VSDs—NEMA 3R, 6 Pulse, 122°F [50°C] Ambient Temperature Rated Rating at 480 V, 60 Hz
Rating at 380 V, 50 Hz
Rated Output, A
Weight, lbm [kg]
Dimensions (W × H × D), in. [cm]
Part Number
200 260 390 454 518 600 700 815 932 1,000 1,200
158 206 309 359 410 475 554 645 738 792 950
241 313 469 546 624 722 843 981 1,122 1,203 1,445
1,500 [681] 2,000 [908] 2,000 [908] 2,000 [908] 3,100 [1,408] 3,100 [1,408] 3,100 [1,408] 3,100 [1,408] 5,000 [2,270] 5,000 [2,270] 5,000 [2,270]
32 × 96 × 31 [81 × 244 × 79] 46 × 96 × 38 [117 × 244 × 97] 46 × 96 × 38 [117 × 244 × 97] 46 × 96 × 38 [117 × 244 × 97] 89 × 96 × 44 [226 × 244 × 112] 89 × 96 × 44 [226 × 244 × 112] 89 × 96 × 44 [226 × 244 × 112] 89 × 96 × 44 [226 × 244 × 112] 117 × 96 × 44 [297 × 244 × 112] 117 × 96 × 44 [297 × 244 × 112] 117 × 96 × 44 [297 × 244 × 112]
100158876 100158883 100158893 100158896 100159003 100159020 100159022 100159027 100159034 100159038 100159043
SpeedStar SWD VSDs—NEMA 3R, 6 Pulse, 104°F [40°C] Ambient Temperature Rated Rating at 480 V, 60 Hz
Rating at 380 V, 50 Hz
Rated Output, A
Weight, lbm [kg]
Dimensions (W × H × D), in. [cm]
Part Number
518 932 1,000 1,400 1,500
410 738 792 1,108 1,188
623 1,121 1,203 1,684 1,804
2,000 [908] 3,100 [1,407] 3,100 [1,407] 5,000 [2,270] 5,000 [2,270]
46 × 96 × 38 [117 × 244 × 97] 89 × 96 × 44 [226 × 244 × 112] 89 × 96 × 44 [226 × 244 × 112] 117 × 96 × 44 [287 × 144 × 118] 117 × 96 × 44 [287 × 144 × 118]
100158998 100159031 100159038 100159046 100159049
SpeedStar SWD VSDs—NEMA 3R, 12 Pulse, 122°F [50°C] Ambient Temperature Rated Rating at 480 V, 60 Hz
Rating at 380 V, 50 Hz
Rated Output, A
Weight, lbm [kg]
Dimensions (W × H × D), in. [cm]
Part Number
200 260 390 454 518 600 700 815 932 1,000 1,200
158 206 309 359 410 475 554 645 738 792 950
241 313 469 546 624 722 843 981 1,122 1,203 1,445
1,500 [681] 2,000 [908] 2,000 [908] 2,000 [908] 3,100 [1,407] 3,100 [1,407] 3,100 [1,407] 3,100 [1,407] 5,000 [2,270] 5,000 [2,270] 5,000 [2,270]
32 × 96 × 31 [81 × 244 × 79] 46 × 96 × 38 [117 × 244 × 97] 46 × 96 × 38 [117 × 244 × 97] 46 × 96 × 38 [117 × 244 × 97] 89 × 96 × 44 [226 × 244 × 112] 89 × 96 × 44 [226 × 244 × 112] 89 × 96 × 44 [226 × 244 × 112] 89 × 96 × 44 [226 × 244 × 112] 117 × 96 × 44 [297 × 244 × 112] 117 × 96 × 44 [297 × 244 × 112] 117 × 96 × 44 [297 × 244 × 112]
100158882 100158884 100158894 100158897 100159005 100159021 100159023 100159028 100159035 100159041 100159044
Variable Speed Drives
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© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Revised 6/2006
SpeedStar SWD
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SpeedStar SWD* VSDs—NEMA 3R, 12 Pulse, 104°F [40°C] Ambient Temperature Rated Rating at 480 V, 60 Hz
Rating at 380 V, 50 Hz
Rated Output, A
Weight, lbm [kg]
Dimensions (W × H × D), in. [cm]
Part Number
518 932 1,000 1,400 1,500
410 738 792 1,108 1,188
623 1,121 1,203 1,684 1,804
2,000 [908] 3,100 [1,407] 3,100 [1,407] 5,000 [2,270] 5,000 [2,270]
46 × 96 × 38 [117 × 244 × 97] 46 × 96 × 38 [117 × 244 × 97] 46 × 96 × 38 [117 × 244 × 97] 117 × 96 × 44 [297 × 244 × 112] 117 × 96 × 44 [297 × 244 × 112]
100159000 100159032 100159039 100159047 100159050
SpeedStar SWD VSDs—NEMA 1, 6 Pulse, 122°F [50°C] Ambient Temperature Rated Rating at 480 V, 60 Hz
Rating at 380 V, 50 Hz
Rated Output, A
Weight, lbm [kg]
Dimensions (W × H × D), in. [cm]
Part Number
200 260 390 454 518 600 700 815 932 1,000 1,200
158 206 309 359 410 475 554 645 738 792 950
241 313 469 546 624 722 843 981 1,122 1,203 1,445
1,500 [681] 2,000 [908] 2,000 [908] 2,000 [908] 3,100 [1,407] 3,100 [1,407] 3,100 [1,407] 3,100 [1,407] 5,000 [2,270] 5,000 [2,270] 5,000 [2,270]
25 × 96 × 29 [64 × 244 × 74] 37 × 96 × 36 [94 × 244 × 91] 37 × 96 × 36 [94 × 244 × 91] 37 × 96 × 36 [94 × 244 × 91] 72 × 96 × 42 [183 × 244 × 107] 72 × 96 × 42 [183 × 244 × 107] 72 × 96 × 42 [183 × 244 × 107] 72 × 96 × 42 [183 × 244 × 107] 84 × 96 × 42 [213 × 244 × 107] 84 × 96 × 42 [213 × 244 × 107] 84 × 96 × 42 [213 × 244 × 107]
100159093 100159097 100159185 100159187 100159200 100159675 100159679 100159685 100159690 100159695 100159698
SpeedStar SWD VSDs—NEMA 1, 6 Pulse, 104°F [40°C] Ambient Temperature Rated Rating at 480 V, 60 Hz
Rating at 380 V, 50 Hz
Rated Output, A
Weight, lbm [kg]
Dimensions (W × H × D), in. [cm]
Part Number
518 932 1,000 1,400 1,500
410 738 792 1,108 1,188
623 1,121 1,203 1,684 1,804
2,000 [908] 3,100 [1,407] 3,100 [1,407] 5,000 [2,270] 5,000 [2,270]
37 × 96 × 36 [94 × 244 × 91] 72 × 96 × 42 [183 × 244 × 107] 72 × 96 × 42 [183 × 244 × 107] 84 × 96 × 42 [213 × 244 × 107] 84 × 96 × 42 [213 × 244 × 107]
100159198 100159688 100159693 100159700 100159702
