Technical Report

PROFESSIONAL EXPERIENCE REPORT

Presented To Council for the Regulation of Engineering in Nigeria (COREN) By CHUKS EMU B.Eng. (Hons) Electrical Engineering University of Benin, Benin City, Edo State OF Makon Engineering and Technical Services Ltd.

IN FULFILMENT OF THE REQUIREMENT FOR REGISTRATION Into Council for the Regulation of Engineering in Nigeria (COREN)

September, 2012

TABLE OF CONTENTS ATTESTATION ............................................................................................................................................ 4 1.0

INTRODUCTION ............................................................................................................................ 5

SUMMARY OF EXPERIENCE..................................................................................................................... 5 1.1

Abbreviations and Definitions ................................................................................................. 5

CAREER OVERVIEW .................................................................................................................................. 9

2.0

3.0

4.0

1.2

Makon Engineering & Technical Services Limited, Lagos State .............................................. 9

1.3

China Petroleum Engineering & Construction Company, Khartoum, Sudan ........................ 12

1.4

FMC Technologies Inc. Houston, Texas ................................................................................. 15

1.5

Deltaafrik Engineering Limited, Victoria Island, Lagos ......................................................... 19

1.6

Cakasa Nigeria Company Limited, Ikoyi, Lagos .................................................................... 26

1.7

Software Proficiency ............................................................................................................. 29

1.8

Trainings............................................................................................................................... 29

ELECTRICAL AND SUBSEA ENGINEERING DESIGN IN OIL AND GAS INDUSTRY ........... 30 2.1

Project Design Phases ............................................................................................................ 30

2.2

Basic Design Consideration ................................................................................................... 31

2.3

Typical Electrical Deliverables .............................................................................................. 32

2.4

Typical Subsea Controls Engineering Deliverables ................................................................ 33

2.5

Interactions Between Disciplines During Project Execution ................................................... 34

2.6

Some Typical Electrical Deliverables ..................................................................................... 36

2.7

Main Topside Electrical Equipment ...................................................................................... 40

2.8

Subsea Control System Equipment ........................................................................................ 44

2.9

Some Typical Subsea Controls Engineering Deliverables....................................................... 54

DETAILED ELECTRICAL ENGINEERING DESIGN FOR AGBADA NAG PROJECT ............. 60 3.1

Lighting & Power Design for all Sheds or Shelter .................................................................. 61

3.2

Loadlist and UPS System Sizing ............................................................................................ 61

3.3

Electrical Single Line Diagram .............................................................................................. 62

3.4

Cable Sizing .......................................................................................................................... 63

3.5

Electrical Cable Schedule or List ........................................................................................... 65

3.6

Raceway System Design ........................................................................................................ 65

3.7

Earthing Layout .................................................................................................................... 65

CONCLUSION ............................................................................................................................... 66

APPENDIX 1: DETAILED ELECTRICAL ENGINEERING DESIGN FOR SPDC AGBADA NAG DOMESTIC GAS SUPPLY PROJECT DELIVERABLES ............................................................. 67 ATTACHEMENTS: CURRICULUM VITAE, COPIES OF DEGREES AND PROFESSIONAL CERTIFICATES ............................................................................................................................ 68

ATTESTATION

I certify that the information as contained in this report is to the best of my knowledge, the true practical experience of Mr. Chuks Emu.

NAME: ________________________________________________________________

DESIGNATION: _________________________________________________________

REGISTRATION No: _____________________________________________________

SIGNATURE: ___________________________________________________________

DATE: _________________________________________________________________

1.0

INTRODUCTION

This report summarizes my professional experience gained from various projects I have worked on after my graduation in April 2004. The experience covers diverse areas of engineering as the engineering profession involves interactions between various engineering disciplines while working on projects. My experience comprises of work in a multi-discipline environment in oil & gas engineering projects. Specific works include the design of Topside Electrical Engineering and Subsea Control Systems for both downstream and upstream of the oil and gas industry. Also I have worked with equipment vendors/manufacturers, majorly in evaluating and reviewing the equipment specifications, quotes and other technical submissions in order to meet specific project needs as stated in the project design basis. Finally, I have also provided technical support to construction works on site for various projects.

SUMMARY OF EXPERIENCE  

Over eight (8) years working experience in both Downstream & Upstream sector of the Oil and Gas industry as an Electrical & Subsea Controls Systems design engineer. Familiar with all Subsea & Topside products design. Knowledgeable in NEC, IEEE, IEC, ISA, API and ISO Standards and Codes related to design and analysis of Topside Electrical and Subsea Controls systems

1.1

Abbreviations and Definitions

AC

Alternating Current

AG

Associated Gas

AGG

Associated Gas Gathering

ANSI

American National Standards Institute

API

American Petroleum Institute

BOPP

Barrel of oil per day

bwpp

Barrel of water per day

CAPEX

Capital Expenditure

CP

Cathodic Protection

CPF

Central Processing Facility

DCC

Document Control Centre

DCV

Directional Control Valve

DED

Detailed Engineering Design

DEP

Design Engineering Practice

DOMGAS

Domestic Gas

DRB

Design Review Basis

DSC

Delta Steel Company

EDG

Eastern Domestic Gas

EDU

Electrical Distribution Unit

EFAT

Extended Factory Acceptance Test

EFL

Electrical Flying Lead

EJB

Electrical Junction Box

EMC

Electro-Magnetic Compatibility

E&P

Exploration & Production

EPCC

Engineering. Procurement, Construction and Commissioning

EPCM

Engineering, Procurement, Construction and Project Management

EPU

Electrical Power Unit also called SPCU)

ESD

Emergency Shutdown

ETU

Electronic Test unit

EVDT

Enhanced Vertical Deepwater Tree

eWOCS

Electrical Work-over Control System

FAT

Factory Acceptance Test

FEED

Front End Engineering Design

FPF

Field Production Facility

FDPSO

Floating, Drilling, Production, Storage & Offloading

FPSO

Floating, Production, Storage & Offloading

FSF

Field Surface Facility

GA

General Arrangement

HDM

Hydraulic Distribution Module

HFL

Hydraulic Flying Lead

HMI

Human Machine Interface (also called Man-Machine-Interface MMI)

HP

High Pressure

HPU

Hydraulic Power Unit

HSE

Health, Safety & Environment

HVAC

Heating, Ventilation & Air Conditioning

IEC

International Electro-technical Commission

IEEE

Institute of Electrical & Electronic Engineers

IES

Illuminating Engineering Society

IP

Institute of Petroleum

IP

Ingress Protection

ISO

International Organization for Standardization

LAN

Local Area Network

LP

Low Pressure

MCC

Motor Control Centre

MCS

Master Control System

MMscfd

Million Standard Cubic feet per Day

MPFM

Muilti-Phase Flow Meter

MQC

Multiple Quick Connect

MTO

Material Take-off

MUX

Multiplex Electro-Hydraulic (E/H) Control System

NAG

Non-associated Gas

NEC

National Electric Commission

NFA

No Future or Further Action

NFPA

National Fire Protection Agency

NLNG

Nigeria Liquefied Natural Gas

OGM

Oil Gathering Manifold

OPEX

Operating Expenditure

PCC

Procurement, Construction & Commissioning

PCS

Production Control System

PFD

Process Flow Diagram

PHCN

Power Holding Company of Nigeria

P&ID

Piping and Instrumentation Diagram

PLC

Programmable Logic Controller

PO

Purchase Order

PSD

Process Shutdown

PVC

Polyvinyl chloride

QA

Quality Assurance

QC

Quality Control

RMU

Ring Main Unit

ROW

Right of Way

SAFOP

Safety and Operability Study

Scfd

Standard Cubic feet per day

SCM

Subsea Control Module

SCMMB

Subsea Control Module Mounting Base

SDS

Subsea Distribution System

SPCU

Subsea Power and Communication Unit (also EPU)

SPM

Single Point Mooring

STFL

Steel Tube Flying Lead

SUTA

Subsea Umbilical Termination

TLP

Tension Leg Platform

TPU

Topside Processing Unit

TSCP

Touch Screen Control Panel

TUTA

Topside Umbilical Termination Assembly

ULM

Umbilical Line Module

UPS

Uninterruptible Power Supply

UTA

Umbilical Termination Assembly

UTH

Umbilical Termination Head

XLPE

Cross Link Polyethylene

XT

Christmas Tree

CAREER OVERVIEW 1.2

Makon Engineering & Technical Services Limited, Lagos State

From September 2010 to date I have been working with Makon Engineering and Technical Services (METS) Limited as Senior Electrical and Lead Electrical Design Engineer. METS is an indigenous engineering design and construction company providing Engineering, Procurement, Construction and Project Management (EPCM) services to the Nigerian oil and gas Industry. Capabilities exist in the engineering group for Downstream (Petroleum Products Depot & Process Industry) and Upstream (Onshore and Offshore) in the following areas: 

Conceptual Engineering Design



Front End Engineering Design (FEED)



Detailed Engineering Design



As Built Engineering Services



Follow on Engineering Services



Project Management Services



Consultancy Services

Some Project Executed/Work Experience: Projects: Alakiri, Utorogu & Agbada NAG; Bonny, Adibawa and Egbema West AG Position: Senior and Lead Electrical Engineer Project Brief: AG Solutions: Flares review that was initiated in 2004, identified Twenty six (26) flowstations, which had no AG Solution plans in place, and were considered “Stranded”. A commercial ranking of the opportunities was carried out on the basis of 2008 NFA oil production protection and to secure the reserves, which favoured the idea to harness the AG from these facilities with a view to eliminate gas flaring. Of these twenty six (26) flowstations, six (6) were being matured in AG solution phase 1 which covered Otumara, Opuama and Saghara flowstations in the Western division and Umuechem, Ahia and Adibawa flowstations in the Eastern division. While the Phase II is considered for eleven flowstations, viz. Bonny, Egbema, Egbema West, Oguta, Diebu Creek, Nun River in the Eastern division and Greater Ughelli node (Ughelli East, Ughelli West, Ogini, Oroni and Evwreni flowstations) in the Western Division. However, the Greater

Ughelli node and Egbema flowstation were stalled due to budget constraints, concept change (DRB minutes of meeting of 27th September 2007) and need for further subsurface study. Subsequently, phase II was later divided into two tranches. Tranche 1 is to provide AG facility for Bonny and Egbema West flowstations while Tranche 2 is to provide AG facilities for Oguta, Diebu creek and Nun river flowstations NAG Solutions: In support of government’s desire to increase supply of domestic gas (DOMGAS) to local industries and power plants, SPDC submitted a plan to government in October 2008 detailing out steps to increase its contribution to the DOMGAS market between 2008 and 2013; divided into short-term and medium-term supply targets. The short-term covers a period of 2008 – 2010 and includes refurbishment/expansion of existing plants and completion of on-going projects in selected locations (referred as gas hubs), and AGG nodes. This is aimed at increasing supply to circa 1.3bscfd supply target from the current 900MMscfd supply rate. The medium-term plan from 2011 – 2013 is aimed at further capacity expansion at the identified gas hubs with wellstream supply from immediate and remote fields to achieve a supply target of circa 2bscfd. As part of plans to achieve the short-term target for SPDC-East, the Agbada Non Associated Gas (NAG) field is being developed to enhance gas supply to the Eastern Domestic Gas (EDG) network. This will provide an additional 100 MMscf/d gas to the EDG Network. The capacity of the Utorogu gas hub will be increased from 360 MMscfd to circa 510MMscfd by end - 2010 to urgently address the supply shortfalls in the ELPS/WAGP captive market. Approval has been secured to relocate the 150MMscfd GHF earlier planned for Ughelli-East to Utorogu with the Ughelli-East NAG wells re-routed via a bulk line to Utorogu. A sales gas return line to supply the low-pressure customers in the Ughelli area (e.g. PHCN Delta I - IV, DSC, Beta Glass, etc) will also be constructed. The existing Ughelli-East NAG plant will be subsequently decommissioned The Aim of the Alakiri NAG refurbishment is to keep the plant running for another 20 years and secure the gas volume of 100MMscf/d – 120MMscf/d to Eastern Domestic Gas Network and allow full swing to NLNG during NGC outage.

These Projects were executed by a multidisciplinary team of engineers which included Process, Piping, Civil, I&C and Electrical Engineers. The Electrical team had the responsibility of providing the following services: 

Power Generation and Distribution System



Power and Lighting Systems



Earthing System



Lightning Protection System

Since these projects were both brown and green field project, data gathering was required before the actual project work execution. The approach was to make reference to previous designs and drawings as existing on site, site survey and interviews of relevant personnel on the sites were done to retrieve the needed input for the calculations and production of deliverables. All the relevant files were carefully studied and needed information stored for reference purposes during the actual design. Pictures of all relevant structures and facilities were taken. Measurements were also taken where applicable, existing equipment specifications were taken from the Nameplates. The actual project execution work was carried out based on clients’ specifications, Nigerian standards, international standards and company procedures. The following are the deliverables I produced on the projects: 

Power and Lighting Layouts/Details



Cable Tray Layout/Details



Cable Route Layout



Switchroom General Arrangement



Cable Sizing



Power system studies



Electrical Cable Schedule



Earthing Layout



Electrical Design Basis



Equipment Data Sheets



Single line Diagrams and loadlists



Lightning Protection Layout



Specifications for Electrical equipment



Detailed installation drawings



SAFOP Reviews



Hazardous Area Classification drawings



Installation Manuals



Construction supports



As-built documentations

1.3

China Petroleum Engineering & Construction Company, Khartoum, Sudan

I joined CPECC as a Senior Electrical Engineer between March - September 2010. CPECC is a Chinese engineering design and construction company providing Engineering, Procurement, Construction and Project Management (EPCM) services to the Sudanese oil and gas Industry. Capabilities exist in the engineering group for Onshore Petroleum Industry in the following areas: 

Front End Engineering Design (FEED)



Detailed Engineering Design



As Built Engineering Services



Construction and Commissioning Services



Consultancy Services

Summary of Some Project Executed/Work Experience: Projects: 1. Provision of PCC Services for FSF and Transit Lines for FNE and JAKE Phase III

Project for Petro-Energy 2. Upstream Facilities EPCC for Field Surface Facilities – Petrodar Operating Company 3. Palouge Produced Water Reinjection Project - Petrodar Operating Company Position: Senior Electrical Engineer Project Brief: Petro-Energy – PCC for FNE and Jake Facilities: Petro-Energy E&P Co., Ltd, hereinafter referred to as PE, is currently operating oil production facilities in the Fula and Moga Fields, in the Muglad Basin located in South West of Sudan (approximately 760 km from Khartoum at

MSL 550 m). During past four years, PE carried out Fula surface facilities Phase-I and Phase-II project to build Fula FSF, Moga FSF, Fula CPF, Moga FPF, Gas Fired Power Plant and pipeline from Baleela to Khartoum refinery. Now total production has reached 40,000 BOPD. A new project “PHASE III UPSTREAM SURFACE FACILITIES PROJECT” for Block 6 was initiated by Petro-Energy to develop three new oilfields, Keyi, Jake and FNE, and to identify the bottlenecks and carry out the modifications in Fula CPF. This will enable the CPF to process crude oil from the new identified wells in Fula, Moga, Keyi and Jake fields to achieve the production rate of 60,000 BOPD. As part of the FSF Phase III project, Service Order No. 1 contains the following scope of work: 

18 light crude wells, 4 water injection wells and 4 gas injection wells at Jake field



15 heavy crude wells at FNE field



Crude/Gas transit line from Jake FPF to Fula CPF



Crude/Gas transit line from FNE FPF to Fula CPF

PDOC – Palouge Water Re-injection Project: PDOC is currently carrying out exploration, development and production of oil in Block 3 & 7 of Melut Basin, south-west Sudan. The Palouge FPF is designed to perfume bulk removal of water to an acceptable maximum of 10% bulk water cut from the crude oil. The produced water from Palouge FPF is expected to reach 1,180,000bwpd by year 2018. With the expected increase in produced water, PDOC has commenced the upgrade of the produced water disposal system. Presently the bulk of the produced water is treated by existing skim tanks and sent a pilot scale water to injection plant. The aim of the project is to design and install a new water treatment and injection facilities at Palouge FPF in ordet to improve production recovery. The new plant capacity shall be designed to facilitate the treatment and injection of 300,000bwpd of produced water with discharge quality of 10ppm oil-in-water into the oil bearing reservoir. PDOC – EPCC for Field Surface Facilities: Petrodar Operating Company Ltd. (PDOC) (hereinafter referred to as PDOC) holds the right for exploration and development of the contract areas Block 3 & 7 located in the Southeast of the Republic of the Sudan. PDOC is developing the oil reserves in Block 3 & 7 that hereinafter shall be referred to Gumry Field Surface Facility Project, consisting of the development of oil production from several existing identified fields. Teng and Mishmish are the new discovered oilfields. Teng & Mishmish oilfield is located 24 km

north-west of Gumry oil field. The crude oil produced from each production well will be collected to OGMs, and then go into the Gumry FPF.

The Project was executed by a multidisciplinary team of engineers which included Process, Piping, Civil, Mechanical, I&C and Electrical Engineers. The Electrical team had the responsibility of providing the following services: 

Power Distribution Facilities



System Studies



Lighting System



Earthing System



Cathodic Protection System for Pipelines

Since the project was a brown field project, data gathering was required before the actual project work execution. The approach was to make reference to previous designs and drawings as existing on site, site survey and interviews of relevant personnel on the sites were done to retrieve the needed input for the calculations and production of deliverables. All the relevant files were carefully studied and needed information stored for reference purposes during the actual design. Pictures of all relevant structures and facilities were taken. Measurements were also taken where applicable, existing equipment specifications were taken from the Nameplates. The actual project execution work was carried out based on clients’ specifications, Nigerian standards, international standards and company procedures. The following are the deliverables I produced on the project: 

Electrical Design Basis



MCC Single Line Diagram



MCC elevation drawing



Cable Route Layout



Cable Sizing and Voltage Drop Calculations



Outdoor lighting Layout



Lighting Distribution Board Schedule



Lighting Calculation



Earthing Layout



Hazardous Area Classification drawings



CP layouts and details drawings



Datasheets – Transformers, MCC, Panel Board



MTO, Technical Bid Evaluation and Material Requisition

1.4

FMC Technologies Inc. Houston, Texas

For two years (2007 – 2008), I was seconded to FMC Technologies Inc, Houston as a Subsea Controls System Engineer. FMC Energy Production Systems and Energy Processing Systems businesses are global technology leaders providing solutions for customers engaged in petroleum exploration, production, measurement and transportation. Capabilities exist in the engineering group for Downstream and Upstream (Subsea Engineering) in the following areas: 

Conceptual Engineering Design



Front End Engineering Design (FEED)



Detailed Engineering Design



Subsea Processing



Light Well Intervention



Deepwater Subsea Production Systems



Flow measurement (metering) and assurance



Floating System



Fluid Controls



After Market Services



Project Management Services

Summary of Some Project Executed/Work Experience: Projects: Conceptual, FEED and Detailed Design for Agbami FPSO, Llog, Helix Noonan, Nexen, Murphy Azurite, Callon Entrada, Blind Faith, Cascade and Chinook and eWOCS for various Clients – Chevron, Murphy West Africa, Helix, Callon Petroleum and Petrobras. Position: Subsea Controls Engineer

Project Brief: Agbami FPSO: The Agbami field will be developed by subsea completed production and injection wells connected to a Floating Production, Storage and Offloading (FPSO) Facility through a system of subsea manifolds, flowlines and risers. Treated and stabilized crude oil will be periodically offloaded from the FPSO through multiple, mid-water offloading lines connected from the stern of the FPSO to a Single Point Mooring (SPM) offloading buoy and multiple offloading hoses connected from the offloading buoy to a tanker moored to the buoy. Produced gas is re-injected into the reservoir. Murphy Azurite: Murphy West Africa, Ltd. is planning the development of its Azurite oil discovery offshore Republic of Congo. The Azurite oilfield is located in the Mer Profonde Sud block in approximately 1400 m water depth. The field development consists of a spread moored FDPSO tied to a subsea drill center. The subsea drill center utilizes a ten slot cluster manifold, six slots for production and four slots for water injection. The subsea manifold is tied to the FDPSO using three flexible risers, two for production and one for water injection. The trees are tied to the subsea manifold using flexible well jumpers. The Azurite Development will be drilled and produced from a centrally located drilling center. The produced oil will be offloaded to tankers of opportunity for transportation. The relatively small amount of gas that is produced will be flared. Callon Entrada: The Callon Entrada Field Development Project is a subsea tieback development that is located approximately 230 miles offshore in the Garden Banks (GB) area of the Gulf of Mexico. The Magnolia Tension Leg Platform (TLP) will be the host facility and is located in Garden Banks Block 783 at a water depth of 4675 feet. The subsea development area lies to the west of the Magnolia TLP in water depth variations ranging from 4481 feet to 4663 feet and approximately a 5.5 mile maximum offset from the TLP. The field development comprises two (2) production wells with the option to add two (2) production wells. The existing appraisal subsea wells (GB782 #4 in the Southeast area of Block GB782 and GB782 #3 in the Northwest area of Block GB782) will be evaluated and re-used. All wells are initially oil producing; with well GB782 #3 switching over to gas production after approximately two (2) years.

The subsea production wells will be controlled from the Magnolia TLP by means of electrohydraulic umbilicals. The main umbilical will be suspended from the TLP and will be connected to the subsea umbilical termination assembly (SUTA), located near the Entrada #4 well. A Steel Tube Flying Lead (STFL) with cobra-head connections and Electrical Flying Leads (EFL) will connect the SUTA to an Umbilical Termination Head (UTH), which is bolted to an in-field umbilical. A UTH at the far end of the in-field umbilical near Well #3 will be connected to the Well #3 tree via an STFL with cobra-head connections and EFLs. Two hydraulically actuated valves on each PLEM will be functioned via a thermoplastic HFL using head bracket connections to stab plates on the tree and manifold. The eWOCS: eWOCs development is to integrate several components and functions, normally done at the surface, onto the spanner joint. The components being moved are the HPU including reservoir, control valves and electronic controllers and batteries. This allows the typical thermoplastic multi-line electro-hydraulic umbilical to be replaced with a simple electrical cable to supply power and communications to the eWOCs unit. The components required in the topside MCS are the system controller, power supply and communication units. While the eWOCs system will be developed using several building block components, the system described in this document is to be developed for use with the EVDT slimbore completion system. The core building blocks shall maintain the ability to be used in other applications like external eWOCs for use in open water mode and other systems as needed for other system applications Blind Faith: The Blind Faith field of Chevron is located in the Mississippi Canyon Blocks 695 and 696. The field is situated 162 miles south of New Orleans in a water depth of approximately 7000 feet. The MCS will be designed for the initial 3 production trees and a possible 4th production tree, located on Drill Center #1, up to two future production trees located on Drill Center #2, and two Subsea Gas Distribution Manifold for both mudline and downhole gas lift. The 3 initial production trees located at drill center 1 will be connected to one 4 slot manifold. The future production trees located at drill center 2 will be connected to a future 2 slot manifold. All future facilities will be programmed in the MCS initially, but disabled until the future equipment is installed. Helix Noonan: Helix Energy Solutions wishes to provide subsea tie-back development for its additional wells (Danny and Noonan wells), some 450 miles in the Gulf of Mexico. The topside

scope will cover the provision of Topside Control systems – MCS, SPCU, UPS and HPU; while the Subsea systems will cover provisions for umbilical systems, foundations structures, steel and electrical flying leads. Cascade and Chinook: The Petrobras America Inc. Cascade & Chinook drill centers are located in 8,100ft and 8,800ft water depth, respectively, in the Gulf of Mexico. The current development plan assumes a phased development incorporating an initial Phase I production for about one year, followed by Phase II production of an additional four years and then subsequent full field development. The full field development includes up to 24 production trees, 4 production manifolds and 2 subsea boosting pumps. In Phases I and II the wells will be tied back to a floating production, storage and offloading (FPSO) facility, for Phase III a production platform should replace the FPSO

. The Project was executed by a multidisciplinary team of engineers which included Process, Piping, Structures, Mechanical and Control (E&I) System Engineers. The Subsea Engineering team had the responsibility of providing the following services: 

Subsea Structures



Signal, Power and Hydraulic Analysis



Umbilical System



Christmas Trees and Manifold & tie-in Systems



Subsea Electrical Distribution and Subsea Control Systems



Topside Equipment - Hydraulic Power Unit, UPS, Electrical Power Unit and Master Control Station



Cathodic Protection System

Since these projects were green field projects, data required was basically the environmental conditions and the site survey plan of the proposed facility. The actual project execution work was carried out based on clients’ specifications, international standards and company procedures. The following are some of the deliverables produced by Subsea Control team on the project: 

Functional Design Basis



Functional Specifications for MCS, SPCU, ULM, UPS and SCM



Single Line Diagram



Schematic diagrams, GA and assembly drawings for Subsea Products



Electrical block diagrams and schematics



Subsea Distribution schematics



FAT, EFAT, Operation & Maintenance Manuals



Cable Sizing and Voltage Drop Calculations

1.5

Deltaafrik Engineering Limited, Victoria Island, Lagos

I joined Deltaafrik Engineering Limited as an Electrical Design Engineer in September 2006. Deltaafrik Engineering Limited is an indigenous engineering design company incorporated in 2002 to provide Engineering, Procurement and Project Management services to the Nigerian oil and gas Industry. Following the alliance with Worley Parsons, US the Deltaafrik/Worley Parsons alliance is a strategic relationship between two firms specializing in the rendering of engineering services to the oil and gas industry. Capabilities exist in the engineering for Downstream (Petroleum Products Depot & Process Industry) and Upstream (Onshore and Offshore) in the following areas: 

Conceptual Engineering Design



Front End Engineering Design (FEED)



Detailed Engineering Design



As Built Engineering Services



Follow on Engineering Services



Project Management Services



Consultancy Services

Summary of Some Project Executed/Work Experience: Project: Amenam Kpono Oily Water Treatement Upgrade Project for Total ELF Nigeria Limited Position: Senior Electrical Engineer Project Brief: FSO UNITY receives crude oil and its associated water from OML 99, 100 & 102. Presently, the FSO treats 45,000 bwpd compared to the design capacity of 36,000 bwpd. In the future with the arrival of Nkarika, Ofon Phase II production and the aging of the present

OML 100 & 102 fields, the amount of produced water that would be treated at the FSO is expected to increase significantly with a peak of 60,000 bwpd in 2014. In addition to the large amount of produced water required to be treated, the diverse nature of the different crudes also presents a challenge to meet the DPR limit of 40 ppm (TOG) of discharge water quality.