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Revised 6/2006
ESP Catalog
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SpeedStar SWD Variable Speed Drives SpeedStar SWD* VSDs—NEMA 1, 12 Pulse, 122°F [50°C] Ambient Temperature Rated Rating at 480 V, 60 Hz
Rating at 380 V, 50 Hz
Rated Output, A
Weight, lbm [kg]
Dimensions (W × H × D), in. [cm]
Part Number
200 260 390 454 518 600 700 815 932 1,000 1,200
158 206 309 359 410 475 554 645 738 792 950
241 313 469 546 624 722 843 981 1,122 1,203 1,445
1,500 [681] 2,000 [908] 2,000 [908] 2,000 [908] 3,100 [1,407] 3,100 [1,407] 3,100 [1,407] 3,100 [1,407] 5,000 [2,270] 5,000 [2,270] 5,000 [2,270]
25 × 96 × 29 [64 × 244 × 74] 37 × 96 × 36 [94 × 244 × 91] 37 × 96 × 36 [94 × 244 × 91] 37 × 96 × 36 [94 × 244 × 91] 72 × 96 × 42 [183 × 244 × 107] 72 × 96 × 42 [183 × 244 × 107] 72 × 96 × 42 [183 × 244 × 107] 72 × 96 × 42 [183 × 244 × 107] 84 × 96 × 42 [213 × 244 × 107] 84 × 96 × 42 [213 × 244 × 107] 84 × 96 × 42 [213 × 244 × 107]
100159096 100159098 100159186 100159189 100159201 100159676 100159680 100159686 100159691 100159696 100159699
SpeedStar SWD VSDs—NEMA 1, 12 Pulse, 104°F [40°C] Ambient Temperature Rated Rating at 480 V, 60 Hz
Rating at 380 V, 50 Hz
Rated Output, A
Weight, lbm [kg]
Dimensions (W × H × D), in. [cm]
Part Number
518 932 1,000 1,400 1,500
410 738 792 1,108 1,188
623 1,121 1,203 1,684 1,804
2,000 [908] 3,100 [1,407] 3,100 [1,407] 5,000 [2,270] 5,000 [2,270]
37 × 96 × 36 [94 × 244 × 91] 72 × 96 × 42 [183 × 244 × 107] 72 × 96 × 42 [183 × 244 × 107] 84 × 96 × 42 [213 × 244 × 107] 84 × 96 × 42 [213 × 244 × 107]
100159199 100159689 100159694 100159701 100159703
Variable Speed Drives
■
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Revised 6/2006
SpeedStar SWD
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SpeedStar 2000 Plus Variable Speed Drives SpeedStar 2000 Plus VSDs—NEMA 3R, 6 Pulse, 122°F [50°C] Ambient Temperature Rated Rating at 480 V, 60 Hz
Rating at 380 V, 50 Hz
Rated Output, A
Weight, lbm [kg]
Dimensions (W × H × D), in. [cm]
Part Number
66 83 111 130 163 200 260 390 454 518 600 700 815 932 1,000 1,200
52 66 88 103 129 158 206 309 359 410 475 554 645 738 792 950
79 100 133 156 196 241 313 469 546 624 722 843 981 1,122 1,203 1,445
1,000 [454] 1,000 [454] 1,000 [454] 1,000 [454] 1,000 [454] 1,000 [454] 1,200 [545] 1,200 [545] 1,200 [545] 2,000 [908] 2,000 [908] 2,000 [908] 2,000 [908] 2,000 [908] 2,000 [908] 3,500 [1,590]
32 × 78 × 31 [81 × 198 × 79] 32 × 78 × 31 [81 × 198 × 79] 32 × 78 × 31 [81 × 198 × 79] 32 × 78 × 31 [81 × 198 × 79] 32 × 78 × 31 [81 × 198 × 79] 32 × 78 × 31 [81 × 198 × 79] 46 × 78 × 38 [117 × 198 × 97] 46 × 78 × 38 [117 × 198 × 97] 46 × 78 × 38 [117 × 198 × 97] 89 × 78 × 44 [226 × 198 × 112] 89 × 78 × 44 [226 × 198 × 112] 89 × 78 × 44 [226 × 198 × 112] 89 × 78 × 44 [226 × 198 × 112] 89 × 78 × 44 [226 × 198 × 112] 89 × 78 × 44 [226 × 198 × 112] 117 × 78 × 44 [297 × 198 × 112]
100159765 100159774 100159787 100159796 100159799 100159801 100159827 100159973 100159976 100159988 100159995 100159997 100160013 100160015 100160018 100160038
SpeedStar 2000 Plus VSDs—NEMA 3R, 6 Pulse, 104°F [40°C] Ambient Temperature Rated Rating at 480 V, 60 Hz
Rating at 380 V, 50 Hz
Rated Output, A
Weight, lbm [kg]
Dimensions (W × H × D), in. [cm]
Part Number
518 1,400 1,500
410 1,108 1,187
624 1,684 1,804
1,200 [545] 3,500 [1,589] 3,500 [1,589]
46 × 78 × 38 [117 × 198 × 97] 46 × 78 × 38 [117 × 198 × 97] 46 × 78 × 38 [117 × 198 × 97]
100159984 100160040 100160128
Variable Speed Drives
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SpeedStar 2000 Plus
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© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Revised 6/2006
SpeedStar 2000 Plus VSDs—NEMA 3R, 12 Pulse, 122°F [50°C] Ambient Temperature Rated Rating at 480 V, 60 Hz
Rating at 380 V, 50 Hz
Rated Output, A
Weight, lbm [kg]
Dimensions (W × H × D), in. [cm]
Part Number
66 83 111 130 163 200 260 390 454 518 600 700 815 932 1,000 1,200
52 66 88 103 129 158 206 309 359 410 475 554 645 738 792 950
79 100 133 156 196 241 313 469 546 624 722 843 981 1,122 1,203 1,445
1,000 [454] 1,000 [454] 1,000 [454] 1,000 [454] 1,000 [454] 1,000 [454] 1,200 [545] 1,200 [545] 1,200 [545] 2,000 [908] 2,000 [908] 2,000 [908] 2,000 [908] 2,000 [908] 2,000 [908] 3,500 [1,589]
32 × 78 × 31 [81 × 198 × 79] 32 × 78 × 31 [81 × 198 × 79] 32 × 78 × 31 [81 × 198 × 79] 32 × 78 × 31 [81 × 198 × 79] 32 × 78 × 31 [81 × 198 × 79] 32 × 78 × 31 [81 × 198 × 79] 46 × 78 × 38 [117 × 198 × 97] 46 × 78 × 38 [117 × 198 × 97] 46 × 78 × 38 [117 × 198 × 97] 89 × 78 × 44 [226 × 198 × 112] 89 × 78 × 44 [226 × 198 × 112] 89 × 78 × 44 [226 × 198 × 112] 89 × 78 × 44 [226 × 198 × 112] 89 × 78 × 44 [226 × 198 × 112] 89 × 78 × 44 [226 × 198 × 112] 117 × 78 × 44 [297 × 198 × 112]