As a result of the above situation, the FSO Unity Oily Water Treatment (FSO-OWT) Upgrade Project was conceived to upgrade the present water treatment process. The ultimate objective is to provide water treatment capacity of 75000bwpd and achieve water quality of better than 40ppm TOG. This will be achieved by the installation of a new OWT module (module 14) comprising principally a Coalescer, a Flotation unit and a Polishing unit

The Project was executed by a multidisciplinary team of engineers which included Process, Piping, Civil, Mechanical, I&C and Electrical Engineers. The Electrical team had the responsibility of providing the following services: 

Power Distribution System to OWT Facilities



Lighting System



Earthing System



Cabling system

Since the project was a brown field project, data gathering was required before the actual project work execution. The approach was to make reference to previous designs and drawings as existing on site, site survey and interviews of relevant personnel on the sites were done to retrieve the needed input for the calculations and production of deliverables. All the relevant files were carefully studied and needed information stored for reference purposes during the actual design. Pictures of all relevant structures and facilities were taken. Measurements were also taken where applicable, existing equipment specifications were taken from the Nameplates. The actual project execution work was carried out based on clients’ specifications, Nigerian standards, international standards and company procedures. The following are the deliverables I produced on the project: 

Electrical Design Basis



MCC Single Line Diagram and Loadlist



As-built drawings



Cable Tray and Routing Layout



Cable Sizing and Voltage Drop Calculations



OWT module lighting Layout



Lighting Distribution Board Schedule



Lighting Calculation



Power and Earthing Layouts



Hazardous Area Classification drawings



Cable schedule



Datasheet for motors

Project: New 16” Abiteye - Escravos Pipeline Project for Chevron Nigeria Limited (CNL) Position: Senior Electrical Engineer Project Brief: Chevron Nigeria Limited wishes to carry out a Detailed Engineering Design (DED) for the Abiteye Escravos Pipeline Project. This is to support its plan to construct a new 16” Abiteye – Escravos Pipeline and provide a new 12” Oil Pig Launcher at Abiteye and Cathodic protection for its Abiteye – Escravos 12”, 26” and 18” Pipelines along its ROW. The Project was executed by a multidisciplinary team of engineers which included Process, Piping, Civil, Mechanical, I&C and Electrical Engineers. The Electrical team had the responsibility of providing the following services: 

Power Distribution System to Pigging Facilities



System Studies



Lighting System



Earthing System



Cathodic Protection System for 12”, 16” and 26” Pipelines

Since the project was a brown field project, data gathering was required before the actual project work execution. The approach was to make reference to previous designs and drawings as existing on site, site survey and interviews of relevant personnel on the sites were done to retrieve the needed input for the calculations and production of deliverables. All the relevant files were carefully studied and needed information stored for reference purposes during the actual

design. Pictures of all relevant structures and facilities were taken. Measurements were also taken where applicable, existing equipment specifications were taken from the Nameplates. The actual project execution work was carried out based on clients’ specifications, Nigerian standards, international standards and company procedures. The following are the deliverables I produced on the project: 

Electrical Design Basis



MCC Single Line Diagram and Loadlist



MCC elevation drawing



Cable Route Layout



Cable Sizing and Voltage Drop Calculations



Outdoor lighting Layout



Lighting Distribution Board Schedule



Lighting Calculation



Earthing Layout



Hzardous Area Classification drawings



CP layouts and details drawings



Datasheets – Transformers, Panel Board



MTO

Project: Escravos Terminal Diesel Storage Project for Chevron Nigeria Limited (CNL) Position: Senior Electrical Engineer Project Brief: Chevron Nigeria Limited wishes to carry out a Detailed Engineering Design (DED) for the Escravos Terminal Diesel Storage Project. This is to support its plan to construct a new diesel storage facility, a new filling station and to demolish the existing diesel storage facility including the existing filling station at the Escravos Terminal. A Front End Engineering Design (FEED) was carried out to define the project. The new diesel storage facility shall have three tanks with a total storage capacity of 5 million litres and shall be located beside the drum road. The Project was executed by a multidisciplinary team of engineers which included Process, Piping, Civil, Mechanical and Electrical Engineers. The Electrical team had the responsibility of providing the following services: 

Power Distribution System



System Studies



Lighting System



Earthing System



Lightning Protection System



Diesel Pumping System

Since the project was a brown field project, data gathering was required before the actual project work execution. The approach was to make reference to previous designs and drawings as existing on site, site survey and interviews of relevant personnel on the sites were done to retrieve the needed input for the calculations and production of deliverables. All the relevant files were carefully studied and needed information stored for reference purposes during the actual design. Pictures of all relevant structures and facilities were taken. Measurements were also taken where applicable, existing equipment specifications were taken from the Nameplates. The actual project execution work was carried out based on clients’ specifications, Nigerian standards, international standards and company procedures. The following are the deliverables I produced on the project: 

Electrical Design Basis



Single Line Diagram



Switchroom General Arrangement



Cable Route Layout



Cable Sizing and Voltage Drop Calculations



Indoor and outdoor lighting Layout



Lighting Distribution Board Schedule



Lighting Calculation



Earthing Layout



Hazardous Area Classification drawings



Datasheets – RMU, Transformers, MCC and Motors



MTO

Project: Post IFC Verification of Asasa Uplift Pipelines and Etim Asasa Uplift Development Projects for Mobil Producing Nigeria Unlimited (MPN) Position: Electrical Engineer Project Brief: Rapidly declining pressure in the Etim and Asasa fields from the original discovery pressures of about 2500-2900 psi to the current pressure in the range of 1500 - 2000 psi has resulted in a production decline from the former level of 120 KBD to current 72KBD. Pressure maintenance via gas injection has been identified to mitigate this 15% - 24% per annum production decline. The EAPM project is designed to transport compressed associated gas via a new pipeline network from the Edop gas compression platform for injection into the Etim and Asasa B reservoirs. High-pressure gas shall be routed via a common manifold on Etim PP to wellhead platforms in Etim and Asasa fields. The gas shall be dehydrated by the existing Edop Dehydration Unit, which is to be restored to operation by another project. In the future, there will be provisions to divert the gas off the Edop compression platform to the planned EAP NGL plant around Ubit area, to return lean, dry gas for injection via the same network. Consequently, the Edop gas compressors shall supply 175 Mscfd of gas at 2100 psi, while in the future EAP is expected to deliver 241 Mscfd of gas at 2800psi for pressure maintenance of targeted Etim and Asasa B reservoirs. Platform modifications on EADP are required for Etim LA, LB, LC, LD and LP Platforms and on AUP, modifications are required for Asasa VB and EDOP QI Platforms. The Project was executed by a multidisciplinary team of engineers which included Process, Piping, Civil, Mechanical and Electrical Engineers. The Electrical team had the responsibility of providing the following services: 

Verification of IFC packages to applicable codes, standards and specifications



Confirm accuracy and completeness of MTO



Compare MTO with issued PO and material receiving and inspection reports



Prepare TSD for the procurement of identified shortfalls



Revise any document deviations from specifications and standards

Since the project was a brown field project, data gathering was required before the actual project work execution. The approach was to make reference to previous designs and drawings as

existing on site, site survey and interviews of relevant personnel on the sites were done to retrieve the needed input for the calculations and production of deliverables. All the relevant files were carefully studied and needed information stored for reference purposes during the actual design. Pictures of all relevant structures and facilities were taken. Measurements were also taken where applicable, existing equipment specifications were taken from the Nameplates. The actual project execution work was carried out based on clients’ specifications, Nigerian standards, international standards and company procedures The Electrical team had the responsibility of reviewing the deliverables produced by the subcontractor. The following are the activities I carried out on the project: 

QA/QC reviews and checks on Hazardous Area Classification



QA/QC reviews and checks on Electrical Lighting Layout



QA/QC reviews and checks on Earthing System Layout



QA/QC reviews and checks on Single Line Diagram



QA/QC reviews and checks on Cable Tray Layout



QA/QC reviews and checks on Power & Control Schematics



Revised Single Line Diagrams, Lighting Panel schedule, Hazardous Area Classification Drawings, lighting layouts and installation details



Prepared MTO and TSD for identified shortfall

Project: Conceptual and FEED of Eastern Area Gas Utilization and Produced Water Disposal Project for Chevron Nigeria Limited (CNL) Position: Intermediate Electrical Engineer Project Brief: Chevron Nigeria Limited (CNL) intends to have a Conceptual Engineering Design (CED) and a Front End Engineering Design (FEED) performed in support of its plan to execute the Gas Utilization and Produced Water Disposal (EAGU) Projects in its Eastern Area of operations. The project objectives are the elimination of routine gas flaring and the compliance with legislations related with produced water disposal. The locations to be covered in the Conceptual Engineering Design and FEED include Idama, Inda and Robertkiri producing fields. The production from Idama (and thereby from Jokka) is to be routed as a multiphase flow to SPDC owned Ekulama flow station, for processing at Ekulama, The HP gas collection at Robertkiri is to be gathered, and sent to Santa Barbara gas facility operated by SPDC

. The Project was executed by a multidisciplinary team of engineers which included Process, Piping, Civil, Mechanical, I&C and Electrical Engineers. The Electrical team had the responsibility of providing the following services: 

Power Generation and Distribution System



System Studies



Lighting System



Earthing System



Lightning Protection System



Produced Water Disposal System

Since the project was a green field project, data required was basically the environmental conditions and the site survey plan of the proposed facility. The actual project execution work was carried out based on clients’ specifications, Nigerian standards, international standards and company procedures. The following are the deliverables produced on the project:

1.6



Electrical Design Basis



Single Line Diagram



Cable Route Layout



Cable Sizing and Voltage Drop Calculations



Perimeter lighting Layout



Lighting Distribution Board Schedule



Lighting Calculation



Earthing Layout



Datasheets – MCC, Motors, Generators

Cakasa Nigeria Company Limited, Ikoyi, Lagos

Immediately after the NYSC, I joined Cakasa Nigeria Company Limited as an Electrical Design Engineer in November 2005. Cakasa Nigeria Company Limited is an indigenous engineering design company incorporated in 1974 to provide Engineering, Procurement, Construction and Project Management (EPCM) services to the Nigerian oil and gas Industry. The engineering arm of Cakasa was set up in Lagos in 2002 following an alliance with Fluor Incorporated, US. Cakasa/Fluor alliance is a strategic relationship between two firms specializing in the

engineering, construction operations and maintenance of oil and gas services. Capabilities exist in the engineering group for Downstream (Petroleum Products Depot & Process Industry) and Upstream (Onshore and Offshore) in the following areas: 

Conceptual Engineering Design



Front End Engineering Design (FEED)



Detailed Engineering Design



As Built Engineering Services



Follow on Engineering Services



Project Management Services



Consultancy Services

Summary of Some Project Executed/Work Experience: Project: Detailed Engineering: Sahara Energy Petroleum Product Storage Depot Position: Junior Electrical Engineer Project Brief: Sahara Energy intends to build a new facility for the storage of Petroleum Products. The main objective of the project is to transfer Petroleum Products from storage vessels on a ship into the storage tanks on the facility and unload from the storage tanks into tankers via a loading gantry which are installed on the facility. The Project was executed by a multidisciplinary team of engineers which included Process, Piping, Civil, Mechanical and Electrical Engineers. The Electrical team had the responsibility of providing the following services: 

Power Generation and Distribution System



Lighting System



Earthing System



Lightning Protection System



Product Loading and Offloading System



Fire Fighting and Protection System

Since the project was a green field project, data required was basically the environmental conditions and the site survey plan of the proposed facility. The actual project execution work was carried out based on clients’ specifications, Nigerian standards, international standards and company procedures. The following are the deliverables produced on the project:



Design of Lightning Protection System



Perimeter Lighting Layout



Cable route Layout



Equipment Sizing e.g. generator, switchboard, cables



Earthing Layout and detail drawings



Datasheets for UPS, MCC, Motors and Generators



Cable Schedules



Bulk MTO



Hazardous Area Classification

Project: Sigmund Petroleum Products Depot Position: Junior Electrical Engineer Project Brief: Sigmund Petroleum intends to build a new facility for the storage of Petroleum Products. The main objective of the project is to transfer Petroleum Products from storage vessels on a ship into the storage tanks on the facility and unload from the storage tanks into tankers via a loading gantry which are installed on the facility. The Project was executed by a multidisciplinary team of engineers which included Process, Piping, Civil, Mechanical and Electrical Engineers. The Electrical team had the responsibility of providing the following services: 

Power Generation and Distribution System



Lighting System



Earthing System



Lightning Protection System



Product Loading and Offloading System



Fire Fighting and Protection System

Since the project was a green field project, data required was basically the environmental conditions and the site survey plan of the proposed facility. The actual project execution work was carried out based on clients’ specifications, Nigerian standards, international standards and company procedures. The following are some of the deliverables I produced on the project:



Lighting Layouts



Power Layouts



Earthing Layouts



Electrical load list



Cable Schedules



Bulk MTO



Hazardous Area Classification

1.7

Software Proficiency 

AutoCAD



SKM Power Tool for Windows



Chalmlite



Micro-station



ORCAD Capture



PSPICE



Electronic Test Unit (ETU)



Team Centre Engineering (iMAN), CITADON and EDMS (Laserfische)



Microsoft Office Suite

1.8

Trainings 

SKM Power Tools for Windows, Lagos (2011)



Helicopter Underwater Escape and Offshore Survival (HUET), Port Harcourt (2011)



Electrical Control and Programmable Logic Control, Houston (2008)



Ethernet and IP Technology, Houston (2008)



ETU Topside Communication and SCM Data Allocation, Houston (2007)



FMC Engineering Boot Camp – Subsea Engineering, Houston (2007)



Total Quality Management - Trithel International Consulting, Lagos (2006)



Project Management, QA/QC, DCC, HSE - Design Team Limited, Lagos (2005)



Basic Engineering Design - Design Team Limited, Lagos (2005)

2.0

ELECTRICAL AND SUBSEA ENGINEERING DESIGN IN OIL AND GAS INDUSTRY

Before a project kicks off, an agreement has to be signed by both the client and the contractor. Usually the client will make available the Invitation To Bid (ITB) document to the prospective contractors to study. The ITB document clearly defines the scope of work, proposed duration and methodology for the execution of the project among other things. The contractor then responds by putting together their own submission which will indicate to the client how the contract will be executed, the strategies, man-hours, manning, schedule for the project, project organogram, execution plan, hourly rate of personnel, list of projects executed in the past. Most of this information is made available from disciplines to the nominated Proposal Manager who coordinates, compiles and forwards to the proposed client in conjunction with the Business Development Manager of the company (Contractor). Upon award of the contract, after all formalities between the two parties, the company can then mobilize their personnel for the commencement of the project. Brown Field Project: This is a type of project that deal with an existing facilities, which are to be upgraded to meet legislation, or life span of the facilities has been reached, and needed to be upgraded. Green Field Project: This is a new project that is being design from scratch, it does not have existing facilities and go-by. 2.1

Project Design Phases

The overall system design is divided into two stages: conceptual design and detailed design.

Conceptual design begins at the inception of a project and includes: 

Gathering process and load data.



Choosing the most suitable system configuration and bus arrangements for the particular application.



Selecting a power source.



Determining system voltages.

Detailed design comes after the conceptual design and involves:

2.2



Developing the one-line diagram.



Performing system studies.



Sizing equipment and feeder systems.



Designing grounding and lighting systems.



Designing system protection

Basic Design Consideration

The following basic design considerations must be included in the design of all electrical systems. Safety: Safety of life and preservation of property are the most critical factors that must be considered when designing an electrical system. Established codes and standards must be followed in the selection of material and equipment to ensure a safe system design. Petroleum production and processing involve flammable liquids and gasses, often at elevated temperatures and pressures. Electrical systems must be designed to prevent accidental ignition of these flammable liquids and gases. Reliability: The degree of continuity of service required is dependent on the type of process or operation of the facility. Some facilities can tolerate interruptions, while others cannot. The power source, the electrical equipment, and the protection system should provide the maximum dependability consistent with the facility requirements and justifiable costs. Maintenance:

Maintenance requirements should be considered when designing electrical

systems. A well-maintained system is safer and more reliable. Systems general One-Line Diagram for Electrical Distribution System should be designed to allow maintenance without major interruptions to the process. It is important to consider accessibility and availability (for inspection and repair) when selecting and locating equipment. Flexibility:

Flexibility of the electrical system determines the adaptability to meet varied

requirements during the life of the facility. Voltage levels, equipment ratings, space for additional equipment, and capacity for increased load should be considered. Simplicity of Operation:

Operation should be as simple as possible to meet system

requirements. Simplicity of operation is a necessary factor in achieving safe and reliable systems.

Voltage Regulation: Utilization voltage must be maintained within equipment tolerance limits under all load conditions. Poor voltage regulation is detrimental to the life and operation of electric equipment. Cost: While initial costs (CAPEX) are important, the lifetime cost (OPEX) also should be considered. Thus the design of the electrical system is executed in line with the scope of work and the design criteria are governed by the following principles: 

Persons and plant safety



Environmental conditions of the site



Reliability of supply depending on the importance of service and on the unmanned operations



Reduction of spaces, weights and cost



Ease of management and maintenance



Possibility of future extensions



Standardization and availability of components

2.3

Typical Electrical Deliverables

Typical deliverable prepared for electrical project depending on the scope of work (Conceptual, Basic or FEED and Detail Engineering) are as follows: 

Electrical Design Basis



Hazardous Area Classification



Interconnection Diagrams



Schematic/ Wiring Diagrams



Electrical Load List / Load Balance



Electrical Equipment List



Lighting/Power/ Earthing Philosophy and Layout Diagram



AC and DC UPS Specification/Sizing/Datasheet



Single Line Diagrams / Protection & Metering SLD



Electrical Equipment Room Layout



Cable Specification/ Schedule/Drum Schedule.



Cable/Cable Tray Routing Layout



Lighting/Power/ Earthing Installation Details



Equipment Data Sheets



Equipment Specifications



Control System Block Diagram



Electrical System Block Diagram



Earthing/ Grounding System/Layout



Package Unit Electrical Specification



Electrical Installation Specification



Cathodic Protection System



Lightning Protection System



Construction Details



Material Take-Off.

2.4

Typical Subsea Controls Engineering Deliverables

Typical deliverables prepared for Subsea Controls project depending on the scope of work (Conceptual, FEED and Detail Engineering) are as follows: 

Subsea Controls Facilities Design Basis



Topside Controls Design Basis



Functional Specifications for Subsea Control Products – MCS, SPCU/EPU, ULM, SCM, HPU, UPS, Umbilical etc



HPU Reservoir and accumulator Sizing Calculation



Subsea Umbilical System Arrangement



Subsea and Topside Control System Interface diagram and details



Hydraulic and Electrical schematic subsea control



General Arrangement MCS, HPU, TUTA, SCM, EPU



SCM and SCMMB General arrangement



SCM Sensor schematics



Electrical single line diagram and schematic wiring diagrams – MCS, EPU, ULM, HPU



Subsea Electrical Distribution schematics



Umbilical cross section drawing



FAT and EFAT Procedure; Operational Manuals



Hazardous Area Classification among others

Deliverables are generated in accordance with international codes and standards such as IEE, IEEE, IEC, IES, API, NFPA/ANSI (NEC), ISO etc. and Companies design standards such as SHELL DEP, ELF, Mobil, Agip, Chevron specifications etc. depending on the client and project specification. Considering a project with Detailed Engineering Design as the scope of work, the initial phase of the project will be the review of the Electrical Basic Engineering/FEED documents, in particular the electrical design philosophy and the configuration of the electrical power generation and distribution system. The evaluation shall be based on both the economic considerations and potential saving, using the confirmed loads and power system contingencies. Also the skill of operating and maintenance, personnel operational flexibility, unmanned operations, extension possibility and noise limitations are taken into consideration in arriving at a suitable design. Electrical deliverables are generated by using the following software:

2.5



Microsoft Office (Word, Excel, Power Point)



AutoCAD



SKM Power Tools for Windows, EDSA or ETAP Software



Micro-Station



PDMS/PDS



Chalmlite



PSPICE



Luxicon Interactions Between Disciplines During Project Execution

In view of the peculiar nature of engineering design firms in the oil and gas sector, a similar organization structure is always set up for any project being handled or executed by the company. The Project Team is usually constituted immediately after a project has been awarded to the company and a Project Manager, who in turn reports to the company’s Manager, leads each project. The Project Team usually comprises all of the engineering discipline groups. Each

group produces working documents called deliverables. These deliverables are a product of each group’s specialty; the disciplines that constitute a design team are as follows: The Process Group would run simulations to obtain working material if the client brought new data. Their results come out in form of deliverables like Line Designation Table (LDT), Process Flow Diagrams (PFD), Piping and Instrument Diagrams, etc. They also size pipes, valves and vessels and determine optimal operating conditions. All information generated is passed on to downstream disciplines. The process group has to liaise with all other groups, who consult it from time-to-time throughout the project. In effect, the process group stays with the project from inception to completion. The Pipeline group generates alignment sheets, which show how the terrain would affect the pipelines. They settle right-of-way (ROW) matters, conduct test on the soil e.g. soil resistivity tests, acidity tests, and tests to determine the depth of the water table. They also determine when and where supports are necessary along the whole length of the pipelines. The Piping group receives skeletal piping and instrumentation diagrams and line designation tables from the process group. It uses these to produce more detailed piping diagrams like the plot plan. They write pipe specifications i.e. size of pipes. The Civil/Structural Group determines whether loads need support, to balance them in order to avoid collapse, dampen vibrations, or ensure proper drainage by utilizing the effects of gravity. It also defines the foundation requirements for every structural member. The Electrical Group sets up the lighting systems, specifies power ratings for motor driven pumps, determines the capacities of generators, etc. The results come out in form of single line diagrams and cable layout diagrams. The Control Systems group produces the logic diagrams, which provide a readily understood representation of the operation is an extension of the P&ID and will provide added insight and will help define the requirements for safe operation and start-up/shutdown sequencing. Logic diagrams are only produced for complex systems. Cause and effect diagrams and safety charts are all valid alternative formats. Mechanical Group sizes the vessels and determines the best kinds of material to be used for the vessel and pipes. They also have specialties on pump sizing. Project Controls Department monitors the progress of the project. They determine the sequence in which activities should be performed in order to identify the critical paths and know which

area to focus greater attention on. They also ensure, to the best of their ability that these time schedules are kept because there could be a slippage and the project would not be finished in the planned time and the risk of being termed inefficient arises. Therefore, a lot of importance is placed on each group finishing their task within the allotted time as this has a lot to do with company reputation. 2.6

Some Typical Electrical Deliverables

Hazardous Area Classification Drawing Hazardous locations are those locations where fire or explosion hazards may exist due to the presence of flammable gases or vapors, flammable liquids, combustible dust, or ignitible fibers or flyings. Locations within a facility are classified according to the presence of flammable gases or vapors, combustible dusts, or easily ignitable fibers or fittings. Hazardous locations must be identified in order to select proper electrical equipment for these areas. The Procedures are: 

Designate the type (Class) of hazard which may be present i.e. gas, dust or fiber.



Class I: If the hazardous material is flammable gas or vapor is present.



Class II: If the hazardous material is combustible dust.



Class III: If easily ignitable fibers of flying are present.



Designate the specific “Group” of the hazardous substance. To do this, references should be made to either National Electrical Code (NEC) or National Fire Protection Association. (NFPA) Group A- Acetylene Group B- Hydrogen

All in Class I

Group C- Ethylene Group D- Methane Group E- Metal dust Group F- Coal dust

All in Class II

Group G- Grain dust No sub-groups – Fibers

Class III

To permit the proper selection of electrical apparatus for areas where flammable gas or vapour risks may arise, area classification drawing(s) are prepared by safety department based on the API RP 500, Classification of locations for electrical installations at Petroleum Facilities, IEC 60079-10 and/or IP Part 15. For the installation of electrical equipment in hazardous areas, IEC

60079-14 is complied with. The process group providing hazardous area data sheets will initiate area classification review activities. Safety and Electrical Group will take ownership of these documents and based on the plot plans and elevations provided by Piping Group, develop the hazardous area layouts and elevation drawings. Electrical equipments are, as far as is reasonably practicable located in the least hazardous area. Control rooms and switch houses are situated in non-hazardous areas. Where electrical equipment has to be installed in hazardous areas, equipment with a type of protection suitable for the relevant zones are selected and specified in accordance with IEC 60079-14. Certification of equipment and materials for duty, rating, hazardous area use, etc. are obtained from recognized National or International testing authorities. Evidence of the appropriate certifications is obtained prior to commitment to purchase.

In Europe, the zone system is used and the classification is in accordance with IEC 60079-10 and IP Part 15. A comparison between the zone and Class systems is depicted below.

FREQUENCY OF OCCURRENCE

DIVISION

Continuous

Class I, Div. 1

ZONE SYSTEM Zone 0

Intermittent Periodically

Class I, Div. 1

Zone 1

Abnormal Conditions

Class I, Div. 2

Zone 2

Electrical Cable Schedule Cable schedule is a spread sheet showing the tag number, number of core, material code, description, length of run and sequential link between one cable to the other etc. Electrical Load List/ Summary A load summary is a detailed listing of all loads to be served by the electrical distribution system. It is used to determine the power requirements of a system—in order to properly size power sources, distribution equipment, and feeder systems. The load summary also aids in determining system. Generally, industrial facility loads are a function of the process equipment. A list of loads must be obtained from the process and Mechanical/equipment Engineers and designers

The Electrical Load List is developed based on Electrical Load for Motors and details of other electrical loads, i.e. non-rotating process loads; electrical heaters, instrument, lighting / small power etc. are included on the load list. The Electrical Load List is prepared to determine the total load on each switchboard and is used to determine the rating of generators, transformers, bus-bars, circuit breakers, and other elements of the electrical distribution system. As design evolves Electrical Load List should be updated constantly. It is important to coordinate with other design disciplines to ensure that up-to- date data are used. Single line Diagram The Single Line Diagram is produced, from information contained on the P&ID, Plot Plan and Load list, to show overall electrical schematic and configuration of the electrical distribution network. It is used during commissioning and plant operation to show switching and isolation position on the network. The drawing shall include the following information: 

All bus bars with details of the continuous current rating, voltage, frequency, number of phases, switchgear tag number and description



All main switching devices connected to the bus bar with details of their continuous current rating, showing inter trips, interlocks and changeover system as relevant.



A list, by tag number, of all users of electrical power connected to each bus bar, identifying the individual load and circuit type



Representation of each circuit type showing the particular control facilities



Distribution transformer with details of their power and voltage ratings



All main supply cables



All emergency supply facilities



All generation facilities with details of their power and voltage ratings

Power Layouts Power layouts are produced to show the location of all electrically powered process equipment items, associated auxiliaries and the main cable routing. The drawings uses the plot plan as a background if this is suitable, modified to suit the power layout by removing unnecessary detail. The preferred scale shall be adopted as appropriate but will be subject to the scale of the plot plans and the detail of the work to be carried out. The drawings include the following as a minimum:



A symbol/legend sheet



Location of all electrically driven process equipment items, which will be identified by their Tag numbers



Location of all field mounted electrical power equipment e.g. pushbutton stations, control panels, distribution boards etc.



Provision of cable routes, including main tray and rack runs



Identification of the standard drawing and installation details to be used



Cross reference list to other relevant documents

Lighting Layouts Lighting Layouts are produced to show the preliminary and indicative location of the luminaries. Lighting study/design is performed using software such as Chalmlite or manual calculation to determine the number of luminaries required to meet the illumination requirement. The drawings shall use the plot plan as backgrounds where possible and if not suitable Electrical Department will develop their own. The drawings include the following as a minimum: 

A symbol/legend sheet



Location of all luminaries together with tag numbers and circuit references.



Location of main junction boxes, distribution boards, and specific items of equipment to be illuminated



Identification of the standard drawings and installation details to be used

Earthing Layouts The term Earth is defined as the conductive mass of the earth whose potential at any point is conventionally taken as zero. Earthing is essential for personnel safety, prolong insulation, life and for selective isolation of earth faults. The Earthing layout shows the connection of specific equipments and structures to the earth. Material Take Off (MTO) Material Take Off can be best defined as the list of materials by quantity and based on a particular design. Taking into consideration the lighting requirement of an area, different types of lighting fittings can be used for illuminating such area. Such fitting may include flood lights fluorescent fittings and decorative fittings. During MTO preparation for such layout are listed to enable purchase of adequate number of fittings for such design.

2.7

Main Topside Electrical Equipment

MCC: A low voltage Motor Control Center (MCC) is a group of motor starters and thermal magnetic circuit breakers rated up to 600 volts. Typically, 460 volt motors rated 200 hp or less are fed from MCCs and started with combination motor starters. Larger 460 volt motors commonly are started with circuit breakers if they draw too much current for combination motor starters. A combination motor starter consists of a circuit breaker, a contactor, and an overload relay. Other loads (e.g., lighting and heating) are served by thermal magnetic circuit breakers in the motor control centre. A medium voltage Motor Control Center (MCC) is a lineup of motor starters rated up to 7200 volts. Starters typically employ a current limiting fuse, a draw-out air or vacuum contactor, and ambient compensated overload relays

Fig 9: Typical MCC

Power Sources: Many economic factors must be considered when deciding whether to produce power or to buy it from a local utility. When considering a utility as the source of power, it is important to investigate the outage history and the quality of the power from the utility. By assigning a dollar value to lost process time due to power interruptions, the degree of reliability required can be determined. If a facility elects to generate power, the quality and reliability of the generated power must be considered, as well as economics.

Fig 10: Typical Gas Generator

An auxiliary power system is designed to supply and distribute power to equipment when the normal electrical supply is interrupted. Two types of auxiliary power system are Emergency and Standby and are available from Engine driven generator sets, UPS and Storage Batteries.

Transformer: Transformers are primarily used to reduce (or increase) voltage to a level where it can be used to power equipment. Transformers are also used to isolate loads from power sources and to accomplish a variety of special functions. These functions include phase shifting, regulating, and networking.

Fig 11: Typical Power Transformer

Motors: Electric Motors are either induction or synchronous motors used as electric drives for mechanical equipment like pumps, belts, conveyors etc.

Fig 12: Typical Electric Motors driven pumps

2.8

Subsea Control System Equipment

The subsea control system is part of the subsea production system.

Fig 1: Overall Subsea Production System

The subsea control system can be divided into three sections: 

Topside Equipment: provides Human Machine Interface and supplies hydraulic/chemical and electrical services to the subsea production system.



Subsea Distribution System (SDS): provides a link of communication and supplies between topsides and the subsea production system.



Subsea Controls Equipment: provides controls and monitoring of the X-mas Tree, Manifolds, Etc.

Fig 2: Subsea Control System Building Blocks

The control system provides operation and monitoring of valves and chokes on subsea completions, templates, manifolds and pipelines.

The control of various production functions, executed at the seabed, is originated from the host facility. Satisfactory response time for a control system is an important factor that may have a dramatic effect on reliability and safety of environmentally critical operations. As communication distance between topside production facilities and subsea installations increases, due both to multiple well developments and water depth, early methods of well control using direct hydraulic control of subsea valves have become less feasible due to operational limitations of such controls and due to both the size and cost of the multi-core umbilicals required to provide hydraulic power transmission. This has led to the development of more advanced and complex control methods TOPSIDE CONTROL EQUIPMENT The host facility controls the various production functions being executed on the seabed. The standard MUX topside control system equipment is comprised of a Master Control Station (MCS) with a Human Machine Interface Computer (HMI), an Electronic Power Unit (EPU), Hydraulic Power Unit (HPU), and a Topside Umbilical Termination Assembly (TUTA)

MCS: The Master Control Station (MCS) provides control and monitoring of the subsea production system, including necessary surface equipment and the entire subsea installed equipment. The redundant MCS consists of two complete and independent MCS channel networks incorporating high reliability ControlLogix or Programmable Logic Controller (PLC) hardware architectures that simultaneously monitor data functions to and from each other, surface, and subsea. In the event of a primary channel network problem or failure, the secondary channel continues to seamlessly operate the external control system interfaces. This dual redundant physical channel architecture eliminates possible single mode failure points. The Human Machine Interface (HMI) is a Workstation Computer for local control and monitoring of the MCS. The HMI basically is a computer terminal used by the operator to perform all actions necessary to maintain safe operation of the system.

Fig 3: Typical MCS Cabinet

EPU/SPCU: The Electrical Power Unit (EPU) also called Subsea Power and Communication Unit (SPCU) provides conditioned electrical power to the subsea production controls system equipment. The EPU provides a stable, high-grade power supply to the SCM. The EPU supplies power for the subsea system through the electro-hydraulic umbilical. The communication signals from the MCS to the SCMs are superimposed on the power lines in the EPU.

Fig 4: Typical SPCU Cabinet

HPU: The Hydraulic Power Unit (HPU) supplies filtered and pressure regulated hydraulic fluid to the subsea system. The HPU includes provisions for obtaining and maintaining the specified cleanliness requirements. The HPU provides redundant low pressure (LP) and high pressure (HP) hydraulic supplies. The HPU includes duty and backup hydraulic pumps, redundant filters, and accumulators. Emergency shutdown facilities are provided to bleed off hydraulic fluid and thus to close subsea fail-safe valves. The hydraulic components are fairly standard. The unit can be configured to operate autonomously under the control of a dedicated PLC, which provides pump motor control, interlocks, and interface with the MCS. The HPU is designed to operate safely in the sited environment.

Fig 5: Typical HPU

TUTA: The Topside Umbilical Termination Assembly (TUTA) provides the interface between the topside control equipment and the production controls umbilical. The unit incorporates Electrical Junction Boxes (EJB) for the termination of the electrical communication/power cables, as well as all hydraulic and chemical plumbing, gauges, block and bleed valves for the appropriate hydraulic and chemical supplies

Fig 6: Typical TUTA

SUBSEA DISTRIBUTION SYSTEM This section describes the subsea controls hardware connecting the production umbilical to the Xmas trees/manifold(s). The scope of this description begins at the interface to the umbilical, both hydraulically and electrically through the distribution system to the electrical connectors at the top of the SCM and the hydraulic couplers at the Multi Quick Connect (MQC) plates mounted on the Xmas tree.

The Subsea Distribution System (SDS) provides a link of communication and supplies (LP and HP pressure, chemicals, and electrical comm/power) between the host facilities and the subsea field by routing and distributing the services provided through the production control umbilical. Production Control Umbilical: The production control umbilical is the conduit between the host facility and the subsea control system used for chemical and/or hydraulic fluids, electric

power, and electric control signals. The hydraulic power and control lines are individual hoses or tubes manufactured from steel or thermoplastic materials and encased in the umbilical bundle. The electrical control cables supplying power and control signals can either be bundled with hydraulic lines or laid separately. To avoid any potential faults, the umbilicals are fabricated in continuous lengths, i.e. without splices

Fig 7: Typical Umbilical System

UTA: The Umbilical Termination Assembly (UTA) is designed for the subsea distribution of umbilical hydraulic and electrical services to more than one Xmas tree, manifold, or other subsea equipment

Fig 7: Typical UTA

Tree/Manifold Mounted Controls: The tree and manifold control system provides control of all functions of the subsea production system. Production control systems, as such, are only concerned with controlling production and safety valves and monitoring devices. They are not used to provide control of subsea connector latching and unlatching or operation of vertical access valves, for example. Typical subsea functions include operation/control of: 

A Surface Controlled Subsea Safety Valve (SCSSV)



Subsea Production Chokes



Production valves mounted on the Xmas tree, and utility functions such as monitoring of fluid characteristics, pressure leakage, and valve positions, etc.

Fig 8: Typical Subsea Control Equipment

The Scope of Tree/Manifold Mounted MUX E/H Controls usually consists of: 

Subsea Control Module (SCM)



SCM Mounting Base (SCMMB)



Sensors and Electrical Harnesses



Multiple Quick Connect (MQC) Junction Plates

2.9

Some Typical Subsea Controls Engineering Deliverables

Subsea Engineering Design is carried out based on clients’ specifications, international standards and company procedures. Some of the applicable codes are as stated below: 

Subsea Facilities Design basis



Subsea Field Layout



Subsea Control System Specification



API RP 17G – Recommended Practice for Subsea Production Controls



API 16D - Control Systems for Drilling Well Control System



API RP 17A - Recommended Practice for Design and Operation of Subsea Production Systems



API RP 17F – Specification for Subsea Production Control System



API RP 17D – Specification for Subsea Wellhead and Christmas Tree equipment



API RP 14F - Recommended Practice for Design and Installation of Electrical Systems for Offshore Production Platforms



API RP 500/505 - Recommended Practice for Classification of Locations for Electrical Installations at Petroleum Facilities



API Spec Q1 - Specification for Quality Programs



ISO 9000 & 9001 - Quality Systems



ISO 13628-6 - Petroleum and Natural Gas Industries – Design and Operation of Subsea Production Systems; Subsea Production Control Systems



ISO 14001 - Environmental Management Systems



NFPA 70 - National Fire Protection Association



IEC 60079 - Electrical Apparatus for Explosive Gas Atmospheres



IEC 60617 – IEC standard for Electrical Symbols



UL - Underwriter Laboratories

The Subsea Control Engineering team had the responsibility of providing the following services: 

Signal, Power and Hydraulic Analysis



Umbilical System



Subsea Electrical Distribution and Subsea Control Systems



Topside Equipment - Hydraulic Power Unit, UPS, Electrical Power Unit and Master Control Station

The following are the deliverables produced by Subsea Control team on projects: 

Functional Design Basis



Functional Specifications for MCS, SPCU, ULM, UPS and SCM



Schematic diagrams, GA and assembly drawings for Subsea and topside Products



Electrical single line diagram, block diagrams and schematics



Subsea Distribution schematics



FAT, EFAT, Operation & Maintenance Manuals



UPS System Sizing



Cable Sizing

Functional Specification MCS This document defines the main requirements for and functionality of the Subsea Control Systems for the project. The MCS is part of the Subsea Control System, which also consists of the Hydraulic Power Unit (HPU), Topside Umbilical Termination Assembly (TUTA), Subsea Control Modules (SCM’s), Subsea Power and Communication Unit (SPCU) and Subsea distribution equipment. The topsides MCS and SPCU are to be installed in a nonhazardous offshore control room environment. The MCS software will initially be configured to: 

Control and monitor six Subsea Control Modules, 3 initial XT, 2 future XT, and 1 downhole Gas Lift Manifold.



Control and Monitor a mudline Gas Lift Manifold (via a future dedicated umbilical)



Monitor Subsea Multi-Phase flow meters, three initial and two future from the extended data buffer from the SCM.



Monitor two downhole manifold pressure and temperature sensors per SCM.



Control and monitor the SPCU



Control and monitor the Production HPU



Monitor and act on discrete ESD signals from the ESS system



Manage subsea system data transfer and control with the PCS



Receive and act on discrete PSD signals from the PCS



Monitor the UPS status



Provide controlled shutdown



Monitor the Chemical Injection Unit (CIU) status via PCS comms link.



Include and allow control from Remote Operator system (ROS)



Receive and act on signals passed from the PCS

Functional Specification SPCU This document outlines the detailed design fabrication, description, functionality and performance of the Subsea Power and Communication Unit (SPCU) also referred to as EPU. The Subsea Power and Communication Unit is the Power and Communication Interface between the Subsea Master Control Station (MCS) and the Subsea Control Module’s (SCM). Redundant Power and Communication is provided to each SCM from redundant line modules. The umbilical line module has been selected and configured to provide 450VAC at 4 Amps. The SPCU has been configured to support up to twelve (12) ULMs for a six (6) redundant line system. The SPCU requires two independent Power Sources for complete redundancy. Input power requirement shall be 240VAC, 50/60Hz, single phase. The basic components of the SPCU are: 1. Enclosure/Cabinet 2. Main Fuses (system A & B) 3. EMC and 15.5 kHz Filter 4. Power ON indication for each side 5. Power supplies for local electronics 6. Input Power Surge suppressors 7. Umbilical Line modules (ULM) · Line Transformer · Line Circuit Breaker · Current and Voltage transducers · Modem and Filter · Insulation Monitor · Surge Suppressor · Digital Input and output module for local control · Power supply

· Input Power (240VAC) at 15 Amps · Power line output (450VAC) at 4 Amps · Serial and Ethernet ports 8. Redundant Computer with Touch Screen Control Panel (see TSCP) 9. Hub’s for local LAN and MCS interface 10. Redundant Topside Processing Units (TPU).

Functional Specification ULM The Umbilical Line Module (ULM) is the modular component of the Subsea Power and Communication Unit (SPCU) that serves as the power and communication Interface between the Subsea Master Control Station and the Subsea Communication Module. The ULM accepts an input voltage of 120 or 240Vac depending on the configuration used. The ULM provides communication over power to the Subsea control Module (SCM) at 620Vac via an RS232 input to the modem using FMC’s proprietary KOS150 protocol. Basic ULM components 1. Line Transformer 2. Line Circuit Breaker 3. Current and Voltage transducers 4. Modem and Filter (150 series) 5. Insulation Monitor 6. Surge Suppressor 7. Digital Input and output module for housekeeping and control 8. 24Vdc Power supply 9. Power line input (120/240VAC), power line output (390/450/620VAC) 10. Serial (RS232) and Ethernet (RJ45) ports The line module is designed to provide both power and communication to and from the Subsea Communication Modules (SCM). Filtered input power from the mains is stepped up to the desired voltage by an isolation type line transformer. This is then fed through a filter unit that combines modulated signal with the high voltage power. The line module contains instrumentation to monitor the line voltage, current and insulation resistance. These values are provided to the Embedded Processor via an Ethernet connection. The embedded processor displays these values on a touch screen display mounted on the SPCU cabinet housing the ULM. This same touch screen allows the operators to define set points for all the parameters. These field programmable set points are used to determine over voltage, over current

and low line resistance faults. Occurrence of over-voltage or over-current faults will result in an automatic disconnection of output power to the line to protect the line SCM, and surface equipment from damage due to the fault condition, By default, occurrence of a low insulation fault does not automatically switch off power to the line. However, the automatic trip of the power line based on each of the three fault conditions can be enabled or disabled in the configuration section of the embedded processor program. The line relay that is used to connect/disconnect line power due to a fault is used to manually connect power to a given line. Although the ULM does not implement alarms, the embedded control shall provide the SMCS the individual line voltage, current and insulation resistance values on a real time basis to enable implementation of fault condition alarm at desired set points. More importantly, each relay can be remotely switched ON or OFF by the MCS.

GA and Assembly Drawing This shows the configuration and arrangement of components in the cabinet of each subsea control equipment. Typical GA and assembly drawings produced for projects are MCS, SPCU and ULM.

Single Line, Block and Schematic Diagrams These drawings outline the overall schematic of each subsea control system equipment. The schematic diagram show in details the interconnections between the various components within a subsea equipment to achieve its functionality.

Test Procedures and Operational Manuals The test procedures outline the qualification procedure for the acceptance of the subsea equipment. These are normally done at the completion of a subsea product and must be witnessed by the client The operation and maintenance manual on the other hand provides a guideline on the equipment usage, maintenance and troubleshooting.

Subsea Distribution Schematics The subsea distribution schematic shows the distribution of hydraulic, chemical and electrical signals to subsea equipment – sensors (PT/TT), DCV, MPFM, valves. It typically show the interface between the UTA, SCM, XT and manifolds.

Database Information The Database information (DBI) is equivalent to the Bill of Material of equipment. It is an iMAN or Team Center Engineering generated report showing all the component list of each subsea equipment.

3.0

DETAILED ELECTRICAL ENGINEERING DESIGN FOR AGBADA NAG PROJECT

This write-up highlights the essential steps I followed in carrying out FEED and detailed electrical engineering design for Shell Domestic Gas Supply Project. The main objective of the project was to support government’s desire to increase supply of domestic gas (DOMGAS) to local industries and power plants. As part of plans to achieve the short-term target for SPDCEast, the Agbada Non Associated Gas (NAG) field is being developed to enhance gas supply to the Eastern Domestic Gas (EDG) network. This will provide an additional 100 MMscf/d of gas to the EDG Network. Since the project is a partly brown field project, data gathering was required before the actual project work execution. The followings are the findings of the site visit: 

The existing electrical room do not have enough space for the new equipments to be installed. A new switchroom is required



The existing power generation & distribution system cannot accommodate the new equipments to be installed, as such a new power generation and distribution system is required



The existing switchboard do not have adequate capacity to accommodate the new loads

Based on the above findings, the Electrical team had the responsibility of providing the following design services: 

Compressor and Generator shelter Lighting & Power Layout



New power generation and distribution



Generators, Tranformers and MCC sizing and selection



Switchroom design



UPS System Sizing



Raceway System Design



Plant Cable Routing, Earthing and Lighting



Cable Sizing



Electrical Cable Schedule or List



Compressor and generator sheds Earthing Layout



Generation of Single line Diagram and Loadlist

3.1

Lighting & Power Design for all Sheds or Shelter

The design was carried out taking into consideration the recommendation of Shell DEP and the relevant requirements of IEC standards. The lighting calculation showing the illumination level and number of lighting fittings required is attached in Appendix 1

For the Power design, the recommendation of Shell DEP were taken into consideration. Basically, allocation of power is based on the type of facility and the services it is to provide. In this case the only new facility is the generator shelter, so a point for 125A single phase industrial socket outlet was provided here. The Lighting & Power Layout Drawing is attached in Appendix 1. 3.2

Loadlist and UPS System Sizing

This design was carried out taking into consideration the recommendation of Shell DEP and the relevant requirements of IEC 62040. In starting out this design, Electrical loads summary showing the detailed listing of the entire electrical load to be served in the electrical distribution system is prepared as design evolves and the load estimates are updated constantly. This was used to determine the power requirements of the electrical system in order to properly size power generating equipment, distribution equipment and feeder systems, as the case maybe.

Running load is the actual electrical load of the facility during operation. Running load is used to size utility service, generators, transformers, feeders, motor control centers, circuit breakers, and uninterruptible power supplies. The following are the various kinds of loads found on a load summary: 

Critical Loads: Critical loads are loads that could cause damage to processes or products, serious interruption to the process, or discomfort to personnel if power were interrupted. Essential instrumentation, control and protective systems, and other essential services required during general power outages and whose loss cannot be tolerated even during maintenance and repair of their power supply are considered here.



Non-essential Loads: these are loads which are not required during general power outages, and whose loss may also be tolerated during infrequent maintenance and repair of their power supply.



Essential Loads: These are loads required for the safe operation of the plant and/or orderly shutdown during loss of main supply. They are also loads deemed essential for personnel safety. They are powered from unit equipment separate from the standby system because of more stringent requirements of emergency systems.



A continuous load is defined as a load that is expected to operate continuously for 3 hours or more. Intermittent loads are loads that operate continuously for periods of less than 3 hours. Spare loads are operated only when other loads are not operating

For the UPS Design only the critical loads are taken into consideration, the approach is to obtain all the load requirements from all disciplines and then mark up the value by 20-25% taking into consideration future expansion. It is important to coordinate with other design disciplines to ensure that up-to- date data are used. The final rating to be selected will depend on the closest standard rating that is manufactured by UPS vendors. The UPS sizing sheet and Single Line Diagram is attached in Appendix 1. 3.3

Electrical Single Line Diagram

A one-line diagram is a schematic drawing that illustrates the overall electrical system configuration and contains information on equipment sizing. A circuit is an assembly of electrical equipment supplied from the same origin and protected by the same protective device. Part 3 section 314 and appendix 5 of IEE Regulation deals with circuit design. Reg. 314-01 states that every installation shall be divided into circuits as necessary to avoid danger and minimize inconvenience in the event of a fault, and facilitate safe operation, inspection, testing, and maintenance. The main consideration is to determine the number of outgoing circuits and the capacity of protective device and cable sizes for all circuits. For the above named project there are basically two groups of final circuits which consist of the following: 

Plant Motor Loads – Compressor motors, well water, open & close drain, glycol injection, heat medium, condensate export, diesel loading pumps etc



Plant non-motor loads – UPS, HVAC, Transformers, Lighting & small power, Welding sockets, Cathodic protection, flare ignition, panel boards etc.

The Overall Electrical Single Line Diagram is attached in Appendix 1.

3.4

Cable Sizing 

Purpose of Calculation To determine if the conductor cross-section is adequate to provide the required power to an equipment





Assumptions 

Cables shall be considered as being laid direct in the ground or run on tray



Cables shall be armoured copper conductor cable

References 

Electrical Load List



Cable Catalogue (Kabelmetal)



Calculations



Design Basis

For three phase loads:

Full Load Current

I FLA 

KW 3 V Cos

For single phase loads:

Full Load Current

I FLA 

KW V Cos

Where: V = voltage CosØ = power factor kW = kilowatt power IFLA = full load current For three phase loads:

Vd 3 

I FLA x L x 3 ( RC Cos  X C Sin ) 1000

Motor running voltage drop

Vd 3 ( st ) 

Motor starting voltage drop

6 I FLA x L x 3 ( RC Cos st  X C Sin st ) 1000

For single phase loads:

Voltage drop

Vd 1 

I FLA x L x 2 ( RC Cos  X C Sin ) 1000

For DC loads: Voltage drop

And

VDC 

I FLA x 2 x L x RDC 1000

mV/Amp/meter =

( RC Cos  X C Sin )  V 1000

Where: L = cable length RC = cable AC Resistance XC = cable reactance CosØst = starting power factor RDC = DC resistance For three phase loads: Cable size to meet short circuit rating

Sa 

I SC x t K

Where: ISC = short circuit rating t =time to clear short circuit fault K = cable material factor (143 for XLPE; 115 for PVC) Sα = minimum cable cross section (mm2) Refer to Appendix 1 for the cable sizing calculation.

3.5

Electrical Cable Schedule or List

The Electrical Cable schedule shows the cable tag number, number of core, conductor size, cable description, length of run and sequential link between one cable to the others. The Electrical Cable schedule is shown in Appendix 1: 3.6

Raceway System Design

There are four types of raceway systems which are commonly used to distribute electrical power in industrial systems, they are: 

Conduit systems



Cable trays



Direct burial cables



Submarine cables

For this project, cable trays and direct burial of cables were used. The approach was to use cable trays underneath the switchroom and mainly direct burial for cables coming from substation to the process areas. For the direct burial an established cable trench route was identify and cables routed based on load centers. The Plant Cable Routing Layout is attached in Appendix 1. 3.7

Earthing Layout

Earthing or bonding of the plant is essential for personnel safety, to prolong insulation life and for fast selective isolation of earth faults. The Earthing layout shows the connection of all metallic structures on the plant - cabinets, junction boxes and structures to the earth, also earth bars are provided for connection of other equipments as may be applicable. The overall Earthing Layout is attached in Appendix 1.

4.0

CONCLUSION

The project experience summary is not exhaustive, because there are some other ongoing projects I am working on which is not included. But overall I have experience in the consulting, construction (industrial, residential and commercial developments), oil and gas engineering (Onshore and Offshore), at both design and project management levels. . Also, I have experience in offshore subsea engineering design and project management. These experiences have challenging but rewarding since it has equipped me with valuable skills to function as both and Electrical Engineer and Subsea Control Systems engineer. I have worked with both locally and internationally with Nigerian and Expatriate engineers on various projects. The experiences that I have gained have been of immense benefit to the Companies that I have worked for and to this great Nation.

APPENDIX 1: DETAILED ELECTRICAL ENGINEERING DESIGN FOR SPDC AGBADA NAG DOMESTIC GAS SUPPLY PROJECT DELIVERABLES

EQUIPMENT Equipment No.

Description

Vital

Essential

Non Reessential starting

ABSORBED LOAD

MOTOR

LOAD

RATING

FACTOR

2 3

KM-1100 KM-2010 KM-2020

HV SWITCHBOARD (SB100D1) Screw Compressor Driver Motor Train 1 Refrigerant Compressor Motor Train 2 Refrigerant Compressor Motor

X

x x

B

POWER

D

C

REMARKS

at load factor C

Continuous

SB100E1

Main LV Switchboard

kW

kW

in decimals

in decimals

cos j

kW

kVAr

635.00 450.00 450.00

635.00 450.00 450.00

1.00 1.00 1.00

0.96 0.96 0.96

0.85 0.85 0.85

661.46 468.75 468.75

409.94 290.51 290.51

159.90

(Est. x%E + y%F) Peak load

2,790.92

KW

1,688.21

(Est. x%E +y%F + z%G)

2,790.92

KW

1,688.21

KVAR KVAR

kW2  kVAr2  3,261.79

kW2  kVAr2 

3,261.79

kVA

Stand-by F

G

kW

kVAr

kW

kVAr

99.09

0.00

0.00

0.00

0.00

954.69

560.22

257.92

126.48

0.00

0.00

2713.55

1650.26

257.92

126.48

0.00

0.00

x

Maximum of normal running plant load:

Intermittent E

10% Contigency 4

kVAr = kW.tg j

CONSUMED LOAD

kW = A/D

FACTOR at load factor C

= A/B A

1

EFFICIENCY

Power factor without compensation (cos j): 0.

TOTAL

Power factor with compensation (cos j1):

kVA

kVA ( 

kW 2  kVAr 2 )

3176

287

0.

0 Required capacitor rating [= kW (tgj - tgj1)]:

Coincidence factors x, y and z shall be defined for each separate case, subject to Principal's approval.

kvar

NOTES a)

Load classification/restarting:

b)

For definitions of "Vital", "Essential" and

Absorbed loads:

C)

"Non-Essential" services and application of "Restarting"

Consumed loads: E - "Continuous"; all loads that may continuously be required

- for pumps, shaft load on duty point; - for instrumentation, computers, communiction, air conditioning, the required load during full operation of plant;

- for lighting during dark hours; - for workshops, the average total load in normal full operation

G - "Stand-by"; loads required in emergencies only, such as fire-water

for normal operation, including lighting and workshops

pumps or those of normally not running electrically driven units stand-by for

F - "Intermittent"; the loads required for intermediate pumping,

normally running steam-driven ones (e.g charge pumps, boiler feed pumps).

storage, loading, etc.

NOTES: REFERENCED DRAWINGS

DRAWING No.

MAIN LV SINGLE LINE DIAGRAM

DOMGAS PROJECT (AGB ADA NAG)

C01

APPROVED FOR CONSTRUCTION

O.A.

C.E.

30/11/2011

A02

ISSUED FOR DETAILED SAFOP

O.A.

C.E.

7/11/2011

ELECTRICAL LOAD LIST

A01

ISSUED FOR APPROVAL

O.A.

C.E

24/08/11

HV SWITCHB OARD (SB 100D1)

R02

ISSUED FOR SAFOP

O.A.

O.O.

21/04/11

R01

ISSUED FOR REVIEW

O.A.

O.O.

15/04/2011

REV

DESCRIPTION

PREPARED

APP'D

DATE

MAKON No.

REV. C01

SHELL DRG No.

PAGE 2 OF 4

EQUIPMENT Equipment No.