100159769 100159776 100159789 100159797 100159800 100159804 100159829 100159974 100159978 100159989 100159996 100160000 100160014 100160017 100160019 100160039
SpeedStar 2000 Plus VSDs—NEMA 3R, 12 Pulse, 104°F [40°C] Ambient Temperature Rated Rating at 480 V, 60 Hz
Rating at 380 V, 50 Hz
Rated Output, A
Weight, lbm [kg]
Dimensions (W × H × D), in. [cm]
Part Number
518 1,400 1,500
410 1,108 1,187
624 1,684 1,804
1,200 [545] 3,500 [1,589] 3,500 [1,589]
46 × 78 × 38 [117 × 198 × 97] 117 × 78 × 44 [297 × 198 × 112] 117 × 78 × 44 [297 × 198 × 112]
100159985 100160041 100160129
SpeedStar 2000 Plus VSDs—NEMA 1, 6 Pulse, 122°F [50°C] Ambient Temperature Rated Rating at 480 V, 60 Hz
Rating at 380 V, 50 Hz
Rated Output, A
Weight, lbm [kg]
Dimensions (W × H × D), in. [cm]
Part Number
66 83 111 130 163 200 260 390 454 518 600 700 815 932 1,000 1,200
52 66 88 103 129 158 206 309 359 410 475 554 645 738 792 950
79 100 133 156 196 241 313 469 546 624 722 843 981 1,122 1,203 1,445
1,000 [454] 1,000 [454] 1,000 [454] 1,000 [454] 1,000 [454] 1,000 [454] 1,200 [545] 1,200 [545] 1,200 [545] 2,000 [908] 2,000 [908] 2,000 [908] 2,000 [908] 2,000 [908] 2,000 [908] 3,500 [1,589]
25 × 78 × 29 [64 × 198 × 74] 25 × 78 × 29 [64 × 198 × 74] 25 × 78 × 29 [64 × 198 × 74] 25 × 78 × 29 [64 × 198 × 74] 25 × 78 × 29 [64 × 198 × 74] 25 × 78 × 29 [64 × 198 × 74] 37 × 78 × 36 [94 × 198 × 91] 37 × 78 × 36 [94 × 198 × 91] 37 × 78 × 36 [94 × 198 × 91] 72 × 78 × 42 [183 × 198 × 107] 72 × 78 × 42 [183 × 198 × 107] 72 × 78 × 42 [183 × 198 × 107] 72 × 78 × 42 [183 × 198 × 107] 72 × 78 × 42 [183 × 198 × 107] 72 × 78 × 42 [183 × 198 × 107] 84 × 78 × 42 [213 × 198 × 107]
100160130 100160156 100160159 100160189 100160191 100160194 100160197 100160331 100160335 100160435 100160456 100160458 100168746 100168789 100168819 100168873
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Revised 6/2006
ESP Catalog
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SpeedStar 2000 Plus Variable Speed Drives SpeedStar 2000 Plus VSDs—NEMA 1, 6 Pulse, 104°F [40°C] Ambient Temperature Rated Rating at 480 V, 60 Hz
Rating at 380 V, 50 Hz
Rated Output, A
Weight, lbm [kg]
Dimensions (W × H × D), in. [cm]
Part Number
518 1,400 1,500
410 1,108 1,187
624 1,684 1,804
1,200 [545] 3,500 [1,589] 3,500 [1,589]
37 × 78 × 36 [94 × 198 × 91] 84 × 78 × 42 [213 × 198 × 107] 84 × 78 × 42 [213 × 198 × 107]
100160432 100168886 100168895
SpeedStar 2000 Plus VSDs—NEMA 1, 12 Pulse, 122°F [50°C] Ambient Temperature Rated Rating at 480 V, 60 Hz
Rating at 380 V, 50 Hz
Rated Output, A
Weight, lbm [kg]
Dimensions (W × H × D), in. [cm]
Part Number
66 83 111 130 163 200 260 390 454 518 600 700 815 932 1,000 1,200
52 66 88 103 129 158 206 309 359 410 475 554 645 738 792 950
79 100 133 156 196 241 313 469 546 624 722 843 981 1,122 1,203 1,445
1,000 [454] 1,000 [454] 1,000 [454] 1,000 [454] 1,000 [454] 1,000 [454] 1,200 [545] 1,200 [545] 1,200 [545] 2,000 [908] 2,000 [908] 2,000 [908] 2,000 [908] 2,000 [908] 2,000 [908] 3,500 [1,589]
25 × 78 × 29 [64 × 198 × 74] 25 × 78 × 29 [64 × 198 × 74] 25 × 78 × 29 [64 × 198 × 74] 25 × 78 × 29 [64 × 198 × 74] 25 × 78 × 29 [64 × 198 × 74] 25 × 78 × 29 [64 × 198 × 74] 37 × 78 × 36 [94 × 198 × 91] 37 × 78 × 36 [94 × 198 × 91] 37 × 78 × 36 [94 × 198 × 91] 72 × 78 × 42 [183 × 198 × 107] 72 × 78 × 42 [183 × 198 × 107] 72 × 78 × 42 [183 × 198 × 107] 72 × 78 × 42 [183 × 198 × 107] 72 × 78 × 42 [183 × 198 × 107] 72 × 78 × 42 [183 × 198 × 107] 84 × 78 × 42 [213 × 198 × 107]
100160131 100160158 100160160 100160190 100160192 100160196 100160198 100160333 100160336 100160436 100160457 100160461 100168758 100168790 100168821 100168876
SpeedStar 2000 Plus VSDs—NEMA 1, 12 Pulse, 104°F [40°C] Ambient Temperature Rated Rating at 480 V, 60 Hz
Rating at 380 V, 50 Hz
Rated Output, A
Weight, lbm [kg]
Dimensions (W × H × D), in. [cm]
Part Number
518 1,400 1,500
410 1,108 1,187
624 1,684 1,804
1,200 [545] 3,500 [1,589] 3,500 [1,589]
37 × 78 × 36 [94 × 198 × 91] 84 × 78 × 42 [213 × 198 × 107] 84 × 78 × 42 [213 × 198 × 107]
100160433 100168887 100168896
Variable Speed Drives
■
SpeedStar 2000 Plus
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© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Revised 6/2006
SpeedStar Titan Variable Speed Drives SpeedStar Titan* VSDs—NEMA 3R, 6 Pulse, Variable Rated Rating at 480 V, 60 Hz
Rating at 380 V, 50 Hz
Rated Output, A
Weight, lbm [kg]
Dimensions, (W × H × D), in. [cm]
Part Number
200 390 518
158 309 410
240 469 624
1,670 [758] 2,120 [962] 2,320 [1,052]
107 × 55 × 29 [272 × 140 × 74] 107 × 55 × 29 [272 × 140 × 74] 107 × 55 × 29 [272 × 140 × 74]