Description

Vital

Essential

Non Reessential starting

ABSORBED LOAD

MOTOR

LOAD

RATING

FACTOR

21

EM-3110A EM-3110B EM-3110C PM-3110A/B EM-3120A EM-3120B EM-3120C PM-3120A/B EM-2750 EM-2751 EM-1100 PM-1101 P-5701A/B P-5702A/B EM-6110A/B EM-6110 HOLD EM-6120A/B EM-6120 HOLD EM-2611A/B

MAIN LV SWITCHBOARD (SB100E1) Train 1 Inlet Cooler Motor A Train 1 Inlet Cooler Motor B Train 1 Inlet Cooler Motor C Train 1 Condensate Export Pump Train 2 Inlet Cooler Motor A Train 2 Inlet Cooler Motor B Train 2 Inlet Cooler Motor C Train 2 Condensate Export Pump Recip Compressor Recycle Gas Cooler Recip Compressor Recycle Gas Cooler Screw Compressor Recycle Gas Cooler Screw Compressor Lube Oil Pump Close Drain Pump Open Drain Pump Train 1 Heat Medium Pump Train 1 Heat Trim cooler Motor Train 1 Burner Blower Train 2 Heat Medium Pump Train 2 Heat Trim cooler Motor Train 2 Burner Blower Train 1 Condensed Water Pump

22

EM-2610A/B

Train 1 Glycol Injection Pump

EM-2613 EM-2620A/B EM-2623 EM-2621A/B P-2010 EM-2014A/B P-2020 EM-2024A/B P-4300A/B P-4301A/B A-4610/20 EM-4610/20 P-5901A/B CP-1750 28-MOV-480/482 28-MOV-582 KM-1101 EM-1101 PM-1102 WO-3 WO-2 WO-1 HVAC 1A HVAC 2A UP-001A DS-001B DB-10A DB-10B DB-10C

Train 1 Glycol Vapour Condenser Train 2 Glycol Injection Pump Train 2 Glycol Vapour Condenser Train 2 Condensed Water Pump Train 1 Compr Lube Oil Circulating Pump Train 1 Refrigerant Condenser Fan Train 2 Compr Lube Oil Circulating Pump Train 2 Refrigerant Condenser Fan HP Flare K.O. Vessel Pump LP Flare K.O. Vessel Pump Instrument Air Compressor Instrument Air Compressor Aftercooler Well Water Pump Cathodic protection Inlet Facility Motor Operated Valves Flow Control Motor Operated Valves Agbada Flowstation 2 Booster Compressor Agbada Flowstation 2 Gas & Glycol Cooler Agbada Flowstation 2 Glycol Pump Welding Socket Wo-3 Welding Socket Wo-2 Welding Socket Wo-1 HVAC (Control Building) HVAC (Electrical Building) UPS(AC) TELECOM GEARSWITCH GAS GENERATOR G-8201A DB GAS GENERATOR G-8201B DB GAS GENERATOR G-8201C DB

2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20

23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 38 38 38 39 40

41 42 43

X X X X X X X X X X X

X X X

x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x X X X X

B

POWER

D

C

SB100E2

Emergency Switchboard

X

(Est. x%E + y%F) Peak load

1032.07

KW

598.17

(Est. x%E +y%F + z%G)

1032.07

KW

598.2

KVAR

Continuous

kW

in decimals

in decimals

cos j

kW

kVAr

7.50 7.50 7.50 37.00 7.50 7.50 7.50 37.00 22.40 22.40 15.00 7.50 0.70 0.70 30.00 1.49 4.00 30.00 1.49 4.00 0.75

7.50 7.50 7.50 37.00 7.50 7.50 7.50 37.00 30.00 30.00 18.50 7.50 1.10 1.10 30.00 2.20 4.00 30.00 2.20 4.00 1.10

1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 0.75 0.75 0.81 1.00 0.64 0.64 1.00 0.68 1.00 1.00 0.68 1.00 0.68

0.91 0.91 0.91 0.93 0.91 0.91 0.91 0.93 0.91 0.91 0.91 0.91 0.91 0.91 0.91 0.91 0.91 0.91 0.91 0.91

8.24 8.24 8.24 39.78 8.24 8.24 8.24 39.78 24.62 24.62 16.48 8.24

4.22 4.22 4.22 21.47 4.22 4.22 4.22 21.47 15.26 15.26 10.22 5.11

0.83

0.89 0.89 0.89 0.88 0.89 0.89 0.89 0.88 0.85 0.85 0.85 0.85 0.95 0.95 0.80 0.80 0.80 0.80 0.80 0.80 0.80

32.97 1.64 4.40 32.97 1.64 4.40 0.90

24.73 1.23 3.30 24.73 1.23 3.30 0.68

4.21

5.50

0.77

0.88

0.80

4.78

3.59

2.20 4.21 2.20 0.75 4.00

2.20 5.50 2.20 1.10 4.00

0.94 0.88 0.94 0.83 0.91

0.80 0.80 0.80 0.80 0.85

22.40 4.00 22.40 4.00 4.00 45.00 0.90 12.50 15.00 0.80 0.80 90.00 4.00 0.75 23.00 69.00 69.00 50.00 50.00 52.00 15.00 30.00 30.00 30.00

30.00 4.00 30.00 5.50 5.50 55.00 1.10 15.00 15.00 1.10 1.10 110.00 4.00 0.75 23.00 69.00 69.00 50.00 50.00 52.00 15.00 30.00 30.00 30.00

1.00 0.77 1.00 0.68 1.00 0.75 1.00 0.75 0.73 0.73 0.82 0.82 0.83 1.00 0.73 0.73 0.82 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00

0.92 0.91 0.92 0.92 0.92 0.93 0.74 0.91 0.80 0.94 0.94 0.90 0.90 0.90 0.80 0.80 0.80 0.75 0.75 1.00 0.91 0.91 0.91 0.91

0.88 0.85 0.88 0.88 0.88 0.87 0.79 0.89 1.00 0.90 0.90 0.80 0.80 0.80 0.90 0.90 0.90 0.85 0.85 0.85 0.89 0.89 0.89 0.89

2.34 4.78 2.34 0.90 4.40 24.35 4.40 24.35

1.76 3.59 1.76 0.68 2.72 13.14 2.72 13.14

kW2  kVAr2  1192.88

kVA

kW2  kVAr2  1192.88

kVA

Intermittent

Stand-by

E

kW

Maximum of normal running plant load: KVAR

REMARKS

at load factor C

10% Contigency 5

kVAr = kW.tg j

CONSUMED LOAD

kW = A/D

FACTOR at load factor C

= A/B A

1

EFFICIENCY

0.00 0.00 0.00 18.75

100.00 4.44 0.83

F kW

kVAr

0.77 0.77

0.25 0.25

4.35 4.35

2.35 2.35

0.85 0.85

0.41 0.41

28.75 86.25 86.25

13.92 41.77 41.77

G kW

kVAr

0.00 0.00 0.00 0.00

75.00 3.33 0.63

0.00 0.00 0.00 0.00 32.97 32.97 0.00

0.00 0.00 0.00 0.00 16.89 16.89 0.00

47.85

29.53

21.32

10.35

0.00

0.00

362.36

201.56

23.42

12.64

0.00

0.00

954.69

560.22

257.92

126.48

0.00

0.00 Power factor without compensation (cos j): 0.

TOTAL

kVA ( 

kW 2  kVAr 2 )

Power factor with compensation (cos j1):

1106.93

287.26

0.

0.00

Coincidence factors x, y and z shall be defined for each separate case, subject to Principal's approval.

Required capacitor rating [= kW (tgj - tgj1)]:

kvar

NOTES a)

Load classification/restarting:

b)

For definitions of "Vital", "Essential" and

Absorbed loads:

-

"Non-Essential" services and application of "Restarting", see DEP 33.64.10.10-Gen.

C)

G - "Stand-by"; loads required in emergencies only, such as fire-water

for normal operation, including lighting and workshops

for instrumentation, computers, communiction,

pumps or those of normally not running electrically driven units stand-by for

F - "Intermittent"; the loads required for intermediate pumping,

air conditioning, the required load during full operation of plant;

-

Consumed loads: E - "Continuous"; all loads that may continuously be required

for pumps, shaft load on duty point;

for lighting during dark hours;

normally running steam-driven ones (e.g charge pumps, boiler feed pumps).

storage, loading, etc.

for workshops, the average total load in normal full operation

NOTES: REFERENCED DRAWINGS

DRAWING No.

1. For details of emergency switchboard, see page 4 of this document. MAIN LV SINGLE LINE DIAGRAM

DOMGAS PROJECT (AGBADA NAG)

C01

APPROVED FOR CONSTRUCTION

O.A.

C.E.

30/11/2011

A02

ISSUED FOR DETAILED SAFOP

O.A.

C.E.

7/11/2011

ELECTRICAL LOAD LIST

A01

ISSUED FOR APPROVAL

O.A.

C.E.

24/08/11

MAIN LV SWITCHBOARD (SB100E1)

R02

ISSUED FOR SAFOP

O.A.

O.O.

21/04/11

R01

ISSUED FOR REVIEW

O.A.

O.O.

15/4/2011

REV

DESCRIPTION

PREPARED

APP'D

DATE

MAKON No.

REV. C01

SHELL DRG No.

PAGE 3 OF 4

EQUIPMENT Equipment No.

Description

Vital

Non ReEssential essential starting

ABSORBED LOAD

MOTOR

LOAD

RATING

FACTOR

2 3 4 5 6 7 8 9 10 11 12 13

DB-1 DB-2 DB-3 DB-4 DB-5 DB-7 HVAC 1B HVAC 2B UP-001B P-6201 A-4620 EM-4620 P-5901B DS-001A

EMERGENCY SWITCHBOARD (SB100E2) Outdoor lighting Anti -condensation Heaters Power Plant Auxiliaries Electrical Building Lighting DB Anti -condensation Heaters Control Building Lighting DB HVAC (Control Building) HVAC (Electrical Building) UPS(AC) Diesel Loading Pump Motor Instrument Air Compressor Instrument Air Compressor Aftercooler Well Water Pump B TELECOM GEARSWITCH

X X X X X X X X X X X X X X

B

POWER

at load factor C D

C

KW

205.35

(Est. x%E +y%F + z%G)

369.38

KW

205.35

KVAR KVAR

Continuous

kW

in decimals

in decimals

cos j

kW

kVAr

25.00 8.00 10.00 10.00 8.00 10.00 50.00 50.00 52.00 4.00 45.00 0.90 12.50 15.00

25.00 8.00 10.00 10.00 8.00 10.00 50.00 50.00 52.00 5.50 55.00 1.10 15.00 15.00

1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 0.73 0.82 0.82 0.83 1.00

0.95 0.95 0.90 0.95 0.95 0.95 0.75 0.75 0.90 0.90 0.93 0.74 0.91 0.91

0.95 0.90 0.90 0.95 0.90 0.95 0.85 0.85 0.85 0.80 0.87 0.79 0.89 0.89

26.32

8.65

11.11 10.53

5.38 3.46

10.53 66.67 66.67 57.78

3.46 41.32 41.32 35.81

48.39 1.22 13.74 16.48

27.42 0.94 7.04 8.44

32.94

362.36 kW2  kVAr2  422.62

kVA

kW2  kVAr2  422.62

kVA

Intermittent

Stand-by

E

kW

Maximum of normal running plant load:

369.38

REMARKS

at load factor C

10% Contigency

(Est. x%E + y%F) Peak load

kVAr = kW.tg j

CONSUMED LOAD

kW = A/D

FACTOR

= A/B A

1

EFFICIENCY

F kW

kVAr

8.42

4.08

8.42

4.08

4.44

3.33

18.32

2.13

201.56

23.42

G kW

kVAr

1.15

0.00

0.00

12.64

0.00

0.00 Power factor without compensation (cos j): 0.

TOTAL

kVA ( 

kW 2  kVAr 2 )

Power factor with compensation (cos j1):

415

27

0.

0 Required capacitor rating [= kW (tgj - tgj1)]:

Coincidence factors x, y and z shall be defined for each separate case, subject to Principal's approval.

kvar

NOTES a)

Load classification/restarting:

b)

For definitions of "Vital", "Essential" and

Absorbed loads:

-

"Non-Essential" services and application of "Restarting"

C)

for instrumentation, computers, communiction, air conditioning, the required load during full operation of plant;

-

Consumed loads: E - "Continuous"; all loads that may continuously be required

for pumps, shaft load on duty point;

for lighting during dark hours;

G - "Stand-by"; loads required in emergencies only, such as fire-water

for normal operation, including lighting and workshops

pumps or those of normally not running electrically driven units stand-by for

F - "Intermittent"; the loads required for intermediate pumping,

normally running steam-driven ones (e.g charge pumps, boiler feed pumps).

storage, loading, etc.

for workshops, the average total load in normal full operation

NOTES: REFERENCED DRAWINGS

DRAWING No.

MAIN LV SINGLE LINE DIAGRAM

DOMGAS PROJECT (AGB ADA NAG)

MAKON

C01

APPROVED FOR CONSTRUCTION

O.A.

C.E.

30/11/2011

A02

ISSUED FOR DETAILED SAFOP

O.A.

C.E.

7/11/2011

ELECTRICAL LOAD LIST

A01

ISSUED FOR APPROVAL

O.A.

C.E.

24/08/11

EMERGENCY SWITCHB OARD (SB 100E2)

R02

ISSUED FOR SAFOP

O.A.

O.O.

21/04/11

R01

ISSUED FOR REVIEW

O.A.

O.O.

15/4/2011

REV

DESCRIPTION

PREPARED

APP'D

DATE

MAKON No.

REV. C01

SHELL DRG No.

PAGE 4 OF 4

ENGINEERING & TECHNICAL SERVICES

DOMGAS PROJECT (AGBADA NAG)

ENGINEERING & TECHNICAL SERVICES LTD

DOMGAS PROJECT (AGBADA NAG)

ENGINEERING & TECHNICAL SERVICES LTD

DOMGAS PROJECT (AGBADA NAG)

ENGINEERING & TECHNICAL SERVICES LTD

DOMGAS PROJECT (AGBADA NAG)

ENGINEERING & TECHNICAL SERVICES LTD

DOMGAS PROJECT (AGBADA NAG)

ENGINEERING & TECHNICAL SERVICES LTD

DOMGAS PROJECT (AGBADA NAG)

EQUIPMENT Equipment No.

Description

Vital

Non ReEssential essential starting

ABSORBED LOAD

NOMINAL

LOAD

RATING

FACTOR

1

2

B

POWER

kVAr = kW.tg j

CONSUMED LOAD

kW = A/D

FACTOR at load factor C

= A/B A

A.C. SYSTEM (10 mins back-up supply) Control Building HVAC Change-Over Control PanelSupply 1/2 MCC Building HVAC Change-Over Control PanelSupply 1/2

EFFICIENCY

D C in decimals in decimals

REMARKS

at load factor C cos j

Continuous

Intermittent

kW

kVAr

Stand-by

E

kW

kW

X

0.30

0.30

1.00

0.90

1.00

0.33

0.00

X

0.30

0.30

1.00

0.90

1.00

0.33

0.00

F

G

kW

kVAr

kW

kVAr

A.C. SYSTEM (30 mins back-up supply) 3

-

HV & LV Switchgear

X

3.00

3.00

1.00

0.90

0.95

3.33

1.10

4

-

Generator control panel and PMS

X

3.00

1.00

0.90

0.95

3.33

1.10

5

-

Instrument Start Air Package Local Control Panel

X

3.00 0.85

0.85

1.00

0.98

0.95

0.87

0.29

-

Reciprocating Gas Compressor Phoenix Contact Power Supply

X

0.53

0.53

1.00

0.98

1.00

0.54

0.00

-

Reciprocating Gas Compressor Panel Cooling Fan

X

0.03

0.03

1.00

0.98

1.00

0.03

0.00

-

Reciprocating Gas Compressor Enclosure Light

X

0.04

0.04

1.00

0.98

1.00

0.04

0.00

6

7 8

A.C. SYSTEM (1 hr back-up supply) 9

-

ODS Metering Control System

X

4.00

4.00

1.00

0.98

0.95

4.08

1.34

10

-

ODS Analyzer Package

X

0.65

0.65

1.00

0.98

0.95

0.66

0.22

11

-

AGBADA NAG PAS Power Supply

X

12.50

12.50

1.00

0.98

0.95

12.76

4.19

-

Recycle Gas Compressor Phoenix Contact Power Supply

X

1.06

1.06

1.00

0.98

1.00

1.08

0.00

X

0.28

0.28

1.00

0.98

1.00

0.29

0.00

X X X

1.15 0.03 0.04

1.15 0.03 0.04

1.00 1.00 1.00

0.98 0.98 0.98

1.00 1.00 1.00

1.17 0.03 0.04

0.00 0.00 0.00

X

0.12

0.12

1.00

0.98

1.00

0.12

0.00

12

13

-

14 15 16

17

Recycle Gas Compressor Phoenix Contact Power Supply Recycle Gas Compressor 230 VAC Recepticle Recycle Gas Compressor Panel Cooling Fan Recycle Gas Compressor Enclosure Light Recycle Gas Compressor Allen Bradley PA-72 Power Supply A.C. SYSTEM (8 hrs back-up supply)

18 19 20 21 22

-

AGBADA NAG F&G/SIS Power Supply

X

12.60

12.60

1.00

0.95

0.90

13.26

6.42

-

Control Building Vesda System

X

0.30

0.30

1.00

0.98

0.95

0.31

0.10

-

MCC Building Vesda System Telecoms

X X

0.30 5.00

0.30 5.00

1.00 1.00

0.98 0.95

0.95 0.80

0.31 5.26

0.10 3.95

12.05

4.70

0.00

0.00

0.00

0.00

60.23

23.50

0.00

0.00

0.00

0.00

25% Contingency

Maximum of normal running plant load: (Est. x%E + y%F) Peak load

60.23

KW

23.50

(Est. x%E +y%F + z%G)

60.23

KW

23.50

kW2  kVAr2 

KVAR

kW2  kVAr2 

KVAR

64.65

kVA

64.65

kVA

Power factor without compensation (cos j): 0.

TOTAL

kVA ( 

kW 2  kVAr 2 )

Power factor with compensation (cos j1):

64.65

0.00

0.93

0.

0.00 Required capacitor rating [= kW (tgj - tgj1)]:

Coincidence factors x, y and z shall be defined for each separate case, subject to Principal's approval.

kvar

NOTES a)

Load classification/restarting:

b)

For definitions of "Vital", "Essential" and

Absorbed loads:

-

"Non-Essential" services and application of "Restarting"

Consumed loads: E - "Continuous"; all loads that may continuously be required

for instrumentation, computers, communiction, air conditioning, the required load during full operation of plant;

-

REFERENCED DRAW INGS/DOCUMENTS

C)

for pumps, shaft load on duty point;

for lighting during dark hours;

G - "Stand-by"; loads required in emergencies only, such as fire-water

for normal operation, including lighting and workshops

pumps or those of normally not running electrically driven units stand-by for

F - "Intermittent"; the loads required for intermediate pumping,

normally running steam-driven ones (e.g charge pumps, boiler feed pumps).

storage, loading, etc.

for workshops, the average total load in normal full operation

NOTES: DRAW ING/DOCUMENT No.

ELECTRICAL BUILDING GENERAL ARRANGEMENT DRAW ING

DOM GA S PROJ ECT (A GB A DA NA G )

C01

APPROVED FOR CONSTRUCTION

O.A.

C.E.

1/3/2012

A01

ISSUED FOR DETAILED SAFOP

P.A.

0.A

24/10/2011

R01

ISSUED FOR REVIEW

P.A.

0.A

20/9/2011

REV

DESCRIPTION

PREPA RED

A PP'D

DA TE

A .C. UPS L OA D L IST

MAKON No.

REV. C01

SHELL DRG No.

SHT 1 OF 2

UPS Load Profile

Notes:

10 min UPS load (kW)

0.7

30 mins UPS load, kW

8.1

1 hr UPS load, kW

20.2

8 hrs UPS load, kW

19.1

Total UPS load (kW)

48.2

1. The A.C. UPS unit shall be sized by the UPS vendor based on the UPS load list and load profile above. 2. For battery sizing purposes, a 15% design margin, and a 10% aging factor shall be added as per IEEE 485 6.2.2 and 6.2.3. 3. Battery sizing Calculation and Battery General Arrangement shall be submitted along with UPS bid

Load (kW) 55.2 55.2 54.5

47.6 25.5

Time(hrs) 10mins

REFERENCED DRAW INGS/DOCUMENTS

0.5

1

8

NOTES: DRAW ING/DOCUMENT No.

ELECTRICAL BUILDING GENERAL ARRANGEMENT DRAW ING

DOMGAS PROJECT (AGBADA NAG )

C01

APPROVED FOR CONSTRUCTION

O.A.

C.E.

1/3/2012

A01

ISSUED FOR DETAILED SAFOP

P.A.

0.A

24/10/2011

R01

ISSUED FOR REVIEW

P.A.

O.A

20/9/2011

REV

DESCRIPTION

PREPARED

APP'D

DATE

A.C. UPS LOAD LIST

MAKON No.

REV. C01

SHELL DRG No.

SHT 2 OF 2

ENGIN EERING & T EC HN IC AL SER VIC ES LTD

DOMGAS PROJECT (AGBADA NAG)

Calculation Cover Sheet Customer Project Title Calculation Title

DOMGAS PROJECT OUTDOOR LIGHTING CALCULATION

Proj No

Node Name

AGBADA NAG

Calc. No. Page 2 of 8 Calculation Objective To determine the Illumination Levels at various locations away from the Lighting Fixtures and the distance between fixtures

Calculation Method Point-To-Point Method of Illumination Calculation

Assumptions The lighting fixtures shall be installed in a non-dirty environment, hence the Light Loss Factor (LLF) is assumed 0.8

Software Used Title

Version

Validation (Y / N / N/A)

References 1. NFPA 70 - National Electrical Code 2. IES-RP-7 - Practice for Industrial Lighting

Conclusions At a distance of 35.7m (A+B), mid-way between fixtures the Illumination level per lamp (18Lux) gotten from the calculation is higher than the recommended value, hence a spacing of 70m between lamps is adequate for general plant lighting. For areas requiring regular equipment maintenance, a seperation of 22m between lamps is adequate.

C01 A01 R01 Rev

23/05/2012 23/02/2012 15/12/2011 Date

APPROVED FOR CONSTRUCTION ISSUED FOR APPROVAL ISSUED FOR REVIEW Description

C.E C.E C.E By

L.A. L.A. L.A. Checked

M.K. M.K. O.A. Approved

Note: to create a new l within a cell, press Alt+Enter.

Calculation Checklist Customer Project Title Calculation Title

DOMGAS PROJECT OUTDOOR LIGHTING CALCULATION

Proj No

Node Name

AGBADA NAG

Calc. No. Page Please check boxes for all applicable items checked or mark as "N/A" if not appropriate: Calculations:

3

of

8

Calculation number assigned and registered (refer to project numbering system or Document Numbering System for format). Project title shown. Calculation title shown. Revision history box complete and signed. Table of Contents. Appropriate stamp for preliminary issues. Calculation objectives (aims) stated. Calculation method defined or described (including formulae if relevant). Reference made to text, standard or code. Check version/edition with that required for project. Source of input data stated (with revision number and date if relevant). Customer's requirements included/addressed. Assumptions stated. Summary of results or conclusions if appropriate. For software based calculations, reference to software verification if available. Approach used is appropriate for problem being solved. Method clear and easy to follow. Input data correct. Calculation arithmetically correct OR software previously verified and reference to verification checked. Calculation result within expected limits. Calculation tolerances stated if significant. Units used as required by client. Abbreviations correct. Appropriate cross-references. Sketches included and clearly labelled, where required. Appendices included and referenced, as required. Considered design reviews, Hazop actions, client input, safety and environmental issues, etc. Checking Records: Checked and annotated copy of calculation filed (use "Check Print" stamp). Corrections made as required and calculation dated and signed on cover sheet by checker. Alternative method calculation and/or representative check performed and filed, as required. Revisions: Changes clouded. Revision history block updated. Calculation re-checked if required.

C01 A01 R01

23/05/2012 23/02/2012 15/12/2011

APPROVED FOR CONSTRUCTION ISSUED FOR APPROVAL ISSUED FOR REVIEW

C.E C.E C.E

L.A. L.A. L.A.

M.K. M.K. O.A.

Rev

Date

Description

By

Checked

Approved

Calculation Sheet Customer Project Title Calculation Title

DOMGAS PROJECT OUTDOOR LIGHTING CALCULATION

Node Name

AGBADA NAG

Calc. No. Rev Date R01

15/12/2011

Proj No

By

Checked

Rev

Date

By

Checked

Rev

Page Date

4 By

C.E

L.A.

A01

23/02/2012

C.E

L.A

C01

23/5/12

C.E

of

L.A

Table of Contents Content

8 Checked

Page No.

1

CALCULATION COVER SHEET

2

2

CALCULATION CHECKLIST

3

2

TABLE OF CONTENTS

4

3

LAMP DATA AND CALCULATION BASIS

5

4

CALCULATION SHEETS AND RESULTS

6

5

CONCLUSION

10

Calculation Sheet Customer Project Title Calculation Title

DOMGAS PROJECT OUTDOOR LIGHTING CALCULATION

Node name

AGBADA NAG

Calc. No. Rev Date R01 15/12/2011

Proj No

By

Checked

C.E

L.A.

Rev

Date

A01 23/02/2012

By

Checked

Rev

Page Date

5 By

C.E

L.A.

C01

23/5/12

C.E

Lamp Data

Lighting Fitting Data FLOODLIGHTS Manufacturing & Catalog Ref No. STAHL, UK SERIES 6521 FLOODLIGHT Description Asymmetrical Flood lights, 400W High Pressure Sodium Lighting Fixtures Suitable for Zone 2, Group B, C & D and IP66, 220-254VAC rated Lamp Output is 48000 Lumen for 400W types

Point-To-Point Calculation Basis Illumnation at a point is given by: where

Ex 

I  Cos  LLF Dx2

I = Illuminance (Lux) LLF = Light Loss Factor α = Beam axis Dx = Beam axis length to working plane or ground level

of

8 Checked L.A

Calculation Sheet Customer Project Title Calculation Title

Proj No DOMGAS PROJECT OUTDOOR LIGHTING CALCULATION

Node Name

AGBADA NAG

Calc No. Rev

Date

By

Page Checked

C01

23/05/2012

C.E

L.A

6

of

8

Calculation Sheets and Results Location:-OUTDOOR - PROCESS AREA Required Illumination: 150 Lux

Type of Lighting: Lamp Output:

Calculation Reference Fitting Reference No. Mounting Height (H) Distance from Pole base to Beam axis (A) Distance from aiming angle to point (B)meters Distance from source (D) Light Loss Factor (LLF) Aiming angle from vertical (Degrees) Angle of Luminous Luminous intensity (Ix) at angleα (Lumen/Lux)

A DB1-FLD-01 8 3.7 4.0

Floodlight 48000Lumen

B C DB1-FLD-01 DB1-FLD-01 8 8 3.7 3.7 8.0 12.0

0.8 25 48000

0.8 25 48000

0.8 25 48000

β=

43.9

Degrees

α=

18.9

Degrees

Dx =

11.10

Dx² =

123.29

=

294.7

Lux

β=

55.6

Degrees

α=

30.6

Degrees

H Cos 

Dx =

14.17

\

Dx² =

200.89

Calculation A Fitting Ref. No.

tan  

A B H

\

Angle of inclined Plane

Dx

H  Cos 

\ Ex 

Illumnation at point is given by:

I  Cos  LLF Dx2

Calculation B Fitting Ref. No.

tan  

A B H

\

Angle of inclined Plane

Dx

Illumnation at point is given by:



Ex 

I  Cos  LLF = Dx2

164.5

Lux

D E DB1-FLD-01 DB1-FLD-01 8 8 3.7 3.7 15.0 32.0 0.8 25 48000

0.8 25 48000

Calculation Sheet Customer Project Title Calculation Title

Proj No DOMGAS PROJECT OUTDOOR LIGHTING CALCULATION

Node Name

AGBADA NAG

Calc. No. Rev Date C01

23/05/2012

By

Page Checked

C.E

L.A

AngleCof Luminous Calculation

Fitting Ref. No.

tan  

A B H

\

Angle of inclined Plane

H  Cos 

Dx

\

Ex 

Illumnation at point is given by:

I  Cos  LLF Dx2

β=

63.0

Degrees

α=

38.0

Degrees

17.62 Dx = Dx² =

310.49

=

97.5

Lux

β=

66.8

Degrees Degrees

Calculation D Fitting Ref. No.

tan  

A B H

\

α=

41.8

H  Cos 

Dx =

20.34

\

Dx² =

413.69

Angle of inclined Plane

Dx

Ex 

Illumnation at point is given by:

I  Cos  LLF = Dx2

69.2

Lux

β=

77.4

Degrees

α=

52.4

Degrees

H Cos 

Dx =

36.59

\

Dx² =

1338.49

=

17.5

Calculation E Fitting Ref. No.

tan  

A B H

\

Angle of inclined Plane

Dx

Illumnation at point is given by:



Ex 

I  Cos  LLF Dx2

Lux

7

of

8

Calculation Sheet Customer Project Title Calculation Title

DOMGAS PROJECT OUTDOOR LIGHTING CALCULATION

Node Name

AGBADA NAG

Calc. No. Rev Date R01

15/12/2011

Proj No

By

Checked

Rev

Date

By

Checked

Rev

Page Date

8 By

C.E

L.A.

A01

23/02/2012

C.E

L.A.

C01

23/5/12

C.E

of

8 Checked L.A

CONCLUSION 1. FOR 400W HPS LAMPS At a distance of 11.7m (A+B), mid-way between fixtures the Illumination level per lamp (165Lux) gotten from the calculation is higher than the recommended value, hence a spacing of 22m between lamps is adequate and within acceptable limits. To achieve required illumination for Perimeter lights, lamp post shall be 70m apart

Lighting Calculation Date

Designed by

Checked by

C.E

Project

DOMGAS PROJECT(AGBADA NAG)

M M sq M M % % % M

Room cavity Ceiling cavity

Cavity Height Ratio Cavity Height Ratio

Floor cavity

Cavity Height Ratio

Location

A. Room data

B. Cavity data

Length Room Width dimen. Floor Area Ceiling ht. Ceiling Surface Wall reflect. Floor Fixture mounting ht.

SCREW COMPRESSOR SHED

O.A

1 2 3 4 5 6 7 8

D. Lux

15.7 8.1 127.2 8.7 30 20 20 8.7

C. Fixture data 9 10 11 12

Mfr. Chalmlite Cat. No. PRGI/236/BI

8.7 M 8.1 0.0 M 0.0

15

18

Lamps per fixture Lumens per lamp Coeff. of Utilization Maintenance factor

13 14

17

0.00 M 0.0

16

2 3350 0.29 0.85

E. Calculating Cavity Ratios

No. of fixtures required to produce a given number of Lux Desired lighting level 23

Cavity ratio

150 Lux

=

ROOM:

5 x cavity height x (length + width) length x width 5 x line 9 x (line 1 + line 2) line 1 x line 2

5x Lighting level produced by a given number of fixtures Option 25 10 28 a fixtures Option 26 11 29 b fixtures Option 27 12 30 c fixtures

CEILING: 129.87

8.7

x(

8.1 )= 8.1

(Line 10)

5x FLOOR:

8.1

8.1 )= 8.1

(Line 12)

15.7 + 15.7 x

8.1 )= 8.1

(Line 15)

150 0.29

x

0.85

x

0.29

x

0.85

= 129.9

x

0.29

x

0.85

= 142.9

x

0.29

x

0.85

= 155.8

5 x line 11 x (line 1 + line 2) line 1 x line 2

0

x(

Lux

142.86

15.7 + 15.7 x

15.7 + 15.7 x

0.0

5 x line 14 x (line 1 + line 2)

Lux

line 1 x line 2

155.84

5x

0

x(

Lux

0.0

F. Calculating number of fixtures No. of fixtures =

floor area x desired lighting level lamps per fixture x lumens per lamp x coeff. of utilization x maintenance factor

=

line 3 x line 23 line 19 x line 20 x line 21 x line 22

2 x

127 3350

x x

=

12 (Line 24)

G. Calculating lighting levels (Lux) Lux =

Option a:

no. of fixtures x lamps per fixture x lumens per lamp x coeff. of utilization x maintenance factor floor area line 25 x line 19 x line 20 x line 21 x line 22

=

10 x

2x

=

11 x

2x

=

12 x

2x

line 3

Option b:

line 26 x line 19 x line 20 x line 21 x line 22

Option b:

line 27 x line 19 x line 20 x line 21 x line 22

line 3

line 3

3350 127 3350 127 3350 127

(Line 28)

(Line 29)

H. Selected Number Of Fixtures Selected Number of fixtures =

12

NOTES: 1. Illumination Level and Maintenance Factor are Obtained From DEP 33.64.10.10-Gen.(Appendix 9) 2. Coefficient of utilization is obained from Manufacturer Catalogue for Fitting Selected

(Line 30)

19 20 21 22

Lighting Calculation Date

Designed by

Checked by

C.E

Project

DOMGAS PROJECT(AGBADA NAG)

M M sq M M % % % M

Room cavity Ceiling cavity

Cavity Height Ratio Cavity Height Ratio

Floor cavity

Cavity Height Ratio

Location

A. Room data

B. Cavity data

Length Room Width dimen. Floor Area Ceiling ht. Ceiling Surface Wall reflect. Floor Fixture mounting ht.

RECIP COMPRESSOR SHED

O.A

1 2 3 4 5 6 7 8

D. Lux

15.7 13.8 216.7 8.7 30 20 20 8.7

C. Fixture data 9 10 11 12

Mfr. Chalmlite Cat. No. PRGI/236/BI

8.7 M 5.9 0.0 M 0.0

15

18

Lamps per fixture Lumens per lamp Coeff. of Utilization Maintenance factor

13 14

17

0.00 M 0.0

16

2 3350 0.29 0.85

E. Calculating Cavity Ratios

No. of fixtures required to produce a given number of Lux Desired lighting level 23

Cavity ratio

150 Lux

=

ROOM:

5 x cavity height x (length + width) length x width 5 x line 9 x (line 1 + line 2) line 1 x line 2

5x Lighting level produced by a given number of fixtures Option 25 18 28 a fixtures Option 26 19 29 b fixtures Option 27 20 30 c fixtures

CEILING: 137.21

8.7

x(

5x FLOOR:

13.8 )= 13.8

(Line 10)

5.9

13.8 )= 13.8

(Line 12)

13.8 )= 13.8

(Line 15)

5 x line 11 x (line 1 + line 2) line 1 x line 2

0

x(

Lux

144.83

15.7 + 15.7 x

15.7 + 15.7 x

0.0

5 x line 14 x (line 1 + line 2)

Lux

line 1 x line 2

152.46

5x

0

x(

Lux

15.7 + 15.7 x

0.0

F. Calculating number of fixtures No. of fixtures =

floor area x desired lighting level lamps per fixture x lumens per lamp x coeff. of utilization x maintenance factor

=

line 3 x line 23 line 19 x line 20 x line 21 x line 22

2 x

217 3350

x x

150 0.29

x

0.85

=

20

x

0.29

x

0.85

= 137.2

x

0.29

x

0.85

= 144.8

x

0.29

x

0.85

= 152.5

(Line 24)

G. Calculating lighting levels (Lux) Lux =

Option a:

no. of fixtures x lamps per fixture x lumens per lamp x coeff. of utilization x maintenance factor floor area line 25 x line 19 x line 20 x line 21 x line 22

=

18 x

2x

=

19 x

2x

=

20 x

2x

line 3

Option b:

line 26 x line 19 x line 20 x line 21 x line 22

Option b:

line 27 x line 19 x line 20 x line 21 x line 22

line 3

line 3

3350 217 3350 217 3350 217

(Line 28)

(Line 29)

H. Selected Number Of Fixtures Selected Number of fixtures =

20

NOTES: 1. Illumination Level and Maintenance Factor are Obtained From DEP 33.64.10.10-Gen.(Appendix 9) 2. Coefficient of utilization is obained from Manufacturer Catalogue for Fitting Selected

(Line 30)

19 20 21 22

Lighting Calculation Date

Designed by

Project

DOMGAS PROJECT(AGBADA NAG)

M M sq M M % % % M

Room cavity Ceiling cavity

Cavity Height Ratio Cavity Height Ratio

Floor cavity

Cavity Height Ratio

Checked by

C.E

Location

A. Room data

B. Cavity data

Length Room Width dimen. Floor Area Ceiling ht. Ceiling Surface Wall reflect. Floor Fixture mounting height.

LV SWITCHROOM

O.A

16.5 5.2 85.8 3.2 50 20 20 3.2

1 2 3 4 5 6 7 8

D. Lux

C. Fixture data 9 10 11 12

Mfr. Chalmlite Cat. No. PRGI/236/BI

3.2 M 4.0 0.0 M 0.0

15

18

Lamps per fixture Lumens per lamp Coeff. of Utilization Maintenance factor

13 14

17

0.0 M 0.0

16

2 3350 0.32 0.85

E. Calculating Cavity Ratios

No. of fixtures required to produce a given number of Lux Desired lighting level 23

Cavity ratio

300

=

ROOM:

Lux

5 x cavity height x (length + width) length x width 5 x line 9 x (line 1 + line 2) line 1 x line 2

5x Lighting level produced by a given number of fixtures Option 25 12 28 a fixtures Option 26 14 29 b fixtures Option 27 16 30 c fixtures

CEILING: 254.88

3.2

x(

5x FLOOR:

+ x

5.2 )= 5.2

(Line 10)

4.0

+ x

5.2 )= 5.2

(Line 12)

16.5 16.5

+ x

5.2 )= 5.2

(Line 15)

300 0.32

x

0.85

0.32

x

0.85

5 x line 11 x (line 1 + line 2) line 1 x line 2

0

x(

Lux

297.36

16.5 16.5

16.5 16.5

0.0

5 x line 14 x (line 1 + line 2)

Lux

line 1 x line 2

339.84

5x

0

x(

Lux

0.0

F. Calculating number of fixtures No. of fixtures =

floor area x desired lighting level lamps per fixture x lumens per lamp x coeff. of utilization x maintenance factor

=

line 3 x line 23 line 19 x line 20 x line 21 x line 22

2 x

86 3350

x x

=

14.1 (Line 24)

G. Calculating lighting levels (Lux) Lux =

Option a:

no. of fixtures x lamps per fixture x lumens per lamp x coeff. of utilization x maintenance factor floor area line 25 x line 19 x line 20 x line 21 x line 22

=

12 x

2x

line 3

Option b:

line 26 x line 19 x line 20 x line 21 x line 22

=

14 x

2x

line 3

Option b:

line 27 x line 19 x line 20 x line 21 x line 22 line 3

=

16 x

2x

3350 86 3350 86 3350 86

x

254.9 (Line 28)

x

0.32

x

0.85

=

297.4 (Line 29)

x

H. Selected Number Of Fixtures Selected Number of fixtures =

=

16

NOTES: 1. Illumination Level and Maintenance Factor are Obtained From DEP 33.64.10.10-Gen.(Appendix 9) 2. Coefficient of utilization is obained from Manufacturer Catalogue for Fitting Selected

0.32

x

0.85

=

339.8 (Line 30)

19 20 21 22

Lighting Calculation Date

Designed by

Project

DOMGAS PROJECT(AGBADA NAG)

M M sq M M % % % M

Room cavity Ceiling cavity

Cavity Height Ratio Cavity Height Ratio

Floor cavity

Cavity Height Ratio

Checked by

C.E

Location

A. Room data

B. Cavity data

Length Room Width dimen. Floor Area Ceiling ht. Ceiling Surface Wall reflect. Floor Fixture mounting height.

MV SWITCHROOM

O.A

12.5 5.2 65.0 3.2 50 20 20 3.2

1 2 3 4 5 6 7 8

D. Lux

C. Fixture data 9 10 11 12

Mfr. Chalmlite Cat. No. PRGI/236/BI

3.2 M 4.4 0.0 M 0.0

15

18

Lamps per fixture Lumens per lamp Coeff. of Utilization Maintenance factor

13 14

17

0.0 M 0.0

16

2 3350 0.32 0.85

E. Calculating Cavity Ratios

No. of fixtures required to produce a given number of Lux Desired lighting level 23

Cavity ratio

300

=

ROOM:

Lux

5 x cavity height x (length + width) length x width 5 x line 9 x (line 1 + line 2) line 1 x line 2

5x Lighting level produced by a given number of fixtures Option 25 8 28 a fixtures Option 26 10 29 b fixtures Option 27 12 30 c fixtures

CEILING: 224.30

3.2

x(

5x FLOOR:

+ x

5.2 )= 5.2

(Line 10)

4.4

+ x

5.2 )= 5.2

(Line 12)

12.5 12.5

+ x

5.2 )= 5.2

(Line 15)

300 0.32

x

0.85

0.32

x

0.85

5 x line 11 x (line 1 + line 2) line 1 x line 2

0

x(

Lux

280.37

12.5 12.5

12.5 12.5

0.0

5 x line 14 x (line 1 + line 2)

Lux

line 1 x line 2

336.44

5x

0

x(

Lux

0.0

F. Calculating number of fixtures No. of fixtures =

floor area x desired lighting level lamps per fixture x lumens per lamp x coeff. of utilization x maintenance factor

=

line 3 x line 23 line 19 x line 20 x line 21 x line 22

2 x

65 3350

x x

=

10.7 (Line 24)

G. Calculating lighting levels (Lux) Lux =

Option a:

no. of fixtures x lamps per fixture x lumens per lamp x coeff. of utilization x maintenance factor floor area line 25 x line 19 x line 20 x line 21 x line 22

=

8x

2x

line 3

Option b:

line 26 x line 19 x line 20 x line 21 x line 22

=

10 x

2x

line 3

Option b:

line 27 x line 19 x line 20 x line 21 x line 22 line 3

=

12 x

2x

3350 65 3350 65 3350 65

x

224.3 (Line 28)

x

0.32

x

0.85

=

280.4 (Line 29)

x

H. Selected Number Of Fixtures Selected Number of fixtures =

=

12

NOTES: 1. Illumination Level and Maintenance Factor are Obtained From DEP 33.64.10.10-Gen.(Appendix 9) 2. Coefficient of utilization is obained from Manufacturer Catalogue for Fitting Selected

0.32

x

0.85

=

336.4 (Line 30)

19 20 21 22

Lighting Calculation Date

Designed by

Project

DOMGAS PROJECT(AGBADA NAG)

M M sq M M % % % M

Room cavity Ceiling cavity

Cavity Height Ratio Cavity Height Ratio

Floor cavity

Cavity Height Ratio

Checked by

C.E

A. Room data

B. Cavity data

Length Room Width dimen. Floor Area Ceiling ht. Ceiling Surface Wall reflect. Floor Fixture mounting height.

BATTERY ROOM

Location

O.A

5.2 4.1 21.3 3.2 50 20 20 3.2

1 2 3 4 5 6 7 8

D. Lux

C. Fixture data 9 10 11 12

Mfr. Chalmlite Cat. No. PRGI/236/BI

3.2 M 7.0 0.0 M 0.0

15

18

Lamps per fixture Lumens per lamp Coeff. of Utilization Maintenance factor

13 14

17

0.0 M 0.0

16

2 3350 0.32 0.85

E. Calculating Cavity Ratios

No. of fixtures required to produce a given number of Lux Desired lighting level 23

Cavity ratio

200

=

ROOM:

Lux

5 x cavity height x (length + width) length x width 5 x line 9 x (line 1 + line 2) line 1 x line 2

5x Lighting level produced by a given number of fixtures Option 25 1 28 a fixtures Option 26 2 29 b fixtures Option 27 3 30 c fixtures

CEILING: 85.48

3.2

x(

5x FLOOR:

4.1 )= 4.1

(Line 10)

7.0

5.2 + 5.2 x

4.1 )= 4.1

(Line 12)

5.2 + 5.2 x

4.1 )= 4.1

(Line 15)

5 x line 11 x (line 1 + line 2) line 1 x line 2

0

x(

Lux

170.96

5.2 + 5.2 x

0.0

5 x line 14 x (line 1 + line 2)

Lux

line 1 x line 2

256.44

5x

0

x(

Lux

0.0

F. Calculating number of fixtures No. of fixtures =

floor area x desired lighting level lamps per fixture x lumens per lamp x coeff. of utilization x maintenance factor

=

line 3 x line 23 line 19 x line 20 x line 21 x line 22

2 x

21 3350

x x

200 0.32

x

0.85

=

0.32

x

0.85

2.3 (Line 24)

G. Calculating lighting levels (Lux) Lux =

Option a:

no. of fixtures x lamps per fixture x lumens per lamp x coeff. of utilization x maintenance factor floor area line 25 x line 19 x line 20 x line 21 x line 22

=

1x

2x

line 3

Option b:

line 26 x line 19 x line 20 x line 21 x line 22

=

2x

2x

line 3

Option b:

line 27 x line 19 x line 20 x line 21 x line 22 line 3

=

3x

2x

3350 21 3350 21 3350 21

x

85.5 (Line 28)

x

0.32

x

0.85

=

171.0 (Line 29)

x

H. Selected Number Of Fixtures Selected Number of fixtures =

=

3

NOTES: 1. Illumination Level and Maintenance Factor are Obtained From DEP 33.64.10.10-Gen.(Appendix 9) 2. Coefficient of utilization is obained from Manufacturer Catalogue for Fitting Selected

0.32

x

0.85

=

256.4 (Line 30)

19 20 21 22

Lighting Calculation Date

Designed by

Project

DOMGAS PROJECT(AGBADA NAG)

M M sq M M % % % M

Room cavity Ceiling cavity

Cavity Height Ratio Cavity Height Ratio

Floor cavity

Cavity Height Ratio

Checked by

C.E

Location

A. Room data

B. Cavity data

Length Room Width dimen. Floor Area Ceiling ht. Ceiling Surface Wall reflect. Floor Fixture mounting height.

FIELD AUXILIARY ROOM

O.A

1 2 3 4 5 6 7 8

17.8 6.0 106.8 3.2 50 20 20 3.2

D. Lux

C. Fixture data 9 10 11 12

Mfr. Chalmlite Cat. No. PRGI/236/BI

3.2 M 3.6 0.0 M 0.0

15

18

Lamps per fixture Lumens per lamp Coeff. of Utilization Maintenance factor

13 14

17

0.0 M 0.0

16

2 3350 0.32 0.85

E. Calculating Cavity Ratios

No. of fixtures required to produce a given number of Lux Desired lighting level 23

Cavity ratio

300

=

ROOM:

Lux

5 x cavity height x (length + width) length x width 5 x line 9 x (line 1 + line 2) line 1 x line 2

5x Lighting level produced by a given number of fixtures Option 25 16 28 a fixtures Option 26 17 29 b fixtures Option 27 18 30 c fixtures

CEILING: 273.02

3.2

x(

5x FLOOR:

+ x

6.0 )= 6.0

(Line 10)

3.6

+ x

6.0 )= 6.0

(Line 12)

17.8 17.8

+ x

6.0 )= 6.0

(Line 15)

300 0.32

x

0.85

0.32

x

0.85

5 x line 11 x (line 1 + line 2) line 1 x line 2

0

x(

Lux

290.08

17.8 17.8

17.8 17.8

0.0

5 x line 14 x (line 1 + line 2)

Lux

line 1 x line 2

307.15

5x

0

x(

Lux

0.0

F. Calculating number of fixtures No. of fixtures =

floor area x desired lighting level lamps per fixture x lumens per lamp x coeff. of utilization x maintenance factor

=

line 3 x line 23 line 19 x line 20 x line 21 x line 22

2 x

107 3350

x x

=

17.6 (Line 24)

G. Calculating lighting levels (Lux) Lux =

Option a:

no. of fixtures x lamps per fixture x lumens per lamp x coeff. of utilization x maintenance factor floor area line 25 x line 19 x line 20 x line 21 x line 22

=

16 x

2x

line 3

Option b:

line 26 x line 19 x line 20 x line 21 x line 22

=

17 x

2x

line 3

Option b:

line 27 x line 19 x line 20 x line 21 x line 22 line 3

=

18 x

2x

3350 107 3350 107 3350 107

x

273.0 (Line 28)

x

0.32

x

0.85

=

290.1 (Line 29)

x

H. Selected Number Of Fixtures Selected Number of fixtures =

=

18

NOTES: 1. Illumination Level and Maintenance Factor are Obtained From DEP 33.64.10.10-Gen.(Appendix 9) 2. Coefficient of utilization is obained from Manufacturer Catalogue for Fitting Selected

0.32

x

0.85

=

307.1 (Line 30)

19 20 21 22

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BASIS OF DESIGN

For three phase loads, Full load current

For single phase loads,

KW

I FLA 

I FLA 

KW V Cos

For three phase loads, Motor Running Voltage drop

Vd 3 

Motor Starting Voltage drop

V

=

Voltage

Cosθ

=

Power Factor

KW

=

Kilowatt Power

IFLA

Full Load Current

I FLA x L x 3 ( RC Cos  X C Sin ) 1000

Vd 3 ( st ) 

For single phase loads Voltage drop

Where:

3 V Cos

6 I FLA x L x 3 ( RC Cos st  X C Sin st ) 1000

Vd 1 

I FLA x L x 2 ( RC Cos  X C Sin ) 1000

V DC 

I FLA x 2 x L x R DC 1000

For DC loads Voltage drop Where: L = Cable Length

Cosθst = Starting Power Factor

RC = AC Cable Resistance

RDC = DC Resistance

XC = Cable Reactance

( RC Cos  X C Sin )  V 1000 For three phase loads Cable size to meet short circuit rating

Sa 

I SC x K

= (mV/Amp/meter)

t

Where: ISC = Short Circuit Current t = Time to clear short circuit fault K = Cable material factor (143 for XLPE & 115 for PVC) Sa = Minimum cable area (mm2)

Page 2 of 13

ELECTRICAL CABLE SIZING CALCULATION

Cable Service: Main (Gas) Generators outgoing cable Cable Tag: P-2500, P-2501, P-2502

Equipment Rating:

1531

kW

Equipment Power Factor:

System Voltage:

6600

V

Design Current:

Feeder Fuse/MCCB Rating:

200

A

Cable Run Distance:

Installation Method:

Air:

Dir. buried:

Maximum Short Circuit Rating :

10

kA

for

0.80

X 1

167.41

A

60

m

Ducts: Sec

K-Factor

143

Conductor Size:

Ampacity

mV/A/M

Conductor Line Resistance(Ω/m):

Conductor Line Reactance(Ω/m):

70

275

0.61

0.342

0.079

Number of cables in parallel:

1

Number of cores of cable:

3

Correction Factors: Ground Temperature:

25

Number of Cables in Group:

9

Cable Ampacity after correction:

°C

221.76

A

Allowable Volt Drop :

132

V

Percentage Volt Drop :

0.11

%

Is selected cable adequate ?:

YES

Correction Factor:

0.96

Correction Factor:

0.84

Overall Correction Factor:

0.81

Voltage Drop:

SELECTED CABLE SIZE IS

Volt Drop :

1

Cable size based on short circuit rating 69.9301

Nos,

3

core

7.32

X

V

70

mm²

Is selected cable adequate ?: YES

Cable Type: 6600/10000V XLPE/SWA/PVC Cable Data Source:

NEXANS KABELMETAL NIGERIA

Page 3 of 13

ELECTRICAL CABLE SIZING CALCULATION

Cable Service: Emergency (Diesel) Generators outgoing cable Cable Tag: P-2504

Equipment Rating:

400

kW

Equipment Power Factor:

System Voltage:

400

V

Design Current:

Feeder Fuse/MCCB Rating:

800

A

Cable Run Distance:

Installation Method:

Air:

Dir. buried:

Short Cicuit Rating of System:

22

kA

X 1

for

0.80 721.71

A

60

m

Ducts: Sec

K-Factor

143

Conductor Size:

Ampacity

mV/A/M

Conductor Line Resistance(Ω/m):

Conductor Line Reactance(Ω/m):

240

501

0.21

0.099

0.077

Number of cables in parallel:

2

Number of cores of cable:

4

Correction Factors: Ground Temperature:

25

Number of Cables in Group:

9

Cable Ampacity after correction:

°C

808.0128

A

8

V

Percentage Volt Drop :

1.26

%

Is selected cable adequate ?:

YES

Correction Factor:

0.96

Correction Factor:

0.84

Overall Correction Factor:

0.81

Voltage Drop: Allowable Volt Drop :

SELECTED CABLE SIZE IS Cable size based on short circuit rating

Volt Drop :

2 153.8

Nos,

4

core

5.04

X

V

240 mm²

Is selected cable adequate ?: YES

Cable Type: 600/1000V XLPE/SWA/PVC Cable Data Source:

NEXANS KABELMETAL NIGERIA

Page 4 of 13

ELECTRICAL CABLE SIZING CALCULATION

Cable Service: SCREW COMPRESSOR MOTOR FEEDER Cable Tag: P-2505

Equipment Rating:

635

kW

Motor Running Power Factor:

0.80

Motor Starting Power Factor: System Voltage:

6600

V

Design Current:

Feeder Fuse/MCCB Rating:

100

A

Cable Run Distance:

Installation Method:

Air:

Short Cicuit Rating of Selected cable:

X 10

0.35

Dir. buried: KA

A

250

m

Ducts: 1

for

69.44

Sec

143

K-Factor

Conductor Size:

Ampacity

mV/A/M

Conductor Line Resistance(Ω/m):

Conductor Line Reactance(Ω/m):

70

275

0.61

0.342

0.079

Number of cables in parallel:

1

Number of cores of cable:

3

Correction Factors: Ground Temperature:

35

Number of Cables in Group:

6

°C

Correction Factor:

0.96

Correction Factor:

0.86

Overall Correction Factor:

0.83

A. MOTOR RUNNING Cable Ampacity after correction:

227.04

A

Allowable Volt Drop :

198

V

Percentage Volt Drop :

0.23

%

Is selected cable adequate ?:

YES

Voltage Drop: Volt Drop :

SELECTED CABLE SIZE IS

1

Nos,

3

core

15.25

V

X

70

mm²

70

mm²

B. MOTOR STARTING Motor Starting Curent (6.5FLC):

451.3

A

Allowable Volt Drop :

660

V

Percentage Volt Drop :

0.35

%

Is selected cable adequate ?:

YES

Motor starting Voltage Drop: Volt Drop :

SELECTED CABLE SIZE IS Cable size based on short circuit rating Cable Type: Cable Data Source:

1 69.9

Nos,

3

core

23.39

X

V

Is selected cable adequate ?: YES

6600/10000V XLPE/SWA/PVC NEXANS KABELMETAL NIGERIA

Page 5 of 13

ELECTRICAL CABLE SIZING CALCULATION

Cable Service: REFRIGERANT COMPRESSOR MOTOR Cable Tag: P-2506/07

Equipment Rating:

450

kW

Motor Running Power Factor:

0.80

Motor Starting Power Factor: System Voltage:

6600

V

Design Current:

Feeder Fuse/MCCB Rating:

63

A

Cable Run Distance:

Installation Method:

Air:

Short Cicuit Rating of Selected cable:

X 10

0.35

Dir. buried: KA

A

250

m

Ducts: 1

for

49.21

Sec

143

K-Factor

Conductor Size:

Ampacity

mV/A/M

Conductor Line Resistance(Ω/m):

Conductor Line Reactance(Ω/m):

70

275

0.61

0.342

0.079

Number of cables in parallel:

1

Number of cores of cable:

3

Correction Factors: Ground Temperature:

35

Number of Cables in Group:

6

°C

Correction Factor:

0.96

Correction Factor:

0.86

Overall Correction Factor:

0.83

A. MOTOR RUNNING Cable Ampacity after correction:

227.04

A

Allowable Volt Drop :

198

V

Percentage Volt Drop :

0.15

%

Is selected cable adequate ?:

YES

Voltage Drop: Volt Drop :

SELECTED CABLE SIZE IS

1

Nos,

3

core

9.61

V

X

70

mm²

70

mm²

B. MOTOR STARTING Motor Starting Curent (6.5FLC):

319.8

A

Allowable Volt Drop :

660

V

Percentage Volt Drop :

0.25

%

Is selected cable adequate ?:

YES

Motor starting Voltage Drop: Volt Drop :

SELECTED CABLE SIZE IS Cable size based on short circuit rating Cable Type: Cable Data Source:

1 69.9

Nos,

3

core

16.58

X

V

Is selected cable adequate ?: YES

6600/10000V XLPE/SWA/PVC NEXANS KABELMETAL NIGERIA

Page 6 of 13

ELECTRICAL CABLE SIZING CALCULATION

Cable Service: Step Down Transformer (TR-01/02) Feeder cable Cable Tag: P-2510/11

Equipment Rating:

1000

kW

Equipment Power Factor:

System Voltage:

6600

V

Design Current:

Feeder Fuse/MCCB Rating:

150

A

Cable Run Distance:

Installation Method:

Air:

Dir. buried:

Maximum Short Circuit Rating :

10

kA

for

0.80

X 1

109.35

A

60

m

Ducts: Sec

K-Factor

143

Conductor Size:

Ampacity

mV/A/M

Conductor Line Resistance(Ω/m):

Conductor Line Reactance(Ω/m):

70

275

0.61

0.342

0.079

Number of cables in parallel:

1

Number of cores of cable:

3

Correction Factors: Ground Temperature:

25

Number of Cables in Group:

9

Cable Ampacity after correction:

°C

221.76

A

Allowable Volt Drop :

132

V

Percentage Volt Drop :

0.08

%

Is selected cable adequate ?:

YES

Correction Factor:

0.96

Correction Factor:

0.84

Overall Correction Factor:

0.81

Voltage Drop: Volt Drop :

SELECTED CABLE SIZE IS Cable size based on short circuit rating

1 69.9

Nos,

3

core

5.49

X

V

70

mm²

Is selected cable adequate ?: YES

Cable Type: 6600/10000V XLPE/SWA/PVC Cable Data Source:

NEXANS KABELMETAL NIGERIA

Page 7 of 13

ELECTRICAL CABLE SIZING CALCULATION

Cable Service: Step Down Transformer (TR-01/02) Feeder cable Cable Tag: P-2512/13

Equipment Rating:

1000

kW

System Voltage:

400

V

Design Current:

Feeder Fuse/MCCB Rating:

2000

A

Cable Run Distance:

Installation Method:

Equipment Power Factor:

Air:

Dir. buried:

Maximum Short Circuit Rating :

40

kA

for

0.80

X 1

1804.27

A

60

m

Ducts: Sec

K-Factor

143

Conductor Size:

Ampacity

mV/A/M

Conductor Line Resistance(Ω/m):

Conductor Line Reactance(Ω/m):

400

663

0.19

0.0641

0.093

Number of cables in parallel:

4

Number of cores of cable:

1

Correction Factors: Ground Temperature:

25

Number of Cables in Group:

9

Cable Ampacity after correction:

°C

2138.5728

A

8

V

Percentage Volt Drop :

1.43

%

Is selected cable adequate ?:

YES

Correction Factor:

0.96

Correction Factor:

0.84

Overall Correction Factor:

0.81

Voltage Drop: Allowable Volt Drop :

SELECTED CABLE SIZE IS Cable size based on short circuit rating

Volt Drop :