100122199 100122200 100122201
Note: Equipped with arctic package
SpeedStar Titan VSDs—NEMA 3R, 6 Pulse, Variable Rated Rating at 480 V, 60 Hz
Rating at 380 V, 50 Hz
Rated Output, A
Weight, lbm [kg]
Dimensions, (W × H × D), in. [cm]
Part Number
200 390 518
158 309 410
240 469 624
1,870 [848] 2,320 [1,052] 2,620 [1,279]
107 × 55 × 29 [272 × 140 × 74] 107 × 55 × 29 [272 × 140 × 74] 107 × 55 × 29 [272 × 140 × 74]
100122196 100122197 100122198
Note: Equipped with arctic package and sine wave filter
Variable Speed Drives
■
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
SpeedStar Titan
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SpeedStar MVD Variable Speed Drives SpeedStar MVD* VSDs—NEMA 1, 24 Pulse at 4,160-V Input Rating, hp/A
Drive Output, kVA at 4,160-V Output Voltage
Ambient Temperature, °F [°C]
Dimensions (H × W × D), in. [cm]
Part Number
104 × 74 × 44 [264 × 188 × 112] 104 × 74 × 44 [264 × 188 × 112] 104 × 74 × 44 [264 × 188 × 112] 104 × 74 × 44 [264 × 188 × 112] 104 × 74 × 44 [264 × 188 × 112] 104 × 74 × 44 [264 × 188 × 112] 104 × 122 × 44 [264 × 310 × 112] 104 × 122 × 44 [264 × 310 × 112] 104 × 122 × 44 [264 × 310 × 112] 104 × 122 × 44 [264 × 310 × 112]
100120034
500/62
447
104 [40]
600/74
536
104 [40]
700/87
625
104 [40]
800/99
715
104 [40]
900/112
804
104 [40]
1,000/124
893
104 [40]
1,250/155
1,116
104 [40]
1,500/186
1,340
104 [40]
1,750/217
1,563
104 [40]
2,000/248
1,786
104 [40]
Variable Speed Drives
■
100120045 100120048 100120053 100120054 100120060 100120065 100120066 100120067 100120069
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Revised 6/2006
SpeedStar MVD
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SpeedStar Accessories espWatcher* Wellsite Hardware Description
Factory Installed Part Number
Field Installed Part Number
Stand-alone SCB-AA, North American version Stand-alone SCB-BA, global version Internally mounted SCB-AA for SpeedStar* VSD or FixStar* FSD Internally mounted SCB-BA for SpeedStar VSD or FixStar FSD Modbus™ multiplexer used to interface SCADA and espWatcher system
na† na tba‡ tba na
AC900001 AC900003 100139656 100139658 100134389
† not ‡ to
applicable be assigned
SpeedStar* Harmonics Line and Load Filters Description
Max. Voltage, V
Current Rating, A
Part Number
R992 5.3-kV load filter, standard configuration with M009 relay R992 3.5-kV load filter, standard configuration with M009 relay R991 resonant analyzer
5,300 3,500 na†
32 to 110 27 to 94 na
100048488 100053628 AC01122-SYS1
† not
applicable
Variable Speed Drives
■
SpeedStar Accessories
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© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Modbus™ is a trademark of Gould, Inc. Revised 6/2006
Motor Controllers
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UniConn Universal Site Controller Applications ■
■
■
Fixed and variable speed drive (VSD) motor controllers Surface acquisition for downhole monitoring of flowing and artificially lifted wells Wellsite interface for all artificially lifted and monitored wells
Benefits ■
■
■
■
Provides centralized data gathering and storage for troubleshooting and engineering analysis Provides ultimate control and data management to protect total ESP system investment Simplifies operation and maintenance Reduces equipment operation and training costs
Features ■
■
■
One common, expandable platform for all ESP controllers and downhole data acquisition interfaces Proven reliability and integrity in all environmental conditions Remote setup capability with multiple SCADA and Schlumberger satellite-based control system or both
The UniConn* universal site controller provides a single common platform for ESP system protection, control, and data acquisition. In its basic configuration, this is a fixed speed controller. Through the use of standard expansion cards, it can easily be adapted to variable speed applications and used as a data acquisition hub in artificially lifted and naturally flowing wells. The UniConn controller replaces the multiple surface components commonly needed in ESP applications requiring downhole data acquisition and remote monitoring and control. Wellsite data acquisition is simplified by providing a single-portal functionality for all system integration and automation requirements. The universal design allows the UniConn controller to use the same hardware module for all fixed speed drives (FSD) and VSD control applications. Firmware upgrades can be performed using a personal computer in a Schlumberger service center or at the wellsite. Typically, the upgrades are completed in less than 1 min. Alternate or additional surface system functionality is achieved through the use of expansion cards inserted in the rear of the unit. Each expansion card is plug-and-play with card control menus automatically added to the UniConn front panel screen.
USC 100 interface card The USC 100 card interfaces the UniConn controller with landline- and satellite-based SCADA systems. With four individually configurable expansion card slots, the UniConn controller can support up to four independent communication systems simultaneously. Standard Modbus™ protocol over an RS232 or RS485 connector is used. Motor Controllers
■
UniConn Universal Site Controller
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Revised 6/2006
For satellite-based SCADA, the USC 100 card provides the connection to the site communication box (SCB) used for data transmission to facilitate the espWatcher* surveillance and control system for ESPs. Specially modified to complement the UniConn controller, the SCB mounts inside the enclosure of a SpeedStar* VSD or the low-voltage compartment of a FixStar* FSD motor-control panel, providing optimized system packaging.
USC 200 interface card The USC 200 card is the electronic interface between the Phoenix* artificial lift monitoring systems and accessories and the UniConn controller. The unified interface shares the UniConn controller’s local display and keypad, which provides access to all controller and downhole pressure, temperature and vibration data, and their associated protection parameters. The USC 200 card provides the direct current power required by Phoenix downhole gauges and acquires the measurement outputs from them. Additionally, the USC 200 card’s functionality provides regular diagnostic measurement of the downhole gauge operation and telemetry. The USC 200 interface card is compatible with Phoenix downhole monitoring systems—MultiSensor* well monitoring unit for submersible pump completions (types 0, 1, and 2) and MultiSensor XT and Select* artificial lift downhole monitoring gauges.
Universal user interface The UniConn controller’s local display and interface provide user-friendly access for data display, parameter set-point adjustment, and FSD or VSD control functionality. The backlit liquid crystal screen has two highdefinition 40-character lines for
enhanced data display. In addition, four fixed-function and five multifunction keys are provided to facilitate simple control. Standard switchboard and VSD instrumentation such as status lights, mode selection, and start-stop controls have been incorporated into the UniConn interface. English is the standard display screen language; however, other languages are available as required. Additionally, all diagnostics and alarms are displayed in plain language rather than codes, eliminating crossreference tables and manuals. Facilitation control, measured data, associated protection, and control parameters are organized into menuaccessible tables. Menus associated with specific expansion cards automatically appear and disappear as the specific card is inserted into or removed from one of the expansion slots.
Protect your assets The UniConn controller can monitor multiwell and ESP operating data points, depending on the scope of the ESP instrumentation. It protects the total ESP system from fault conditions on any of the monitored signals. The controller can be configured to send alarms, await user intervention, and shut down the system to prevent restart until the alarm or fault situations have been rectified. All protection alarms can be configured as set-point violations, programmable under multiple password-protected layers, and with adjustable time curves and actions. Most shutdown functions are set in the factory during manufacturing and need only be adjusted for specialized applications.
Monitor operating parameters The UniConn controller has internal memory to maintain a record of up to 500 alarms and events, greatly assisting the troubleshooting process. In addition, an external programmable memory module, installed through the faceplate, expands this functionality and enables enhanced data analysis. Up to 16 data channels can be specified to individually log, at required intervals, the information stored for diagnostic needs. Enhanced onsite data viewing, downloading, and device programming capabilities are available using the StarView* wellsite display software. The UniConn controller accommodates four analog and six digital inputs and provides two analog and four digital outputs. Each input and output channel is independently configurable, including associated motor protection parameters.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Modbus™ is a trademark of Gould, Inc.