4 279.72

Nos,

1

core

5.70

X

V

400 mm²

Is selected cable adequate ?: YES

Cable Type: 600/1000V XLPE/AWA/PVC Cable Data Source:

NEXANS KABELMETAL NIGERIA

Page 8 of 13

ELECTRICAL CABLE SIZING CALCULATION

APPENDIX A

Page 9 of 13

ELECTRICAL CABLE SIZING CALCULATION

APPENDIX A

Page 10 of 13

ELECTRICAL CABLE SIZING CALCULATION

APPENDIX A

Page 11 of 13

ELECTRICAL CABLE SIZING CALCULATION

APPENDIX A

Page 12 of 13

ELECTRICAL CABLE SIZING CALCULATION

APPENDIX A

Page 13 of 13

ELECTRICAL CABLE SIZING CLACULATION

CONTRACTOR: CLIENT PROJECT FACILITY CONTRACT NO.: DOCUMENT

DOMGAS PROJECT AGBAGA NAG ELECTRICAL CABLE LIST

REV.: C01 CABLE S/N

1 2 3 4 5 6 7

TAG

POWER CABLES P-2500 P-2501 P-2502

FROM EQUIPMENT DESCRIPTION

GLAND EQUIPMENT

EQUIPMENT

TAG

LOCATION

1914KVA GAS GENERATOR 1914KVA GAS GENERATOR 1914KVA GAS GENERATOR

G-8201A G-8201B G-8201C

P-2505 P-2506

6.6KV SWITCHBOARD 6.6KV SWITCHBOARD

SB100D1 SB100D1

P-2507

6.6KV SWITCHBOARD

SB100D1

SIZE TYPE

TO EQUIPMENT DESCRIPTION

GLAND EQUIPMENT

EQUIPMENT

TAG

LOCATION

SERVICE

SIZE TYPE VOLTAGE

PAGE 2 of 7 QUANTITY OF

NUMBER OF

CABLE

ESTIMATED

CONDUCTORS AND SIZE

CABLES

TYPE

CABLE LENGTH

POWER

CONTROL

63 63 63

E1W E1W E1W

6.6KV SWITCHBOARD 6.6KV SWITCHBOARD 6.6KV SWITCHBOARD

SB100D1 SB100D1 SB100D1

MCC ROOM MCC ROOM MCC ROOM

63 63 63

E1W E1W E1W

6600V 6600V 6600V

3CX70mm2 3CX70mm2 3CX70mm2

____

MCC ROOM MCC ROOM

63 63

E1W E1W

SCREW COMPRESSOR DRIVER REFRIGERANT COMPRESSOR MOTOR

KM-1100 KM-2010

OUTDOOR OUTDOOR

63 63

E1FW E1FW

6600V 6600V

3CX70mm2 3CX70mm3

____

MCC ROOM

63

E1W

REFRIGERANT COMPRESSOR MOTOR

KM-2020

OUTDOOR

63

E1FW

6600V

3CX70mm4 2

GENERATOR HOUSE GENERATOR HOUSE GENERATOR HOUSE

REMARK

(m)

Cable buried - METS scope Cable buried - METS scope Cable buried - METS scope

1 1 1

XLPE/CuT/SWA/PVC XLPE/CuT/SWA/PVC XLPE/CuT/SWA/PVC

60 60 60

1 1

XLPE/CuT/SWA/PVC XLPE/CuT/SWA/PVC

220 230

Cable buried- To be accomodated with METS cable Cable buried- To be accomodated with METS cable

____

____ ____

____

1

XLPE/CuT/SWA/PVC

235

8

P-2510

6.6KV SWITCHBOARD

SB100D1

MCC ROOM

63

E1W

STEP-DOWN TRANSFORMER

TR-01

OUTDOOR

63

E1FW

6600V

3CX70mm

____

1

XLPE/CuT/SWA/PVC

60

Cable buried- To be accomodated with METS cable Cable buried - METS scope

9

P-2511

6.6KV SWITCHBOARD

SB100D1

MCC ROOM

63

E1W

STEP-DOWN TRANSFORMER

TR-02

OUTDOOR

63

E1FW

6600V

3CX70mm2

____

1

XLPE/CuT/SWA/PVC

60

Cable buried - METS scope

P-2512/1

STEP-DOWN TRANSFORMER

TR-01

OUTDOOR

50

E1W

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

400V

1CX400mm2

____

1

XLPE/AWA/PVC

60

2

1 1

XLPE/AWA/PVC XLPE/AWA/PVC

60 60

10 11 12 13

P-2512/2 P-2512/3

STEP-DOWN TRANSFORMER STEP-DOWN TRANSFORMER

TR-01 TR-01

OUTDOOR OUTDOOR

50 50

E1W E1W

400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD

SB100E1 SB100E1

MCC ROOM MCC ROOM

50 50

E1W E1W

400V 400V

1CX400mm 1CX400mm2

____

14

P-2512/4

STEP-DOWN TRANSFORMER

TR-01

OUTDOOR

50

E1W

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

400V

1CX400mm2

____

2

____

1

XLPE/AWA/PVC

60

15

P-2512/5

STEP-DOWN TRANSFORMER

TR-01

OUTDOOR

50

E1W

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

400V

1CX400mm

____

1

XLPE/AWA/PVC

60

16

P-2512/6

STEP-DOWN TRANSFORMER

TR-01

OUTDOOR

50

E1W

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

400V

1CX400mm2

____

1

XLPE/AWA/PVC

60

17

P-2512/7

STEP-DOWN TRANSFORMER

TR-01

OUTDOOR

50

E1W

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

400V

1CX400mm2

____

1

XLPE/AWA/PVC

60

18

P-2512/8

STEP-DOWN TRANSFORMER

TR-01

OUTDOOR

50

E1W

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

400V

1CX400mm2

____

2

1

XLPE/AWA/PVC

60

19

P-2512/19

STEP-DOWN TRANSFORMER

TR-01

OUTDOOR

50

E1W

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

400V

1CX400mm

____

1

XLPE/AWA/PVC

60

20

P-2512/10

STEP-DOWN TRANSFORMER

TR-01

OUTDOOR

50

E1W

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

400V

1CX400mm2

____

1

XLPE/AWA/PVC

60

21 22 23 24 25

P-2512/11 P-2512/12 P-2512/13 P-2512/14

STEP-DOWN TRANSFORMER STEP-DOWN TRANSFORMER STEP-DOWN TRANSFORMER STEP-DOWN TRANSFORMER

TR-01 TR-01 TR-01 TR-01

OUTDOOR OUTDOOR OUTDOOR OUTDOOR

50 50 50 50

E1W E1W E1W E1W

400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD

SB100E1 SB100E1 SB100E1 SB100E1

MCC ROOM MCC ROOM MCC ROOM MCC ROOM

50 50 50 50

E1W E1W E1W E1W

400V 400V 400V 400V

1CX400mm2 1CX400mm2 1CX400mm2 1CX400mm2

____

1 1 1 1

XLPE/AWA/PVC XLPE/AWA/PVC XLPE/AWA/PVC XLPE/AWA/PVC

60 60 60 60

26

P-2513/1

STEP-DOWN TRANSFORMER

TR-02

OUTDOOR

50

E1W

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

400V

1CX400mm2

____

2

____ ____ ____

1

XLPE/AWA/PVC

60

27

P-2513/2

STEP-DOWN TRANSFORMER

TR-02

OUTDOOR

50

E1W

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

400V

1CX400mm

____

1

XLPE/AWA/PVC

60

28

P-2513/3

STEP-DOWN TRANSFORMER

TR-02

OUTDOOR

50

E1W

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

400V

1CX400mm2

____

1

XLPE/AWA/PVC

60

29

P-2513/4

STEP-DOWN TRANSFORMER

TR-02

OUTDOOR

50

E1W

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

400V

1CX400mm2

____

1

XLPE/AWA/PVC

60

30

P-2513/5

STEP-DOWN TRANSFORMER

TR-02

OUTDOOR

50

E1W

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

400V

1CX400mm2

____

1

XLPE/AWA/PVC

60

31

P-2513/6

STEP-DOWN TRANSFORMER

TR-02

OUTDOOR

50

E1W

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

400V

1CX400mm2

____

1

XLPE/AWA/PVC

60

32

P-2513/7

STEP-DOWN TRANSFORMER

TR-02

OUTDOOR

50

E1W

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

400V

1CX400mm2

____

1

XLPE/AWA/PVC

60

33

P-2513/8

STEP-DOWN TRANSFORMER

TR-02

OUTDOOR

50

E1W

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

400V

1CX400mm2

____

2

1

XLPE/AWA/PVC

60

34

P-2513/9

STEP-DOWN TRANSFORMER

TR-02

OUTDOOR

50

E1W

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

400V

1CX400mm

____

1

XLPE/AWA/PVC

60

35

P-2513/10

STEP-DOWN TRANSFORMER

TR-02

OUTDOOR

50

E1W

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

400V

1CX400mm2

____

1

XLPE/AWA/PVC

60

36

P-2513/11

STEP-DOWN TRANSFORMER

TR-02

OUTDOOR

50

E1W

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

400V

1CX400mm2

____

1

XLPE/AWA/PVC

60

37

P-2513/12

STEP-DOWN TRANSFORMER

TR-02

OUTDOOR

50

E1W

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

400V

1CX400mm2

____

2

4 Cables in parallel per phase Cable buried - METS scope

4 Cables in parallel per phase Cable buried - METS scope

4 Cables in parallel per phase Cable buried - METS scope NEUTRAL CABLE NEUTRAL CABLE

4 Cables in parallel per phase Cable buried - METS scope

4 Cables in parallel per phase Cable buried - METS scope

4 Cables in parallel per phase Cable buried - METS scope

1

XLPE/AWA/PVC

60

38

P-2513/13

STEP-DOWN TRANSFORMER

TR-02

OUTDOOR

50

E1W

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

400V

1CX400mm

____

1

XLPE/AWA/PVC

60

NEUTRAL CABLE

39

P-2513/14

STEP-DOWN TRANSFORMER

TR-02

OUTDOOR

50

E1W

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

400V

1CX400mm2

____

1

XLPE/AWA/PVC

60

NEUTRAL CABLE

P-2504/1

500KVA DIESEL GENERATOR

G-8301

63

E1W

400V EMERGENCY SWITCHBOARD

SB100E2

MCC ROOM

63

E1W

400V

4CX240mm2

____

2

2 Cables in parallel per phase Cable buried - METS scope

40 41 42

P-2504/2

500KVA DIESEL GENERATOR

G-8301

43

P-2509/1

400V MAIN LV SWITCHBOARD

SB100E1

44

P-2509/2

400V MAIN LV SWITCHBOARD

NOTES:

SB100E1

GENERATOR HOUSE GENERATOR HOUSE MCC ROOM MCC ROOM

1

XLPE/SWA/PVC

60

63

E1W

400V EMERGENCY SWITCHBOARD

SB100E2

MCC ROOM

63

E1W

400V

4CX240mm

____

1

XLPE/SWA/PVC

60

63

E1W

400V EMERGENCY SWITCHBOARD

SB100E2

MCC ROOM

63

E1W

400V

4CX240mm2

____

1

XLPE/PVC

30

400V

2

____

1

XLPE/PVC

30

63

1. E1W - NON-HAZARDOUS AREA GLAND TYPE 2. E1FW - HAZARDOUS AREA GLAND TYPE

E1W

400V EMERGENCY SWITCHBOARD

SB100E2

MCC ROOM

63

E1W

4CX240mm

2 Cables in parallel per phase Switchroom internal cabling

CONTRACTOR: CLIENT PROJECT FACILITY CONTRACT NO.: DOCUMENT

DOMGAS PROJECT AGBADA NAG ELECTRICAL CABLE LIST

REV.: C01 CABLE S/N

45 46 47

TAG

FROM EQUIPMENT DESCRIPTION

POWER CABLES CONTINUES P-2515 400V MAIN LV SWITCHBOARD P-2516 400V MAIN LV SWITCHBOARD P-2517

400V MAIN LV SWITCHBOARD

GLAND EQUIPMENT

EQUIPMENT

TAG

LOCATION

SB100E1 SB100E1

MCC ROOM MCC ROOM

25 25

E1W E1W

SB100E1

MCC ROOM

25

E1W

SIZE

TYPE

TO

GLAND EQUIPMENT

EQUIPMENT

TAG

LOCATION

CLOSE DRAIN PUMP CLOSE DRAIN PUMP

P-5701A P-5701B

OUTDOOR OUTDOOR

25 25

E1FW E1FW

OPEN DRAIN PUMP

P-5702A

OUTDOOR

25

E1FW

EQUIPMENT DESCRIPTION

SIZE

SERVICE

TYPE VOLTAGE

PAGE 3 of 7 QUANTITY OF

NUMBER OF

CABLE

ESTIMATED

CONDUCTORS AND SIZE

CABLES

TYPE

CABLE LENGTH

POWER

CONTROL

400V 400V

3CX16mm2 3CX16mm2

____

400V

3CX16mm2 2

(m) 1 1

XLPE/SWA/PVC XLPE/SWA/PVC

140 140

____

1

XLPE/SWA/PVC

140

____

1

XLPE/SWA/PVC

140

____

48

P-2518

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

25

E1W

OPEN DRAIN PUMP

P-5702B

OUTDOOR

25

E1FW

400V

3CX16mm

49

P-2519A

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

25

E1W

TRAIN 1 INLET COOLER MOTOR

EM-3110A

OUTDOOR

25

E1FW

400V

3CX25mm2

____

1

XLPE/SWA/PVC

290

50

P-2519B

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

25

E1W

TRAIN 1 INLET COOLER MOTOR

EM-3110B

OUTDOOR

25

E1FW

400V

3CX25mm2

____

1

XLPE/SWA/PVC

290

51 52 53 54

P-2519C P-2520A P-2520B P-2520C

400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD

SB100E1 SB100E1 SB100E1 SB100E1

MCC ROOM MCC ROOM MCC ROOM MCC ROOM

25 25 25 25

E1W E1W E1W E1W

TRAIN 1 INLET COOLER MOTOR TRAIN 2 INLET COOLER MOTOR TRAIN 2 INLET COOLER MOTOR TRAIN 2 INLET COOLER MOTOR

EM-3110C EM-3120A EM-3120B EM-3120C

OUTDOOR OUTDOOR OUTDOOR OUTDOOR

25 25 25 25

E1FW E1FW E1FW E1FW

400V 400V 400V 400V

3CX25mm2 3CX25mm2 3CX25mm2 3CX25mm2

____

1 1 1 1

XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC

290 290 290 290

400V

3CX95mm

2

____

1

XLPE/SWA/PVC

280

2

____

1

XLPE/SWA/PVC

280

55

P-2521

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

40

E1W

TRAIN 1 CONDENSATE EXPORT PUMP

PM-3110A

OUTDOOR

40

E1FW

____ ____ ____

56

P-2522

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

40

E1W

TRAIN 1 CONDENSATE EXPORT PUMP

PM-3110B

OUTDOOR

40

E1FW

400V

3CX95mm

57

P-2523

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

40

E1W

TRAIN 2 CONDENSATE EXPORT PUMP

PM-3120A

OUTDOOR

40

E1FW

400V

3CX95mm2

____

1

XLPE/SWA/PVC

280

58

P-2524

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

40

E1W

TRAIN 2 CONDENSATE EXPORT PUMP

PM-3120B

OUTDOOR

40

E1FW

400V

3CX95mm2

____

1

XLPE/SWA/PVC

280

59 60 61

P-2525 P-2526 P-2527

400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD

SB100E1 SB100E1 SB100E1

MCC ROOM MCC ROOM MCC ROOM

25 25 20

E1W E1W E1W

SCREW COMPR RECYCLE GAS COOLER SCREW COMPR LUBE OIL PUMP TRAIN 1 HEAT TRIM COOLER MOTOR

EM-1100 PM-1101 EM-6110

OUTDOOR OUTDOOR OUTDOOR

25 25 20

E1FW E1FW E1FW

400V 400V 400V

3CX35mm2 3CX16mm2 3CX4mm2

____

1 1 1

XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC

240 240 240

62

P-2528

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 2 HEAT TRIM COOLER MOTOR

EM-6120

OUTDOOR

20

E1FW

400V

3CX4mm

2

____ ____ ____

1

XLPE/SWA/PVC

235

2

____

1

XLPE/SWA/PVC

245

1 1

XLPE/SWA/PVC XLPE/SWA/PVC

245 245

63

P-2529

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 1 GLYCOL INJECTION PUMP

EM-2610A

OUTDOOR

20

E1FW

400V

3CX10mm

64 65

P-2530 P-2531

400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD

SB100E1 SB100E1

MCC ROOM MCC ROOM

20 20

E1W E1W

TRAIN 1 GLYCOL INJECTION PUMP TRAIN 2 GLYCOL INJECTION PUMP

EM-2610B EM-2620A

OUTDOOR OUTDOOR

20 20

E1FW E1FW

400V 400V

3CX10mm2 3CX10mm2

____

66

P-2532

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 2 GLYCOL INJECTION PUMP

EM-2620B

OUTDOOR

20

E1FW

400V

3CX10mm2

____ ____

1

XLPE/SWA/PVC

245

2

____

1

XLPE/SWA/PVC

245

67

P-2533

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 1 GLYCOL VAPOUR CONDENSER

EM-2613

OUTDOOR

20

E1FW

400V

3CX6mm

68

P-2534

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 2 GLYCOL VAPOUR CONDENSER

EM-2623

OUTDOOR

20

E1FW

400V

3CX6mm2

____

1

XLPE/SWA/PVC

245

69

P-2535

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 1 CONDENSED WATER PUMP

EM-2611A

OUTDOOR

20

E1FW

400V

3CX2.5mm2

____

1

XLPE/SWA/PVC

245

70

P-2536

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 1 CONDENSED WATER PUMP

EM-2611B

OUTDOOR

20

E1FW

400V

3CX2.5mm2

____

1

XLPE/SWA/PVC

245

71

P-2537

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 2 CONDENSED WATER PUMP

EM-2621A

OUTDOOR

20

E1FW

400V

3CX2.5mm2

____

1

XLPE/SWA/PVC

245

72

P-2538

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 2 CONDENSED WATER PUMP

EM-2621B

OUTDOOR

20

E1FW

400V

3CX2.5mm2

____

1

XLPE/SWA/PVC

245

73

P-2539

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

40

E1W

TRAIN 1 HEAT MEDIUM PUMP

EM-6110A

OUTDOOR

40

E1FW

400V

3CX95mm2

____

1

XLPE/SWA/PVC

255

74

P-2540

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

40

E1W

TRAIN 1 HEAT MEDIUM PUMP

EM-6110B

OUTDOOR

40

E1FW

400V

3CX95mm2

____

1

XLPE/SWA/PVC

255

75

P-2541

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

40

E1W

TRAIN 2 HEAT MEDIUM PUMP

EM-6120A

OUTDOOR

40

E1FW

400V

3CX95mm2

____

1

XLPE/SWA/PVC

260

76

P-2542

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

40

E1W

TRAIN 2 HEAT MEDIUM PUMP

EM-6120B

OUTDOOR

40

E1FW

400V

3CX95mm2

____

1

XLPE/SWA/PVC

260

77

P-2543

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 1 COMPR LUBE OIL CIRC PUMP

P-2010

OUTDOOR

20

E1FW

400V

3CX10mm2

____

1

XLPE/SWA/PVC

250

78

P-2544

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 2 COMPR LUBE OIL CIRC PUMP

P-2020

OUTDOOR

20

E1FW

400V

3CX10mm2

____

1

XLPE/SWA/PVC

255

79 80 81 82 83 84 85 86

P-2545 P-2546 P-2547 P-2548 P-2549 P-2550 P-2551 P-2552

400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD

SB100E1 SB100E1 SB100E1 SB100E1 SB100E1 SB100E1 SB100E1 SB100E1

MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM

40 40 40 40 20 20 20 20

E1W E1W E1W E1W E1W E1W E1W E1W

TRAIN 1 REFRIGERANT CONDENSER TRAIN 1 REFRIGERANT CONDENSER TRAIN 2 REFRIGERANT CONDENSER TRAIN 2 REFRIGERANT CONDENSER HP K.O VESSEL PUMP HP K.O VESSEL PUMP LP K.O VESSEL PUMP LP K.O VESSEL PUMP

EM-2014A EM-2014B EM-2024A EM-2024B P-4300A P-4300B P-4301A P-4301B

OUTDOOR OUTDOOR OUTDOOR OUTDOOR OUTDOOR OUTDOOR OUTDOOR OUTDOOR

40 40 40 40 20 20 20 20

E1FW E1FW E1FW E1FW E1FW E1FW E1FW E1FW

400V 400V 400V 400V 400V 400V 400V 400V

3CX70mm2 3CX70mm2 3CX70mm2 3CX70mm2 3CX2.5mm2 3CX2.5mm2 3CX2.5mm2 3CX2.5mm2

____

1 1 1 1 1 1 1 1

XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC

250 250 255 255 275 275 275 275

NOTES:

1. E1W - NON-HAZARDOUS AREA GLAND TYPE 2. E1FW - HAZARDOUS AREA GLAND TYPE

____ ____ ____ ____ ____ ____ ____

CONTRACTOR: CLIENT PROJECT FACILITY CONTRACT NO.: DOCUMENT

DOMGAS PROJECT AGBADA NAG ELECTRICAL CABLE LIST

REV.:C01 CABLE S/N

87 88

TAG

FROM EQUIPMENT DESCRIPTION

POWER CABLES CONTINUES P-2555 400V MAIN LV SWITCHBOARD

GLAND EQUIPMENT

EQUIPMENT

TAG

LOCATION

SB100E1

MCC ROOM

50

E1W

SIZE TYPE

TO

GLAND

SERVICE

PAGE 4 of 7 QUANTITY OF

NUMBER OF

CABLE

ESTIMATED

CONDUCTORS AND SIZE

CABLES

TYPE

CABLE LENGTH

REMARK

EQUIPMENT

EQUIPMENT

TAG

LOCATION

WELDING SOCKET

WO-1

OUTDOOR

50

E1FW

400V

5CX70mm

2

1

XLPE/SWA/PVC

120

Cable buried - METS scope

EQUIPMENT DESCRIPTION

SIZE TYPE VOLTAGE

POWER

CONTROL

(m)

P-2556

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

WELDING SOCKET

WO-2

OUTDOOR

50

E1FW

400V

5CX70mm

2

1

XLPE/SWA/PVC

150

Cable buried - METS scope

89

P-2557

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

25

E1W

OUTDOOR LIGHTING DB

DB-1

MCC ROOM

25

E1W

400V

4CX10mm2

1

XLPE/SWA/PVC

30

Switchroom internal cabling

90

P-2558

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

25

E1W

CONTROL BLDG LIGHT/POWER DB

DB-7

FAR ROOM

25

E1W

400V

4CX10mm

2

1

XLPE/SWA/PVC

30

FAR room internal cabling - METS scope

91

P-2559

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

25

E1W

ELECTRICAL BLDG LIGHT/POWER DB

DB-4

MCC ROOM

25

E1W

400V

4CX16mm2

1

XLPE/SWA/PVC

30

Switchroom internal cabling - METS scope

92

P-2560

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

32

E1W

UPS (AC) 1

UP-225A

MCC ROOM

32

E1W

400V

4CX50mm2

1

XLPE/SWA/PVC

50

Switchroom internal cabling

93

P-2561

LV EMERGENCY SWITCHBOARD

SB100E2

MCC ROOM

32

E1W

UPS (AC) 2

UP-225B

MCC ROOM

32

E1W

400V

4CX50mm2

1

XLPE/SWA/PVC

50

Switchroom internal cabling

94

P-2562

LV EMERGENCY SWITCHBOARD

SB100E2

MCC ROOM

25

E1W

UPS (AC) BYPASS

UP-225

MCC ROOM

25

E1W

400V

4CX35mm2

1

XLPE/SWA/PVC

50

Switchroom internal cabling

95

P-2563

LV EMERGENCY SWITCHBOARD

SB100E2

MCC ROOM

25

E1W

ANTI-CONDENSATION HEATER DB

DB-2

MCC ROOM

25

E1W

400V

4CX10mm2

1

XLPE/SWA/PVC

30

Switchroom internal cabling

96

P-2564

LV EMERGENCY SWITCHBOARD

SB100E2

MCC ROOM

25

E1W

ANTI-CONDENSATION HEATER DB

DB-5

MCC ROOM

25

E1W

400V

4CX10mm2

1

XLPE/SWA/PVC

30

Switchroom internal cabling

97

P-2565

LV EMERGENCY SWITCHBOARD

SB100E2

MCC ROOM

25

E1W

POWER PLANT AUXILIARY DB

DB-3

MCC ROOM

25

E1W

400V

4CX10mm2

1

XLPE/SWA/PVC

30

Switchroom internal cabling

99

P-2570

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

25

E1W

CONTROL BLDG HVAC

HVAC 1A

MCC ROOM

25

E1W

400V

4CX35mm2

1

XLPE/SWA/PVC

50

Cable buried - METS scope

100 101 102 103 104 105 106 107 108 109 110 111 112 113

P-2571 P-2572 P-2573 P-2574 P-2575 P-2578 P-2579 P-2580 P-2581 P-2582 P-2583 P-2590 P-2591 P-2592

LV EMERGENCY SWITCHBOARD 400V MAIN LV SWITCHBOARD LV EMERGENCY SWITCHBOARD 400V MAIN LV SWITCHBOARD LV EMERGENCY SWITCHBOARD 400V MAIN LV SWITCHBOARD LV EMERGENCY SWITCHBOARD 400V MAIN LV SWITCHBOARD LV EMERGENCY SWITCHBOARD 400V MAIN LV SWITCHBOARD LV EMERGENCY SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD

SB100E2 SB100E1 SB100E2 SB100E1 SB100E2 SB100E1 SB100E2 SB100E1 SB100E2 SB100E1 SB100E2 SB100E1 SB100E1 SB100E1

MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM

25 25 25 32 20 32 32 20 20 25 25 20 20 20

E1W CONTROL BLDG HVAC E1W ELECTRICAL BLDG HVAC E1W ELECTRICAL BLDG HVAC E1W CATHODIC PROTECTION E1W DIESEL LOADING PUMP E1W INSTRUMENT AIR COMPRESSOR E1W INSTRUMENT AIR COMPRESSOR E1W INSTRUMENT AIR COMPR AFTERCOOLER E1W INSTRUMENT AIR COMPR AFTERCOOLER E1W WELL WATER PUMP E1W WELL WATER PUMP E1W TRAIN 1 MOTOR OPERATED VALVE E1W TRAIN 2 MOTOR OPERATED VALVE E1W FLOW CONTROL MOV

HVAC 1B HVAC 2A HVAC 2B CP-1750 P-6201 A-4610 A-4620 EM-4610 EM-4620 P-5901A P-5901B 28-MOV-480 28-MOV-482 28-MOV-582

MCC ROOM MCC ROOM MCC ROOM OUTDOOR OUTDOOR GENERATOR HOUSE GENERATOR HOUSE GENERATOR HOUSE GENERATOR HOUSE OUTDOOR OUTDOOR OUTDOOR OUTDOOR OUTDOOR

25 25 25 32 20 32 32 20 20 25 25 20 20 20

E1W E1W E1W E1FW E1FW E1W E1W E1W E1W E1FW E1FW E1FW E1FW E1FW

400V 400V 400V 400V 400V 400V 400V 400V 400V 400V 400V 400V 400V 400V

4CX35mm2 4CX35mm2 4CX35mm2 4CX25mm2 3CX6mm2 3CX50mm2 3CX50mm2 2 3CX2.5mm 3CX2.5mm2 3CX25mm2 3CX25mm2 3CX2.5mm2 3CX2.5mm2 3CX2.5mm2

1 1 1 1 1 1 1 1 1 1 1 1 1 1

XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC

50 50 50 150 100 60 60 60 60 120 120 150 150 150

Cable buried - METS scope Cable buried - METS scope Cable buried - METS scope Cable buried - METS scope Cable buried - METS scope Cable buried - METS scope Cable buried - METS scope Cable buried - METS scope Cable buried - METS scope Cable buried - METS scope Cable buried - METS scope Cable buried - METS scope Cable buried - METS scope Cable buried - METS scope