ESP Catalog
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UniConn Universal Site Controller UniConn* Controller—SpeedStar* Monitoring and Control Parameters
Monitored parameters
Standard Configuration
Upgrade Options
VSD output current ESP running current VSD input and output voltage Supply voltage VSD input and output power VSD output frequency
3-phase current measurement 3-phase current measurement 3-phase voltage measurement
ESP spinning frequency Leg-ground detection
Control functions and parameters
Protection configuration
Target speed, min. and max. speed, base speed Jump frequencies and bandwidths V per Hz pattern and slope Catch a spinning motor Acceleration and deceleration rate, speed pattern Stop mode, pulse width modulated carrier frequency Base speed voltage selection Rocking start frequency and number of attempts Stall protection—automatic speed reduction Motor rotation direction without stopping Speed force mode Speed follower mode Constant current feedback control mode Constant pressure feedback control mode Current overload and underload High and low supply voltage Undervoltage ride-through
Current unbalance Voltage unbalance Overvoltage and undervoltage ESP backspin detection Leg-ground detection
UniConn Controller—Switchboard Monitoring and Control Parameters Monitored Parameters
Protection Configuration
ESP system 3-phase currents 3-phase surface voltage Supply voltage and frequency ESP spinning frequency and leg ground Power factor
Overload, underload, current unbalance, stall and short-circuit Overvoltage, undervoltage, voltage unbalance High and low supply voltage and frequency Spin and leg-ground alarm/trip Low power factor alarm/trip
Motor Controllers
■
UniConn Universal Site Controller
Back to Surface Power and Control
Revised 6/2006
UniConn* Universal Site Controller Specifications Dimensions Unit, H × W × D, in. [cm] Faceplate, H × W, in. [cm] Weight, lbm [kg] Power supply Alternating current (AC) Direct current (DC) Temperature Operating range, °F [°C] CE compliant Storage range, °F [°C] CE compliant Expansion card slots and protocol Digital output Digital input Current transformer Voltage instrument transformer Analog input Analog output Maintenance port Qualification
5.5 × 8.3 × 6.0 [14 × 21 × 15] 7.5 × 10.5 [19 × 27] 6.6 [3.0] 100- to 250-V rms, 1 A, both 50 and 60 Hz (300-V rms max. over range) 24 V ± 2%, 2 A –40 to 167 [–40 to 75] –40 to 131 [–40 to 55] –76 to 185 [–60 to 85] –40 to 185 [–40 to 85] Four Modbus™ standard (RS232 and RS485 format) Four channels, 100- to 260-V AC rms, 10- to 28-V DC, 3 A max. Six channels, 24-V DC power internally supplied One UniConn current module only, with appropriate burden resistors for 50-, 100-, and 200-A sizes (fixed speed applications; optional for variable speed applications) Three 1-VA rated,120-V AC rms nominal (250-V rms max. over range) output (5-kV input max.) (fixed speed applications; optional for variable speed applications) Four insulated, double-wire channels; 0- to 10-V DC (0- to 20-mA) Two individually configurable 4- to 20-mA current loops Standard serial port connector DB9 (RS232) CE, UL, CSA
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Modbus™ is a trademark of Gould, Inc.
ESP Catalog
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StarView Software Applications ■
■
■
Configure UniConn* controller and memory card through personal computer (PC) Download UniConn controller event log and configure through a PC Configure and download UniConn data log through memory module
Benefits ■
■
■
Simplifies field operations through easier UniConn controller commissioning and setup process Improves ESP performance and run life through simplified data analysis and troubleshooting Enables efficient storage and data retrieval because of better well data record keeping
Features ■
■
■
■
■
■
■
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Plain English displays—no code translation required Uses simple, intuitive software structure Enables access and control of UniConn controller data and input parameters by PC Allows configuration and event log data snapshot capture Time- and well-based data storage system Uses all UniConn controller configurations and modules Logs multiple data channels with variable sample rates Uses a reader connected to a PC through a USB port to download data
Motor Controllers
■
StarView* wellsite display software enables the user to access the UniConn universal site controller from a PC. Connection to a PC is made through the serial port on the controller’s faceplate using a standard DB-9 serial connector. While using StarView software is not mandatory to operate the UniConn controller, the software provides many advantages to field users. StarView software enables simple and easy access to all parameters of the UniConn controller, including all installed and configured expansion cards. All live data values, active and latched alarms, and event logs are viewed from the main screen. By selecting the window specific to the parameter category, a pop-up window is generated showing all the set-point and protection parameters related to those live values. When a PC using the StarView application is connected to an operational UniConn controller, the displayed data are updated continuously. A snapshot of all current data, input parameters, and event logs at certain points in time are captured in the StarView software. This allows for analysis of ESP operations. The StarView software provides a powerful tool to help analyze well and equipment performances and failures. All stored data are organized by well name, providing efficient data storage and easy data search and retrieval. Additionally, the StarView software simplifies field operations. By clicking one button, all the controller’s well commissioning and set-up process parameters can be preset in a controlled environment, stored in the software, and uploaded at the wellsite.