114

P-2595

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

40

E1W

RECIP COMPR RECYCLE GAS COOLER

EM-2750

OUTDOOR

40

E1FW

400V

3CX70mm2

1

XLPE/SWA/PVC

240

Pipe rack tray cabling - Enerflex scope

115

P-2596

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

40

E1W

RECIP COMPR RECYCLE GAS COOLER

EM-2751

OUTDOOR

40

E1FW

400V

3CX70mm2

1

XLPE/SWA/PVC

240

Pipe rack tray cabling - Enerflex scope

116

P-2597

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 1 BURNER BLOWER

____

OUTDOOR

20

E1FW

400V

3CX10mm

2

1

XLPE/SWA/PVC

240

Pipe rack tray cabling - Enerflex scope

117

P-2598

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 2 BURNER BLOWER

____

OUTDOOR

20

E1FW

400V

3CX10mm2

1

XLPE/SWA/PVC

235

118

P-2599

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

32

E1W

WELDING SOCKET

WO-3

GENERATOR HOUSE

32

E1FW

400V

3CX50mm

2

1

XLPE/SWA/PVC

60

Cable buried - METS scope

119

P-2600

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

32

E1W

G-8201A, 225A DISTRIBUTION BOARD

____

GENERATOR HOUSE

32

E1FW

400V

4CX35mm2

1

XLPE/SWA/PVC

60

Cable buried - METS scope

GENERATOR HOUSE

32

E1FW

400V

4CX35mm2

1

XLPE/SWA/PVC

60

Cable buried - METS scope

98

Pipe rack tray cabling - Enerflex scope

120

P-2601

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

32

E1W

G-8201B, 225A DISTRIBUTION BOARD

____

121

P-2602

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

32

E1W

G-8201C, 225A DISTRIBUTION BOARD

____

GENERATOR HOUSE

32

E1FW

400V

4CX35mm2

1

XLPE/SWA/PVC

60

Cable buried - METS scope

122

P-2603

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

25

E1W

63A TELECOM GEARSWITCH

____

FAR ROOM

25

E1FW

400V

4CX25mm2

1

XLPE/SWA/PVC

50

Cable buried - METS scope

123

P-2604

LV EMERGENCY SWITCHBOARD

SB100E2

MCC ROOM

25

E1W

63A TELECOM GEARSWITCH

____

FAR ROOM

25

E1FW

400V

4CX25mm2

1

XLPE/SWA/PVC

50

Cable buried - METS scope

124

P-2605

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

50

E1W

AGBADA 2 BOOSTER COMPRESSOR

KM-1101

OUTDOOR

50

E1FW

400V

3CX185mm2

1

XLPE/SWA/PVC

200

Cable buried - METS scope

125

P-2606

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

25

E1W

AGBADA 2 BOOSTER COMPR. COOLER

EM-1101

OUTDOOR

25

E1FW

400V

3CX10mm2

1

XLPE/SWA/PVC

200

Cable buried - METS scope

126

P-2607

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

AGBADA 2 BOOSTER COMPR GLYCOL

PM-1102

OUTDOOR

20

E1FW

400V

3CX4mm2

1

XLPE/SWA/PVC

200

Cable buried - METS scope

NOTES:

1. E1W - NON-HAZARDOUS AREA GLAND TYPE 2. E1FW - HAZARDOUS AREA GLAND TYPE

CONTRACTOR: CLIENT PROJECT FACILITY CONTRACT NO.: DOCUMENT

DOMGAS PROJECT AGBADA NAG ELECTRICAL CABLE LIST

REV.: C01 CABLE S/N

127 128

TAG CONTROL CABLES C-3500

FROM EQUIPMENT DESCRIPTION

400V MAIN LV SWITCHBOARD

GLAND EQUIPMENT

EQUIPMENT

TAG

LOCATION

SB100E1

MCC ROOM

SIZE TYPE

20

E1W

TO EQUIPMENT DESCRIPTION

CLOSE DRAIN PUMP

GLAND

SERVICE

PAGE 5 of 7 QUANTITY OF

NUMBER OF

CABLE

ESTIMATED

CONDUCTORS AND SIZE

CABLES

TYPE

CABLE LENGTH

REMARK

EQUIPMENT

EQUIPMENT

TAG

LOCATION

POWER

CONTROL

OUTDOOR

____

7CX2.5mm2

1

XLPE/SWA/PVC

140

Cable buried - METS scope

2

P-5701A

SIZE TYPE VOLTAGE

20

E1FW

230V

____

(m)

C-3501

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

CLOSE DRAIN PUMP

P-5701B

OUTDOOR

20

E1FW

230V

7CX2.5mm

1

XLPE/SWA/PVC

140

Cable buried - METS scope

129

C-3502

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

OPEN DRAIN PUMP

P-5702A

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

140

Cable buried - METS scope

130

C-3503

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

OPEN DRAIN PUMP

P-5702B

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

140

Cable buried - METS scope

131

C-3504A

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 1 INLET COOLER MOTOR

EM-3110A

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

290

Pipe rack tray cabling - Enerflex scope

132

C-3504B

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 1 INLET COOLER MOTOR

EM-3110B

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

290

Pipe rack tray cabling - Enerflex scope

133

C-3504C

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 1 INLET COOLER MOTOR

EM-3110C

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

290

Pipe rack tray cabling - Enerflex scope

134

C-3505A

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 2 INLET COOLER MOTOR

EM-3120A

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

290

Pipe rack tray cabling - Enerflex scope

135

C-3505B

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 2 INLET COOLER MOTOR

EM-3120B

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

290

Pipe rack tray cabling - Enerflex scope

136

C-3505C

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 2 INLET COOLER MOTOR

EM-3120C

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

290

Pipe rack tray cabling - Enerflex scope

137

400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD

SB100E1 SB100E1

MCC ROOM MCC ROOM

20 20

E1W E1W

TRAIN 1 CONDENSATE EXPORT PUMP TRAIN 1 CONDENSATE EXPORT PUMP

PM-3110A PM-3110B

OUTDOOR OUTDOOR

20 20

E1FW E1FW

230V 230V

____

138

C-3506 C-3507

7CX2.5mm2 7CX2.5mm2

1 1

XLPE/SWA/PVC XLPE/SWA/PVC

280 280

Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope

139

C-3508

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 2 CONDENSATE EXPORT PUMP

PM-3120A

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

280

Pipe rack tray cabling - Enerflex scope

140

C-3509

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 2 CONDENSATE EXPORT PUMP

PM-3120B

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

280

Pipe rack tray cabling - Enerflex scope

141

C-3510

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

SCREW COMPR RECYCLE GAS COOLER

EM-1100

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

240

Pipe rack tray cabling - Enerflex scope

142

C-3511

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

SCREW COMPR LUBE OIL PUMP

PM-1101

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

240

Pipe rack tray cabling - Enerflex scope

143

C-3512

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 1 HEAT TRIM COOLER MOTOR

EM-6110

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

240

Pipe rack tray cabling - Enerflex scope

144

C-3513

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 2 HEAT TRIM COOLER MOTOR

EM-6120

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

235

Pipe rack tray cabling - Enerflex scope

145

C-3514

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 1 GLYCOL INJECTION PUMP

EM-2610A

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

245

Pipe rack tray cabling - Enerflex scope

146

400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD

SB100E1 SB100E1 SB100E1 SB100E1 SB100E1 SB100E1 SB100E1 SB100E1 SB100E1 SB100E1 SB100E1 SB100E1 SB100E1 SB100E1 SB100E1

MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM

20 20 20 20 20 20 20 20 20 20 20 20 20 20 20

E1W E1W E1W E1W E1W E1W E1W E1W E1W E1W E1W E1W E1W E1W E1W

TRAIN 1 GLYCOL INJECTION PUMP TRAIN 2 GLYCOL INJECTION PUMP TRAIN 2 GLYCOL INJECTION PUMP TRAIN 1 GLYCOL VAPOUR CONDENSER TRAIN 2 GLYCOL VAPOUR CONDENSER TRAIN 1 CONDENSED WATER PUMP TRAIN 1 CONDENSED WATER PUMP TRAIN 2 CONDENSED WATER PUMP TRAIN 2 CONDENSED WATER PUMP TRAIN 1 HEAT MEDIUM PUMP TRAIN 1 HEAT MEDIUM PUMP TRAIN 2 HEAT MEDIUM PUMP TRAIN 2 HEAT MEDIUM PUMP TRAIN 1 COMPR LUBE OIL CIRC PUMP TRAIN 2 COMPR LUBE OIL CIRC PUMP

EM-2610B EM-2620A EM-2620B EM-2613 EM-2623 EM-2611A EM-2611B EM-2621A EM-2621B EM-6110A EM-6110B EM-6120A EM-6120B P-2010 P-2020

OUTDOOR OUTDOOR OUTDOOR OUTDOOR OUTDOOR OUTDOOR OUTDOOR OUTDOOR OUTDOOR OUTDOOR OUTDOOR OUTDOOR OUTDOOR OUTDOOR OUTDOOR

20 20 20 20 20 20 20 20 20 20 20 20 20 20 20

E1FW E1FW E1FW E1FW E1FW E1FW E1FW E1FW E1FW E1FW E1FW E1FW E1FW E1FW E1FW

230V 230V 230V 230V 230V 230V 230V 230V 230V 230V 230V 230V 230V 230V 230V

____

147 148 149 150 151 152 153 154 155 156 157 158 159 160

C-3515 C-3516 C-3517 C-3518 C-3519 C-3520 C-3521 C-3522 C-3523 C-3524 C-3525 C-3526 C-3527 C-3528 C-3529

7CX2.5mm2 7CX2.5mm2 7CX2.5mm2 7CX2.5mm2 7CX2.5mm2 7CX2.5mm2 7CX2.5mm2 7CX2.5mm2 7CX2.5mm2 7CX2.5mm2 7CX2.5mm2 7CX2.5mm2 7CX2.5mm2 7CX2.5mm2 7CX2.5mm2

1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC

245 245 245 245 245 245 245 245 245 255 255 260 260 250 255

Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope

161

C-3530

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 1 REFRIGERANT CONDENSER

EM-2014A

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

250

Pipe rack tray cabling - Enerflex scope

7CX2.5mm2

1

XLPE/SWA/PVC

250

Pipe rack tray cabling - Enerflex scope

____

____ ____ ____ ____ ____ ____ ____ ____ ____ ____ ____ ____ ____ ____

162

C-3531

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 1 REFRIGERANT CONDENSER

EM-2014B

OUTDOOR

20

E1FW

230V

____

163

C-3532

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 2 REFRIGERANT CONDENSER

EM-2024A

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

255

Pipe rack tray cabling - Enerflex scope

164

C-3533

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 2 REFRIGERANT CONDENSER

EM-2024B

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

255

Pipe rack tray cabling - Enerflex scope

165

C-3534

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

HP K.O VESSEL PUMP

P-4300A

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

275

Pipe rack tray cabling - Enerflex scope

166

C-3535

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

HP K.O VESSEL PUMP

P-4300B

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

275

Pipe rack tray cabling - Enerflex scope

167

C-3536

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

LP K.O VESSEL PUMP

P-4301A

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

275

Pipe rack tray cabling - Enerflex scope

168

C-3537

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

LP K.O VESSEL PUMP

P-4301B

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

275

169

C-3538

LV EMERGENCY SWITCHBOARD

SB100E2

MCC ROOM

20

E1W

DIESEL LOADING PUMP

P-6201

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

100

Cable buried - METS scope

170

C-3541

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

INSTRUMENT AIR COMPRESSOR

A-4610

GENERATOR HOUSE

20

E1W

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

60

Cable buried - METS scope

171

C-3542

LV EMERGENCY SWITCHBOARD

SB100E2

MCC ROOM

20

E1W

INSTRUMENT AIR COMPRESSOR

A-4620

GENERATOR HOUSE

20

E1W

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

60

Cable buried - METS scope

172

C-3543

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W INSTRUMENT AIR COMPR AFTERCOOLER

EM-4610

GENERATOR HOUSE

20

E1W

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

60

Cable buried - METS scope

173

C-3544

LV EMERGENCY SWITCHBOARD

SB100E2

MCC ROOM

20

E1W INSTRUMENT AIR COMPR AFTERCOOLER

EM-4620

GENERATOR HOUSE

20

E1W

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

60

Cable buried - METS scope

174

C-3545

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

WELL WATER PUMP

P-5901A

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

120

Cable buried - METS scope

175

C-3546

LV EMERGENCY SWITCHBOARD

SB100E2

MCC ROOM

20

E1W

WELL WATER PUMP

P-5901B

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

120

Cable buried - METS scope

176

C-3547

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

RECIP COMPR RECYCLE GAS COOLER

EM-2750

OUTDOOR

20

E1FW

400V

____

7CX2.5mm2

1

XLPE/SWA/PVC

240

Pipe rack tray cabling - Enerflex scope

177

C-3548

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

RECIP COMPR RECYCLE GAS COOLER

EM-2751

OUTDOOR

20

E1FW

400V

____

7CX2.5mm2

1

XLPE/SWA/PVC

240

Pipe rack tray cabling - Enerflex scope

178

C-3549

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 1 BURNER BLOWER

____

OUTDOOR

20

E1FW

400V

____

7CX2.5mm2

1

XLPE/SWA/PVC

240

Pipe rack tray cabling - Enerflex scope

179

C-3550

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 2 BURNER BLOWER

____

OUTDOOR

20

E1FW

400V

____

7CX2.5mm2

1

XLPE/SWA/PVC

235

Pipe rack tray cabling - Enerflex scope

180

C-3551

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

COMPRESSOR DRIVER MOTOR

KM-1100

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

220

Pipe rack tray cabling - Enerflex scope

181

C-3552

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 1 REFRIG COMPRESSOR MOTOR

KM-2010

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

230

Pipe rack tray cabling - Enerflex scope

182

C-3553

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

TRAIN 2 REFRIG COMPRESSOR MOTOR

KM-2020

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

235

183

C-3600

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

AGBADA 2 BOOSTER COMPRESSOR

KM-1101

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

200

Cable buried - METS scope

184

C-3601

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

AGBADA 2 BOOSTER COMPR. COOLER

EM-1101

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

200

Cable buried - METS scope

185

C-3602

400V MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

AGBADA 2 BOOSTER COMPR GLYCOL

PM-1102

OUTDOOR

20

E1FW

230V

____

7CX2.5mm2

1

XLPE/SWA/PVC

200

Cable buried - METS scope

Pipe rack tray cabling - Enerflex scope

Pipe rack tray cabling - Enerflex scope

CONTRACTOR: CLIENT PROJECT FACILITY CONTRACT NO.: DOCUMENT

DOMGAS PROJECT AGBADA NAG ELECTRICAL CABLE LIST

REV.: C01 CABLE S/N

186 187

TAG POWER CABLES P-2700 P-2701

FROM

GLAND EQUIPMENT

EQUIPMENT

TAG

LOCATION

OUTDOOR LIGHTING DB OUTDOOR LIGHTING DB

DB-1 DB-1

MCC ROOM MCC ROOM

25 25

E1W E1W

EQUIPMENT DESCRIPTION

SIZE TYPE

TO

GLAND

SERVICE

EQUIPMENT

EQUIPMENT

TAG

LOCATION

AREA FLOODLIGHTING AREA FLOODLIGHTING

FLD 1-3;6-10 FLD 11-20

OUTDOOR OUTDOOR

25 25

E1FW E1FW

230V 230V

EQUIPMENT DESCRIPTION

SIZE TYPE VOLTAGE

PAGE 6 of 7 QUANTITY OF

NUMBER OF

CABLE

ESTIMATED

CONDUCTORS AND SIZE

CABLES

TYPE

CABLE LENGTH

POWER

CONTROL

5CX10mm2 5CX10mm2

____ ____

REMARK

(m) 1 1

XLPE/SWA/PVC XLPE/SWA/PVC

250 380

Cable buried - METS scope Cable buried - METS scope

188

P-2702

OUTDOOR LIGHTING DB

DB-1

MCC ROOM

25

E1W

AREA FLOODLIGHTING

FLD 4-5;22-27

OUTDOOR

25

E1FW

230V

5CX10mm2

____

1

XLPE/SWA/PVC

300

Cable buried - METS scope

189

P-2703

OUTDOOR LIGHTING DB

DB-1

MCC ROOM

20

E1W

FAR BUILDING EXTERNAL LIGHTING

FL19-24

FAR BUILDING

20

EFW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

150

Cable buried - METS scope

190 191 192

P-2704

OUTDOOR LIGHTING DB

DB-1

MCC ROOM

20

E1W

MCC BUILDING EXTERNAL LIGHTING

FL33-40

MCC BUILDING

20

EFW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

100

Cable buried - METS scope

P-2800

ANTI-COND. HEATER DB

DB-2

MCC ROOM

20

E1W

MAIN LV SWITCHBOARD

SB100E1

MCC ROOM

20

E1W

230V

2

3CX4mm

____

1

XLPE/SWA/PVC

30

Switchroom internal cabling

193

P-2801

ANTI-COND. HEATER DB

DB-2

MCC ROOM

20

E1W

EMERGENCY SWITCHBOARD

SB100E2

MCC ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/SWA/PVC

30

Switchroom internal cabling

194

P-2802

ANTI-COND. HEATER DB

DB-2

MCC ROOM

20

E1W

DIESEL GENERATOR

G-8301

GEN. BUILDING

20

E1W

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

60

Cable buried - METS scope

1

XLPE/SWA/PVC

60

Cable buried - METS scope

195

P-2803

ANTI-COND. HEATER DB

DB-2

MCC ROOM

20

E1W

GAS GENERATOR

G-8201A

GEN. BUILDING

20

E1W

230V

3CX2.5mm2

____

196

P-2804

ANTI-COND. HEATER DB

DB-2

MCC ROOM

20

E1W

GAS GENERATOR

G-8201B

GEN. BUILDING

20

E1W

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

60

Cable buried - METS scope

197

P-2805

ANTI-COND. HEATER DB

DB-2

MCC ROOM

20

E1W

GAS GENERATOR

G-8201C

GEN. BUILDING

20

E1W

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

60

Cable buried - METS scope

198

P-2806A

ANTI-COND. HEATER DB

DB-2

MCC ROOM

20

E1W

TRAIN 1 INLET COOLER MOTOR

EM-3110A

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

290

Pipe rack tray cabling - Enerflex scope

199

P-2806B

ANTI-COND. HEATER DB

DB-2

MCC ROOM

20

E1W

TRAIN 1 INLET COOLER MOTOR

EM-3110B

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

290

Pipe rack tray cabling - Enerflex scope

200

P-2806C

ANTI-COND. HEATER DB

DB-2

MCC ROOM

20

E1W

TRAIN 1 INLET COOLER MOTOR

EM-3110C

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

290

Pipe rack tray cabling - Enerflex scope

201

P-2807A

ANTI-COND. HEATER DB

DB-2

MCC ROOM

20

E1W

TRAIN 2 INLET COOLER MOTOR

EM-3120A

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

290

Pipe rack tray cabling - Enerflex scope

202

P-2807B

ANTI-COND. HEATER DB

DB-2

MCC ROOM

20

E1W

TRAIN 2 INLET COOLER MOTOR

EM-3120B

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

290

Pipe rack tray cabling - Enerflex scope

203

P-2807C

ANTI-COND. HEATER DB

DB-2

MCC ROOM

20

E1W

TRAIN 2 INLET COOLER MOTOR

EM-3120C

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

290

Pipe rack tray cabling - Enerflex scope

204

P-2808

ANTI-COND. HEATER DB

DB-2

MCC ROOM

20

E1W

TRAIN 1 CONDENSATE EXPORT PUMP

PM-3110A

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

280

Pipe rack tray cabling - Enerflex scope

205

P-2809

ANTI-COND. HEATER DB

DB-2

MCC ROOM

20

E1W

TRAIN 1 CONDENSATE EXPORT PUMP

PM-3110B

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

280

Pipe rack tray cabling - Enerflex scope

1

XLPE/SWA/PVC

280

Pipe rack tray cabling - Enerflex scope

206

P-2810

ANTI-COND. HEATER DB

DB-2

MCC ROOM

20

E1W

TRAIN 2 CONDENSATE EXPORT PUMP

PM-3120A

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

207

P-2811

ANTI-COND. HEATER DB

DB-2

MCC ROOM

20

E1W

TRAIN 2 CONDENSATE EXPORT PUMP

PM-3120B

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

280

Pipe rack tray cabling - Enerflex scope

208

P-2812

ANTI-COND. HEATER DB

DB-2

MCC ROOM

20

E1W

SCREW COMPR RECYCLE GAS COOLER

EM-1100

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

240

Pipe rack tray cabling - Enerflex scope

209

P-2813

ANTI-COND. HEATER DB

DB-2

MCC ROOM

20

E1W

COMPRESSOR DRIVER MOTOR

KM-1100

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

220

Pipe rack tray cabling - Enerflex scope

210

P-2814

ANTI-COND. HEATER DB

DB-2

MCC ROOM

20

E1W

SCREW COMPR LUBE OIL PUMP

EM-6110

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

240

211

P-2815

ANTI-COND. HEATER DB

DB-2

MCC ROOM

20

E1W

CLOSE DRAIN PUMP

P-5701A

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

140

Cable buried - METS scope

212

P-2816

ANTI-COND. HEATER DB

DB-2

MCC ROOM

20

E1W

CLOSE DRAIN PUMP

P-5701B

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

140

Cable buried - METS scope

213

P-2817 P-2818 P-2819 P-2820 P-2821 P-2822 P-2823 P-2824 P-2825 P-2826

ANTI-COND. HEATER DB ANTI-COND. HEATER DB ANTI-COND. HEATER DB ANTI-COND. HEATER DB ANTI-COND. HEATER DB ANTI-COND. HEATER DB ANTI-COND. HEATER DB ANTI-COND. HEATER DB ANTI-COND. HEATER DB ANTI-COND. HEATER DB

DB-2 DB-2 DB-2 DB-2 DB-2 DB-2 DB-2 DB-2 DB-2 DB-2

MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM MCC ROOM

20 20 20 20 20 20 20 20 20 20

E1W E1W E1W E1W E1W E1W E1W E1W E1W E1W

OPEN DRAIN PUMP OPEN DRAIN PUMP TRAIN 1 HEAT TRIM COOLER MOTOR TRAIN 2 HEAT TRIM COOLER MOTOR TRAIN 1 GLYCOL INJECTION PUMP TRAIN 1 GLYCOL INJECTION PUMP TRAIN 2 GLYCOL INJECTION PUMP TRAIN 2 GLYCOL INJECTION PUMP TRAIN 1 GLYCOL VAPOUR CONDENSER TRAIN 2 GLYCOL VAPOUR CONDENSER

P-5702A P-5702B EM-6110 EM-6120 EM-2610A EM-2610B EM-2620A EM-2620B EM-2613 EM-2623

OUTDOOR OUTDOOR OUTDOOR OUTDOOR OUTDOOR OUTDOOR OUTDOOR OUTDOOR OUTDOOR OUTDOOR

20 20 20 20 20 20 20 20 20 20

E1FW E1FW E1FW E1FW E1FW E1FW E1FW E1FW E1FW E1FW

230V 230V 230V 230V 230V 230V 230V 230V 230V 230V

3CX2.5mm2 3CX2.5mm2 3CX2.5mm2 3CX2.5mm2 3CX2.5mm2 3CX2.5mm2 3CX2.5mm2 3CX2.5mm2 3CX2.5mm2 3CX2.5mm2

____

1 1 1 1 1 1 1 1 1 1

XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC

140 140 240 235 245 245 245 245 245 245

Cable buried - METS scope Cable buried - METS scope Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope

P-2836 P-2837 P-2838 P-2839

ANTI-COND. HEATER DB ANTI-COND. HEATER DB ANTI-COND. HEATER DB ANTI-COND. HEATER DB

DB-5 DB-5 DB-5 DB-5

MCC ROOM MCC ROOM MCC ROOM MCC ROOM

20 20 20 20

E1W E1W E1W E1W

TRAIN 1 CONDENSED WATER PUMP TRAIN 1 CONDENSED WATER PUMP TRAIN 2 CONDENSED WATER PUMP TRAIN 2 CONDENSED WATER PUMP

EM-2611A EM-2611B EM-2621A EM-2621B

OUTDOOR OUTDOOR OUTDOOR OUTDOOR

20 20 20 20

E1FW E1FW E1FW E1FW

230V 230V 230V 230V

3CX2.5mm2 3CX2.5mm2 3CX2.5mm2 3CX2.5mm2

____

1 1 1 1

XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC XLPE/SWA/PVC

245 245 245 245

Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope Pipe rack tray cabling - Enerflex scope

P-2840

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W

TRAIN 1 HEAT MEDIUM PUMP

EM-6110A

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

2

214 215 216 217 218 219 220 221 222 223 224 225 226 227 228

____ ____ ____ ____ ____ ____ ____ ____ ____

____ ____ ____

Pipe rack tray cabling - Enerflex scope

1

XLPE/SWA/PVC

255

Pipe rack tray cabling - Enerflex scope

229

P-2841

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W

TRAIN 1 HEAT MEDIUM PUMP

EM-6110B

OUTDOOR

20

E1FW

230V

3CX2.5mm

____

1

XLPE/SWA/PVC

255

Pipe rack tray cabling - Enerflex scope

230

P-2842

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W

TRAIN 2 HEAT MEDIUM PUMP

EM-6120A

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

260

Pipe rack tray cabling - Enerflex scope

1

XLPE/SWA/PVC

260

Pipe rack tray cabling - Enerflex scope

231

P-2843

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W

TRAIN 2 HEAT MEDIUM PUMP

EM-6120B

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

232

P-2844

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W

TRAIN 1 REFRIG COMPRESSOR MOTOR

KM-2010

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

230

Pipe rack tray cabling - Enerflex scope

233

P-2845

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W

TRAIN 2 REFRIG COMPRESSOR MOTOR

KM-2020

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

235

Pipe rack tray cabling - Enerflex scope

234

P-2846

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W

TRAIN 1 COMPR LUBE OIL CIRC PUMP

P-2010

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

250

Pipe rack tray cabling - Enerflex scope

235

P-2847

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W

TRAIN 2 COMPR LUBE OIL CIRC PUMP

P-2020

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

255

Pipe rack tray cabling - Enerflex scope

236

P-2848

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W

TRAIN 1 REFRIGERANT CONDENSER

EM-2014A

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

250

Pipe rack tray cabling - Enerflex scope

237

P-2849

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W

TRAIN 1 REFRIGERANT CONDENSER

EM-2014B

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

250

Pipe rack tray cabling - Enerflex scope

1

XLPE/SWA/PVC

255

Pipe rack tray cabling - Enerflex scope

238

P-2850

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W

TRAIN 2 REFRIGERANT CONDENSER

EM-2024A

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

239

P-2851

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W

TRAIN 2 REFRIGERANT CONDENSER

EM-2024B

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

255

Pipe rack tray cabling - Enerflex scope

240

P-2852

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W

HP K.O VESSEL PUMP

P-4300A

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

275

Pipe rack tray cabling - Enerflex scope

241

P-2853

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W

HP K.O VESSEL PUMP

P-4300B

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

275

Pipe rack tray cabling - Enerflex scope

242

P-2854

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W

LP K.O VESSEL PUMP

P-4301A

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

275

Pipe rack tray cabling - Enerflex scope

243

P-2855

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W

LP K.O VESSEL PUMP

P-4301B

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

275

244

P-2856

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W

DIESEL LOADING PUMP

P-6201

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

100

Cable buried - METS scope

Pipe rack tray cabling - Enerflex scope

245

P-2857

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W

INSTRUMENT AIR COMPRESSOR

A-4610

GENERATOR HOUSE

20

E1W

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

60

Cable buried - METS scope

246

P-2860

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W

INSTRUMENT AIR COMPRESSOR

A-4620

GENERATOR HOUSE

20

E1W

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

60

Cable buried - METS scope

247

P-2861

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W INSTRUMENT AIR COMPR AFTERCOOLER

EM-4610

GENERATOR HOUSE

20

E1W

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

60

Cable buried - METS scope

248

P-2862

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W INSTRUMENT AIR COMPR AFTERCOOLER