StarView Software
Revised 6/2006
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When closer analysis of well and equipment performance is required, a memory module is used in conjunction with the StarView software to log all continuous data acquired in the UniConn controller. The UniConn controller’s memory module allows the operator to log up to 1,000,000 data points for as many as 16 parameters in parallel. Each parameter is logged with a sampling frequency as high as one sample per second. Sampling frequency is configurable for each parameter to minimize
extraneous data and optimize file size for the intended application. This capability permits the UniConn controller to gather a large amount of data over a long time span, enabling detailed analyses of well and equipment performance. For example, an overall data log of 8 parameters, sampled every 10 min for more than 1 yr, can be stored in a single memory module. Data acquired using a memory module can be downloaded and viewed with a PC using a USB port. This data can be viewed using StarView software.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Revised 6/2006
ESP Catalog
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Motor Controllers Summary UniConn* Universal Site Controller Description
Part Number
UniConn base unit UniConn base unit with outdoor enclosure USC 100 communication card Memory module for storing operating performance data, 4-MB storage capacity Memory module USB reader for downloading data to StarView* software UniConn base unit with SpeedStar* variable speed drive retrofit kit to replace HMI units
100018805 100188994 100228568 100203033 100171741 100189002
UniConn Controller Options for Phoenix* Downhole Monitoring Systems Description
Part Number
USC 200 Phoenix downhole monitoring gauge interface card Phoenix downhole monitoring surface kit, complete with USC 200 card, memory module, and ESP power cable interface for use with UniConn controller in medium-voltage FixStar* applications. Factory installed. Phoenix downhole monitoring surface kit, complete with USC 200 card, memory module, and ESP power cable interface for use with UniConn controller in medium-voltage FixStar applications. Field installed. Phoenix downhole monitoring surface kit, complete with USC 200 card, memory module, and ESP power cable interface for use with UniConn controller in low-voltage FixStar or SpeedStar VSD applications. Field installed. Phoenix downhole monitoring surface kit, complete with USC 200 card, memory module, and ESP power cable interface for use with UniConn controller in low-voltage FixStar or SpeedStar VSD applications. Factory installed. Phoenix choke console with ESP power cable interface for Phoenix ESP gauges (with enclosure) Phoenix choke plate, with ESP power cable interface for Phoenix ESP gauges (without enclosure) UniConn controller base unit for Select* CTS, complete with USC 200 card, memory module, and outdoor enclosure Phoenix surface cable pack for Select CTS applications, complete with surface cable and junction box
100129807 100139602
† to
100139654 100139655 tba† A446020-031 A446021 100240291 100075758
be assigned
Keltronics Motor Controllers Description
Part Number
Keltronics K595 motor protection unit Keltronics K595 motor protection unit and flush-mount bracket Keltronics K095 advanced motor controller with backspin and communication option Keltronics L095 display with interface cable to Keltronics K095 Keltronics L095 display with interface cable and flush-mount bracket Keltronics L095 display with interface cable and EEPROM upgrade to enable IMPAC communication Keltronics L095 display with interface cable, flush-mount bracket, and EEPROM upgrade to enable IMPAC communication Keltronics L095 with Cyrillic display, interface cable, and EEPROM upgrade to enable IMPAC communication Keltronics D095 ground fault converter
7000045 7062904 1157593 1157106 1157635 1260629 2003714 7009202 1157668
Motor Controllers
■
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Revised 6/2006
Summary
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Backspin Protection Description
Part Number
A095 backspin shunt, 400 to 1,000 V A095 backspin shunt, 400 to 1,000 V with 50-ft [15-m] cable A095 backspin shunt, 800 to 2,000 V A095 backspin shunt, 800 to 2,000 V with 50-ft [15-m] cable A095 backspin shunt, 1,800 to 4,000 V A095 backspin shunt, 1,800 to 4,000 V with 50-ft [15-m] cable A095 backspin shunt, 3,000 to 5,000 V Backspin relay, advanced A499, 120 V, 50 or 60 Hz Backspin relay, advanced A499, 240 V, 50 or 60 Hz
1157742 AC05262-15.0 1157734 AC05225-15.0 1157122 AC05226-15.0 7003619 2006018 AC05229-240
Potential and Current Transfomers Description
Part Number
Current transformer for 3-phase current sensing, 200-A max. rating Current transformer, 50-A burden assembly Current transformer, 100-A burden assembly Current transformer, 200-A burden assembly Current transformer for Keltronics K595 or K095 contollers, multiple-tap, 400:5, 200:5, and 100:5 ratios Instrument potential transformer, 480 V to 120 V Instrument potential transformer, 3,600 V multiple-tap to 120 V Instrument potential transformer, 5,400 V multiple-tap to 120 V
100072035 100074798 100096860 100072042 7000573 1157726 1157114 2003957
StarView* Software Description
Part Number
StarView software for Windows® 2000 and Windows XP StarView software serial connection cable between UniConn controller and computer
tba† 100052238
† to
be assigned
IMPAC Data Logging System Description
Part Number
IMPAC data receptacle, for use with K095 motor controller IMPAC data card, 20 site, for use with IMPAC data system IMPAC data card, 40 site, for use with IMPAC data system IMPAC data card, 80 site, for use with IMPAC data system IMPAC data card, 160 site, for use with IMPAC data system IMPAC PC/AT parallel port adapter, for use with IMPAC data system L095 IMPAC firmware Serial adapter assembly for IMPAC data card Mounting bracket for IMPAC chart recorder L-bracket for IMPAC mounting spacer
1182427 1182450 1182468 1182476 1182484 1182443 1182435 AC05278-SA 1182492 1182500
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Windows® is a registered trademark of Microsoft Corporation. Revised 6/2006
ESP Catalog
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Power and Control Accessories
Back to Surface Power and Control
StarShield TVSS Applications ■ ■ ■ ■ ■ ■
Variable speed drives (VSDs) Programmable logic controllers Progressive cavity pump top drives Beam pump motors Pumpoff controllers Instrumentation
Benefits ■
■
■ ■ ■
Increased current handling capability (up to 200 kA) Reduced residual voltage of metal oxide varistor (MOV)-based products Improved operations safety Enhanced system reliability Improved equipment protection
Features ■ ■ ■
■ ■
■
Operation without fuses UL listed Optional installation with large size cables or directly on bus bars (inline connection) NEMA 4 enclosure rating All products within specified tolerances 10-yr warranty
Power and Control Accessories
■
StarShield TVSS
Back to Surface Power and Control
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Revised 6/2006
Power line surges and other transient overvoltages can be introduced into a system by lightning strikes, local electric utilities, in-house operations, or adjacent facilities. These transients degrade electrical insulation by exceeding the device’s voltage rating, resulting in a reduction of reliability or destruction of equipment. For this reason, voltage surge protection must be used to safeguard power and control systems. Conventional transient voltage surge suppression (TVSS) systems and surge protection devices (SPDs) have been unable to provide reliable protection of oilfield electronics. In the event of power surges, these devices frequently emit smoke, catch fire, and become a safety hazard to operating personnel. The failure of conventional suppression devices can be attributed to poor design and obsolete technology that rely on small-diameter MOVs connected in parallel. Because of the limited handling capability and unequal current sharing, conventional devices use fuses to disconnect suppression systems in the event of a severe surge. This protects the suppression device from fire or explosion, but unavoidably leaves the electrical equipment unprotected against subsequent power surges.
The StarShield* TVSS system addresses the need for safer, more reliable protection devices. These TVSS systems are designed to protect a wide range of power and control installations. StarShield TVSS systems use a surge suppression module with a single heavyduty, distribution-grade MOV disk. The TVSS modules are available with 1.6-in. [40-mm] and 3.2-in. [80-mm] MOV disk sizes that handle currents of 120 or 140 kA and 200 kA, respectively. The unique design of the StarShield surge suppression module guarantees the ability to handle extremely high energy combined with low let-through voltages. This module minimizes the effects of aging and eliminates the risk of catastrophic failure, explosion, or fire, which are common in conventional SPDs. Since 2003, all Schlumberger VSDs have TVSS protection as a standard feature.
The StarShield TVSS module is a UL 1449 recognized surge protection module rated for operation without the use of additional internal fuses. This unique feature, combined with the ability to be directly connected to power lines or bus bars (inline connection), makes this TVSS system the most reliable SPD in the market and ensures better protection for critical electronic equipment. StarShield TVSS protection is available as a module, an internal retrofit kit for SpeedStar* VSDs, or an externally mounted stand-alone system for either the SpeedStar VSD, FixStar* FSDs, or other third-party surface power and control equipment. All StarShield TVSS systems are protected by a 10-yr warranty.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger Revised 6/2006
ESP Catalog
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Power Distribution and Control Skids Applications ■
ESP installations
Benefits ■ ■
■
Absolute quality assurance Continuous engineering support for commissioning, site testing, troubleshooting, and startup Equipment manufacturing in remote locations, as needed
Features ■
■ ■ ■
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Variable speed or fixed speed surface power and control modules Harmonic load and line filters Step-up or step-down transformer Subsurface tool and surface integration unit Arctic, desert, or jungle service rating Site communication equipment Backspin monitor UniConn* motor controller Variable speed drive (VSD) enclosures completely sealed and climate controlled for constant temperature in a dust-free environment
Power and Control Accessories
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Schlumberger designs fit-for-purpose power distribution and control-system skids for land and offshore oil and gas facilities. Manufacturing specialists build, test, and deliver standard as well as customized skid modules. These specialists can also coordinate manufacturing in remote locations.
Standard skid module The standard skid modules are available with variable speed or fixed speed surface power and control packages. A standard VSD package is available in three SpeedStar SWD* VSD ratings: 200–454 kVA, 518–815 kVA, and 932–1,500 kVA. The module is equipped with a step-up transformer and a phase-shifting input transformer for 12-pulse operation. Both the VSD and the transformers are mounted on a skid base. A standard fixed speed package is supplied with either a FixStar* fixed speed drive (FSD) switchboard or a soft starter. The FixStar package is available in five voltage ratings: 5 kV, 3.9 kV, 3.3 kV, 1.5 kV, and 600 V. The 600-V FixStar models have four current ratings to choose from: 45 A, 90 A, 135 A, and 270 A. The 5-, 3.9-, 3.3-, and 1.5-kV FixStar packages are rated for a 200-A current. All FixStar FSDs are equipped with a UniConn motor controller and have a step-down or step-up transformer mounted on a base skid. The standard skid module features harmonic load and line filters; a stepdown transformer; a subsurface tool and surface integration unit; an arctic, desert, or jungle service rating; site communication equipment; a backspin monitor; and a UniConn controller.
Power Distribution and Control Skids
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© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
Specialized designs Schlumberger designs and manufactures modules for use in arctic, desert, and jungle environments. All skid modules are assembled and tested prior to shipment. The project group works closely with the power systems and new product development groups to ensure that all skid components meet strict standards. The group can also coordinate equipment manufacturing in remote locations. To ensure absolute quality control, all engineering and quality-assurance testing is performed at the manufacturing center. Schlumberger offers a variety of SpeedStar VSD options for the skids, including VSDs from other manufacturers in addition to engineering services for commissioning, site testing, troubleshooting, and startup. Our manufacturing center is ISO 9001:2000 certified and enforces strict qualitycontrol procedures.
VSD enclosures Schlumberger also designs and manufactures outdoor-rated enclosures that house the VSD, line reactors, and associated controls and auxiliaries. The enclosures are completely sealed and climate-controlled to maintain a constant temperature in a dust-free environment.
© 2005 Schlumberger. All rights reserved. *Mark of Schlumberger
ESP Catalog
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Power and Control Accessories StarShield* TVSS Modules Part Number
Electrical characteristics MOV disk size, in. [mm] Nominal operating voltage, V Clamping voltage, peak (RMS) Max. continuous operating voltage, V Max. surge current, IMAX (8/20) NEMA LS1, kA Operating frequency range, Hz Response time, ns Leakage current at Vn , mA Energy handling 250 hits, 2-ms square waveform according to IEEE C62.11, A Standards compliance UL compliance CE marking Environmental properties Operating temperature, °F [°C] Environmental protection Mechanical properties Diameter, in. [cm] Height, in. [cm] Weight, lbm [kg]
100242174
100244461
100220423
100220424
1.6 [40] 277 607 (429) 350 140 0 to 500
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