EM-4620

GENERATOR HOUSE

20

E1W

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

60

Cable buried - METS scope

249

P-2863

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W

WELL WATER PUMP

P-5901A

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

120

Cable buried - METS scope

250

P-2864

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W

WELL WATER PUMP

P-5901B

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

120

Cable buried - METS scope

251

P-2865

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W

HV SWITCHBOARD

SD100E1

MCC ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/SWA/PVC

30

Switchroom internal cabling

CONTRACTOR: CLIENT PROJECT FACILITY CONTRACT NO.: DOCUMENT

DOMGAS PROJECT AGBADA NAG ELECTRICAL CABLE LIST

REV.:C01 CABLE S/N

TAG POWER CABLES P-2866 P-2867

FROM EQUIPMENT DESCRIPTION

GLAND EQUIPMENT

EQUIPMENT

TAG

LOCATION

SIZE TYPE

TO EQUIPMENT DESCRIPTION

GLAND

SERVICE

PAGE 7 of 7 QUANTITY OF

NUMBER OF

CABLE

ESTIMATED

CONDUCTORS AND SIZE

CABLES

TYPE

CABLE LENGTH

EQUIPMENT

EQUIPMENT

TAG

LOCATION

POWER

CONTROL

SIZE TYPE VOLTAGE

ANTI-COND. HEATER DB ANTI-COND. HEATER DB

DB-5 DB-5

MCC ROOM MCC ROOM

20 20

E1W E1W

AGBADA 2 BOOSTER COMPRESSOR AGBADA 2 BOOSTER COMPR. COOLER

KM-1101 EM-1101

OUTDOOR OUTDOOR

20 20

E1FW E1FW

230V 230V

3CX2.5mm2 3CX2.5mm2

____

P-2868

ANTI-COND. HEATER DB

DB-5

MCC ROOM

20

E1W

AGBADA 2 BOOSTER COMPR GLYCOL

PM-1102

OUTDOOR

20

E1FW

230V

3CX2.5mm2

256

P-2720

ELECT BLDG LIGHTING DB

DB-4

MCC ROOM

20

E1W

15A SOCKET (LV SWITCHROOM)

____

MCC ROOM

20

E1W

230V

257

P-2721

ELECT BLDG LIGHTING DB

DB-4

MCC ROOM

20

E1W

13A SOCKET (LV SWITCHROOM)

____

MCC ROOM

20

E1W

230V

258

P-2722

ELECT BLDG LIGHTING DB

DB-4

MCC ROOM

20

E1W

INDOOR LIGHTING (LV SWITCHROOM)

____

MCC ROOM

20

E1W

259

P-2723

ELECT BLDG LIGHTING DB

DB-4

MCC ROOM

20

E1W

15A SOCKET (LV SWITCHROOM)

____

MCC ROOM

20

260

P-2724

ELECT BLDG LIGHTING DB

DB-4

MCC ROOM

20

E1W

INDOOR LIGHTING (LV SWITCHROOM)

____

MCC ROOM

261

P-2725

ELECT BLDG LIGHTING DB

DB-4

MCC ROOM

20

E1W

15A SOCKET (SUPERVISOR ROOM)

____

262

P-2726

ELECT BLDG LIGHTING DB

DB-4

MCC ROOM

20

E1W

13A SOCKET (SUPERVISOR ROOM)

263

P-2727

ELECT BLDG LIGHTING DB

DB-4

MCC ROOM

20

E1W

264

P-2728

ELECT BLDG LIGHTING DB

DB-4

MCC ROOM

20

265

P-2729

ELECT BLDG LIGHTING DB

DB-4

MCC ROOM

266

P-2730

ELECT BLDG LIGHTING DB

DB-4

267

P-2731

ELECT BLDG LIGHTING DB

268

P-2732

269

REMARK

(m) 1 1

XLPE/SWA/PVC XLPE/SWA/PVC

200 200

Cable buried - METS scope Cable buried - METS scope

____

1

XLPE/SWA/PVC

200

Cable buried - METS scope

3CX4mm2

____

1

XLPE/PVC

30

MCC Building Internal Cabling

3CX4mm2

____

1

XLPE/PVC

30

MCC Building Internal Cabling

230V

3CX2.5mm2

____

1

XLPE/PVC

100

MCC Building Internal Cabling

E1W

230V

3CX4mm2

____

1

XLPE/PVC

30

MCC Building Internal Cabling

20

E1W

230V

3CX2.5mm2

____

1

XLPE/PVC

100

MCC Building Internal Cabling

MCC ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

30

MCC Building Internal Cabling

____

MCC ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

30

MCC Building Internal Cabling

15A SOCKET (HV SWITCHROOM)

____

MCC ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

40

MCC Building Internal Cabling

E1W

INDOOR LIGHTING (HV SWITCHROOM)

____

MCC ROOM

20

E1W

230V

3CX2.5mm2

____

1

XLPE/PVC

100

MCC Building Internal Cabling

20

E1W

15A SOCKET (HV SWITCHROOM)

____

MCC ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

40

MCC Building Internal Cabling

MCC ROOM

20

E1W

13A SOCKET (HV SWITCHROOM)

____

MCC ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

40

MCC Building Internal Cabling

DB-4

MCC ROOM

20

E1W

INDOOR LIGHTING (HV SWITCHROOM)

____

MCC ROOM

20

E1W

230V

3CX2.5mm2

____

1

XLPE/PVC

100

MCC Building Internal Cabling

ELECT BLDG LIGHTING DB

DB-4

MCC ROOM

20

E1W

15A SOCKET (BATTERY ROOM)

____

BATTERY ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

40

MCC Building Internal Cabling

P-2733

ELECT BLDG LIGHTING DB

DB-4

MCC ROOM

20

E1W

INDOOR LIGHTING (BATTERY ROOM)

____

BATTERY ROOM

20

E1W

230V

3CX2.5mm2

____

1

XLPE/PVC

100

MCC Building Internal Cabling

270

P-2734

ELECT BLDG LIGHTING DB

DB-4

MCC ROOM

20

E1W

GENERATOR SHED LIGHTING JB

EJB-1

GENERATOR HOUSE

20

E1W

230V

3CX4mm2

____

1

XLPE/SWA/PVC

60

Cable buried - METS scope

271

P-2735

ELECT BLDG LIGHTING DB

DB-4

MCC ROOM

20

E1W

EXTRACTOR FANS (BATTERY ROOM)

____

BATTERY ROOM

20

E1W

230V

3CX2.5mm2

____

1

XLPE/PVC

60

MCC Building Internal Cabling

272

P-2736

ELECT BLDG LIGHTING DB

DB-4

MCC ROOM

20

E1W INDOOR LIGHTING (SUPERVISOR ROOM)

____

MCC ROOM

20

E1W

230V

3CX2.5mm2

____

1

XLPE/PVC

100

MCC Building Internal Cabling

273

P-2737

ELECT BLDG LIGHTING DB

DB-4

MCC ROOM

20

E1W

GENERATOR SHED LIGHTING JB

EJB-2

GENERATOR HOUSE

20

E1W

230V

3CX4mm2

____

1

XLPE/SWA/PVC

60

Cable buried - METS scope

274

P-2738

ELECT BLDG LIGHTING DB

DB-4

MCC ROOM

20

E1W

COMPRESSOR SHEDS LIGHTING JB

EJB-3

COMPRESSOR SHED

20

E1W

230V

3CX4mm2

____

1

XLPE/SWA/PVC

180

Cable buried - METS scope

275

P-2739

ELECT BLDG LIGHTING DB

DB-4

MCC ROOM

20

E1W

COMPRESSOR SHEDS LIGHTING JB

EJB-4

COMPRESSOR SHED

20

E1W

230V

3CX4mm2

____

1

XLPE/SWA/PVC

180

Cable buried - METS scope

276

P-2741

ELECT BLDG LIGHTING DB

DB-4

MCC ROOM

20

E1W

COMPRESSOR SHEDS LIGHTING JB

EJB-4A

COMPRESSOR SHED

20

E1W

230V

3CX4mm2

____

1

XLPE/SWA/PVC

180

Cable buried - METS scope

277

P-2742

ELECT BLDG LIGHTING DB

DB-4

MCC ROOM

20

E1W

CHEMICAL SHED LIGHTING JB

EJB-5

CHEMICAL SHED

20

E1W

230V

3CX4mm2

____

1

XLPE/SWA/PVC

100

Cable buried - METS scope

P-2749

AC UPS BYPASS

____

MCC ROOM

25

E1W

UPS DISTRIBUTION BOARD

DB-8

FAR ROOM

25

E1W

400V

4CX25mm2

____

2

252 253 254

____

255

278 279 280

1

XLPE/SWA/PVC

50

Cable buried - METS scope

281

P-2750

UPS DISTRIBUTION BOARD

DB-8

FAR ROOM

25

E1W

UPS DISTRIBUTION BOARD

DB-6

MCC ROOM

25

E1W

400V

4CX10mm

____

1

XLPE/SWA/PVC

50

Cable buried - METS scope

282

P-2751

UPS DISTRIBUTION BOARD

DB-6

MCC ROOM

20

E1W

MAIN LV SWITCHGEAR SYSTEM

SB100E1

MCC ROOM

20

E1W

230V

3CX2.5mm2

____

1

XLPE/PVC

30

MCC Building Internal Cabling

283

P-2752

UPS DISTRIBUTION BOARD

DB-6

MCC ROOM

20

E1W

PMS CABINET

____

MCC ROOM

20

E1W

230V

3CX2.5mm2

____

1

XLPE/PVC

30

MCC Building Internal Cabling

284

P-2753

UPS DISTRIBUTION BOARD

DB-6

MCC ROOM

20

E1W

FM 200 SYSTEM

____

MCC ROOM

20

E1W

230V

3CX2.5mm2

____

1

XLPE/PVC

30

MCC Building Internal Cabling

285

P-2754

UPS DISTRIBUTION BOARD

DB-6

MCC ROOM

20

E1W

HV SWITCHGEAR SYSTEM

SD100E1

MCC ROOM

20

E1W

230V

3CX2.5mm2

____

1

XLPE/PVC

30

MCC Building Internal Cabling

286

P-2755

UPS DISTRIBUTION BOARD

DB-6

MCC ROOM

20

E1W HVAC CHANGE-OVER CONTROL PANEL 1

____

MCC ROOM

20

E1W

230V

3CX2.5mm2

____

1

XLPE/PVC

30

MCC Building Internal Cabling

287

P-2756

UPS DISTRIBUTION BOARD

DB-6

MCC ROOM

20

E1W HVAC CHANGE-OVER CONTROL PANEL 2

____

MCC ROOM

20

E1W

230V

3CX2.5mm2

____

1

XLPE/PVC

30

MCC Building Internal Cabling

288

P-2757

UPS DISTRIBUTION BOARD

DB-6

MCC ROOM

20

E1W

EMERG. LV SWITCHGEAR SYSTEM

SB100E2

MCC ROOM

20

E1W

230V

3CX2.5mm2

____

1

XLPE/PVC

30

MCC Building Internal Cabling

289

P-2758

UPS DISTRIBUTION BOARD

DB-6

MCC ROOM

20

E1W

VESDA SYSTEM

____

MCC ROOM

20

E1W

230V

3CX2.5mm2

____

1

XLPE/PVC

30

MCC Building Internal Cabling

290

P-2759

UPS DISTRIBUTION BOARD

DB-6

MCC ROOM

20

E1W

GENERATOR CONTROL PANEL 1

____

MCC ROOM

20

E1W

230V

3CX2.5mm2

____

1

XLPE/PVC

30

MCC Building Internal Cabling

291

P-2760

UPS DISTRIBUTION BOARD

DB-6

MCC ROOM

20

E1W

GENERATOR CONTROL PANEL 2

____

MCC ROOM

20

E1W

230V

3CX2.5mm2

____

1

XLPE/PVC

30

MCC Building Internal Cabling

292

P-2761

UPS DISTRIBUTION BOARD

DB-6

MCC ROOM

20

E1W

GENERATOR CONTROL PANEL 3

____

MCC ROOM

20

E1W

230V

3CX2.5mm2

____

1

XLPE/PVC

30

MCC Building Internal Cabling

293

P-2762

UPS DISTRIBUTION BOARD

DB-6

MCC ROOM

20

E1W

MASTER CONTROL PANEL

____

MCC ROOM

20

E1W

230V

3CX2.5mm2

____

1

XLPE/PVC

30

MCC Building Internal Cabling

P-2900

POWER PLANT AUX DB

DB-3

MCC ROOM

20

E1W

ANALYZER HOUSE JB

EJB-6

OUTDOOR

20

E1FW

230V

3CX4mm2

____

2

294 295 296

1

XLPE/SWA/PVC

170

Cable buried - METS scope

OUTDOOR

20

E1FW

230V

3CX4mm

____

1

XLPE/SWA/PVC

170

Cable buried - METS scope

HP FLARE IGNITION PANEL

OUTDOOR

25

E1FW

230V

3CX25mm2

____

1

XLPE/SWA/PVC

170

Cable buried - METS scope

E1W

LP FLARE IGNITION PANEL

OUTDOOR

25

E1FW

230V

3CX25mm2

____

1

XLPE/SWA/PVC

170

Cable buried - METS scope

20

E1W

GAS METERING SKID

SK-2804

OUTDOOR

20

E1FW

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

150

Cable buried - METS scope

MCC ROOM

20

E1W

EMERGENCY GEN CHARGER

G-8301

GENERATOR HOUSE

20

E1W

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

60

Cable buried - METS scope

DB-3

MCC ROOM

20

E1W

GAS GEN CHARGER

G-8201A

GENERATOR HOUSE

20

E1W

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

60

Cable buried - METS scope

POWER PLANT AUX DB

DB-3

MCC ROOM

20

E1W

GAS GEN CHARGER

G-8201B

GENERATOR HOUSE

20

E1W

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

60

Cable buried - METS scope

P-2918

POWER PLANT AUX DB

DB-3

MCC ROOM

20

E1W

GAS GEN CHARGER

G-8201C

GENERATOR HOUSE

20

E1W

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

60

Cable buried - METS scope

P-2940 P-2941 P-2942 P-2943

1914kVA GAS GENERATOR 1914kVA GAS GENERATOR 1914kVA GAS GENERATOR 500kVA DIESEL GENERATOR

G-8201A G-8201B G-8201C G-8301

GENERATOR HOUSE GENERATOR HOUSE GENERATOR HOUSE GENERATOR HOUSE

M20 M20 M20 M20

E1W E1W E1W E1W

400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V MAIN LV SWITCHBOARD 400V EMERGENCY SWITCHBOARD

SB100D1 SB100D1 SB100D1 SB100E2

MCC ROOM MCC ROOM MCC ROOM MCC ROOM

M20 M20 M20 M20

E1W E1W E1W E1W

230V 230V 230V 230V

30-pair X1.5mm2 30-pair X1.5mm2 30-pair X1.5mm2 30-pair X1.5mm2

____

1 1 1 1

XLPE/SWA/LSZH XLPE/SWA/LSZH XLPE/SWA/LSZH XLPE/SWA/LSZH

60 60 60 60

Cable buried - METS scope Cable buried - METS scope Cable buried - METS scope Cable buried - METS scope

297

P-2901

POWER PLANT AUX DB

DB-3

MCC ROOM

20

E1W

ANALYZER HOUSE JB

298

P-2906

POWER PLANT AUX DB

DB-3

MCC ROOM

25

E1W

299

P-2907

POWER PLANT AUX DB

DB-3

MCC ROOM

25

300

P-2908

POWER PLANT AUX DB

DB-3

MCC ROOM

301

P-2911

POWER PLANT AUX DB

DB-3

302

P-2916

POWER PLANT AUX DB

303

P-2917

304 305 306 307 308 309 310 311

EJB-7

____ ____ ____

312 313 314 315 316 317 318 319

P-2950 P-2951 P-2952 P-2953 P-2954 P-2955 P-2956

UPS DISTRIBUTION BOARD UPS DISTRIBUTION BOARD UPS DISTRIBUTION BOARD UPS DISTRIBUTION BOARD UPS DISTRIBUTION BOARD UPS DISTRIBUTION BOARD UPS DISTRIBUTION BOARD

DB-8 DB-8 DB-8 DB-8 DB-8 DB-8 DB-8

FAR ROOM FAR ROOM FAR ROOM FAR ROOM FAR ROOM FAR ROOM FAR ROOM

20 20 20 20 20 20 20

E1W EMERG. LIGHTING (CONTROL BUILDING) E1W VESDA SYSTEM E1W FM200 SYSTEM E1W 13A SOCKET (CONTROL ROOM) E1W HVAC CHANGE-OVER CONTROL PANEL 1 E1W HVAC CHANGE-OVER CONTROL PANEL 2 E1W 13A SOCKET (EQUIPMENT ROOM)

____ ____ ____ ____ ____ ____ ____

FAR ROOM FAR ROOM FAR ROOM FAR ROOM FAR ROOM FAR ROOM FAR ROOM

20 20 20 20 20 20 20

E1W E1W E1W E1W E1W E1W E1W

320

P-2957

UPS DISTRIBUTION BOARD

DB-8

FAR ROOM

20

E1W

INSTRUMENT AIR COMPRESSOR UCP

____

FAR ROOM

20

E1W

321

P-2958

UPS DISTRIBUTION BOARD

DB-8

FAR ROOM

20

E1W

MAIN COMPRESSOR PAS UCP

____

FAR ROOM

20

E1W

322

P-2959

UPS DISTRIBUTION BOARD

DB-8

FAR ROOM

20

E1W

TELECOM CABINET

____

FAR ROOM

20

323

P-2960

UPS DISTRIBUTION BOARD

DB-8

FAR ROOM

20

E1W

MAIN COMPRESSOR SIS UCP

____

FAR ROOM

324

P-2961

UPS DISTRIBUTION BOARD

DB-8

FAR ROOM

20

E1W

GAS METERING SKID UCP FEEDER 1

____

325

P-2962

UPS DISTRIBUTION BOARD

DB-8

FAR ROOM

20

E1W

SCREW COMPRESSOR PAS UCP

326

P-2963

UPS DISTRIBUTION BOARD

DB-8

FAR ROOM

20

E1W

327

P-2964

UPS DISTRIBUTION BOARD

DB-8

FAR ROOM

20

328

P-2965

UPS DISTRIBUTION BOARD

DB-8

FAR ROOM

329

P-2966

UPS DISTRIBUTION BOARD

DB-8

330

P-2967

UPS DISTRIBUTION BOARD

331

P-2968

332

230V 230V 230V 230V 230V 230V 230V

3CX2.5mm2 3CX2.5mm2 3CX2.5mm2 3CX4mm2 3CX2.5mm2 3CX2.5mm2 3CX4mm2

____ ____ ____ ____ ____ ____ ____

1 1 1 1 1 1 1

XLPE/PVC XLPE/PVC XLPE/PVC XLPE/PVC XLPE/PVC XLPE/PVC XLPE/PVC

30 30 30 30 30 30 30

Control Building Internal Cabling Control Building Internal Cabling Control Building Internal Cabling Control Building Internal Cabling Control Building Internal Cabling Control Building Internal Cabling Control Building Internal Cabling

230V

2

3CX4mm

____

1

XLPE/PVC

30

Control Building Internal Cabling

230V

3CX4mm2

____

1

XLPE/PVC

30

Control Building Internal Cabling

E1W

230V

3CX4mm2

____

1

XLPE/PVC

30

Control Building Internal Cabling

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

30

Control Building Internal Cabling

FAR ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

30

Control Building Internal Cabling

____

FAR ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

30

Control Building Internal Cabling

REFRIGERATION SYSTEM UCP

____

FAR ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

30

Control Building Internal Cabling

E1W

HEAT MEDIUM SYSTEM UCP

____

FAR ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

30

Control Building Internal Cabling

20

E1W

SCREW COMPRESSOR SIS UCP

____

FAR ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

30

Control Building Internal Cabling

FAR ROOM

20

E1W

PAS PDC - PRIMARY FEEDER

____

FAR ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

30

Control Building Internal Cabling

DB-8

FAR ROOM

20

E1W

PAS PDC - SECONDARY FEEDER

____

FAR ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

30

Control Building Internal Cabling

UPS DISTRIBUTION BOARD

DB-8

FAR ROOM

20

E1W

SIS PDC - PRIMARY FEEDER

____

FAR ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

30

Control Building Internal Cabling

P-2969

UPS DISTRIBUTION BOARD

DB-8

FAR ROOM

20

E1W

SIS PDC - SECONDARY FEEDER

____

FAR ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

30

Control Building Internal Cabling

333

P-2970

UPS DISTRIBUTION BOARD

DB-8

FAR ROOM

20

E1W

F&G PDC - PRIMARY FEEDER

____

FAR ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

30

Control Building Internal Cabling

334

P-2971

UPS DISTRIBUTION BOARD

DB-8

FAR ROOM

20

E1W

F&G PDC - SECONDARY FEEDER

____

FAR ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

30

Control Building Internal Cabling

335

P-2972

UPS DISTRIBUTION BOARD

DB-8

FAR ROOM

20

E1W

CONSOLE - PRIMARY FEEDER

____

FAR ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

30

Control Building Internal Cabling

336

P-2973

UPS DISTRIBUTION BOARD

DB-8

FAR ROOM

20

E1W

CONSOLE - SECONDARY FEEDER

____

FAR ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

30

Control Building Internal Cabling

337

P-2974

UPS DISTRIBUTION BOARD

DB-8

FAR ROOM

20

E1W

NETWORK SWITCH - PRIMARY FEEDER

____

FAR ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

30

Control Building Internal Cabling

338

P-2975

UPS DISTRIBUTION BOARD

DB-8

FAR ROOM

20

E1W

NETWORK SWITCH - SEC. FEEDER

____

FAR ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

30

Control Building Internal Cabling

339

P-2976

UPS DISTRIBUTION BOARD

DB-8

FAR ROOM

20

E1W

GAS METERING SKID UCP FEEDER 2

____

FAR ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

30

Control Building Internal Cabling

P-2981

CONTROL BLDG LIGHTING DB

DB-7

FAR ROOM

20

E1W INDOOR LIGHTING (CONTROL BUILDING)

____

MCC ROOM

20

E1W

230V

3CX2.5mm2

____

1

XLPE/PVC

100

Control Building Internal Cabling

MCC ROOM

20

E1W

230V

2

3CX2.5mm

____

1

XLPE/PVC

100

Control Building Internal Cabling

340 341 342

P-2984

CONTROL BLDG LIGHTING DB

DB-7

FAR ROOM

20

E1W INDOOR LIGHTING (CONTROL BUILDING)

____

343

P-2985

CONTROL BLDG LIGHTING DB

DB-7

FAR ROOM

20

E1W

15A SOCKET (CONTROL ROOM)

____

MCC ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

30

Control Building Internal Cabling

344

P-2986

CONTROL BLDG LIGHTING DB

DB-7

FAR ROOM

20

E1W

15A SOCKET (EQUIPMENT ROOM)

____

MCC ROOM

20

E1W

230V

3CX4mm2

____

1

XLPE/PVC

30

Control Building Internal Cabling

345

P-2989

CONTROL BLDG LIGHTING DB

DB-7

FAR ROOM

20

E1W

LIGHTING (GUARD HOUSE)

____

GUARD HOUSE

20

E1W

230V

3CX2.5mm2

____

1

XLPE/SWA/PVC

120

Cable buried - METS scope

348

P-2990

400VAC UPS

____

MCC ROOM

40

E1W

UPS BATTERY RACK

____

BATTERY ROOM

40

E1W

230VDC

2CX??mm2

____

1

XLPE/PVC

50

MCC Building Internal Cabling

349

P-2991

400VAC UPS

____

MCC ROOM

40

E1W

UPS BATTERY RACK

____

BATTERY ROOM

40

E1W

230VDC

2CX??mm2

____

1

XLPE/PVC

50

MCC Building Internal Cabling

346 347

NOTES:

1. E1W - NON-HAZARDOUS AREA GLAND TYPE 2. E1FW - HAZARDOUS AREA GLAND TYPE

DOMGAS PROJECT (AGBADA NAG)

(AGBADA NAG) PROJECT

ENGINEERING & TECHNICAL SERVICES LTD

DOMGAS PROJECT (AGBADA NAG)

DOMGAS PROJECT (AGBADA NAG)

EQUIPMENT

S/N

1 2

Equipment No.

SK-312A/B

5 6 7 8 9

Inlet Manifolds

Fluid category and Class

Process Fluid Handled

Release Sources

Grade of Release (Continuous, Primary or Secondary)

Section of IP Part 15

Hazardous Area Radius

VENTILATION

ZONE

COMMENTS

(m)

NAG, CONDENSATE, WATER

-

-

-

SECTION 4.3.1

-

-

NAG, CONDENSATE, WATER

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

3.0

OPEN

NAG, CONDENSATE, WATER

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

3.0

OPEN

1.0

OPEN

1.0

OPEN

-

UNCLASSIFIED (ADEQUATELY VENTILATED)

SK-313 & SK-323 V-3101/V-3201 V-3103/V-3203 E-3102/E-3202 V-3104/V-3204 V-3105/V-3205 P-3106/P-3206

Inlet Facility INLET SEPARATOR 1 INLET SEPARATOR 2 INLET COOLER INLET CLASSIFIER INLET SURGE VESSEL CONDENSATE EXPORT PUMPS

SK-212/ SK-222 V-2104/V-2204 V-4108/V-4208 E-2101/E-2201 E-2102/E-2202 E-2103/E-2203 E-2105/E-2205

Gas Dew Point Control Package LOW TEMPERATURE SEPARATOR REFRIGERANT SUCTION SCRUBBER GAS/ GAS HEAT EXCHANGER GAS/LIQUID HEAT EXCHANGER CHILLER LIQUID REFRIGERANT EXCHANGER

3 4

Description

NAG

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

NAG, CONDENSATE, WATER

B;CLASS II

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

SECTION 5.4.8 Fig 5.5 SECTION 5.4.5 TABLE 5.6 SECTION 5.4.5 TABLE 5.6 SECTION 5.4.5 TABLE 5.6

NAG, CONDENSATE, WATER

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

SECTION 5.4.5

1.0

OPEN

NAG, CONDENSATE, WATER

B;CLASS II

PUMP SEALS

SECONDARY

SECTION 5.4.1

5.0

OPEN

NAG, DEG, CONDENSATE, WATER

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

OPEN

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

SECTION 5.4.5 TABLE 5.6 SECTION 5.4.5 TABLE 5.6

1.0

NAG, DEG, CONDENSATE, WATER

1.0

OPEN

NAG, DEG, CONDENSATE, WATER

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

SECTION 5.4.5 TABLE 5.6

1.0

OPEN

NAG, DEG, CONDENSATE, WATER

B;CLASS II

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

2.0

OPEN

NAG, DEG, CONDENSATE, WATER

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

1.0

OPEN

NAG, DEG, CONDENSATE, WATER

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

SECTION 5.4.5 TABLE 5.6 SECTION 5.4.5 TABLE 5.6 SECTION 5.4.5 TABLE 5.6

1.0

OPEN

2 2 2 2 2 2

10 11 12 13 14 15 16 17

2 2 2 2 2 2

18 19 20 21 22 23 24 25 26 27 28 29

SK-412/SK-422 V-4103/V-4203 V-4104/V-4204 V-4109/V-4209 E-4106/E-4206 P-4110/P-4210 P-4111/P-4211 S-4105/S-4205 S-4112/S-4212 KM-4102/KM-4202 K-4101/K-4201

Refrigeration System DISCHARGE OIL SEPARATOR ECONOMIZER REFRIGERANT ACCUMULATOR REFRIGERANT CONDENSER REFRIGERANT COOLER PUMP COMPR LUBE OIL CIRC. PUMP MOISTURE TRAP (FILTER) PARTICULATE FILTER REFRIGERANT COMPRESSOR MOTOR REFRIGERANT SCREW COMPRESSOR

NAG, HYDROCARBON LIQUIDS

B;CLASS II

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

SECTION 5.4.5 TABLE 5.6

1.0

OPEN

NAG, DEG, CONDENSATE, WATER

C;CLASS II

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

SECTION 5.4.5 TABLE C9(a)

1.0

OPEN

NAG, DEG, CONDENSATE, WATER

C;CLASS II

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

SECTION 5.4.5 TABLE C9(a)

1.0

OPEN

NAG, DEG, CONDENSATE, WATER

C;CLASS II

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

SECTION 5.4.5 TABLE 5.6

2.5

OPEN

NAG, DEG, CONDENSATE, WATER

C;CLASS II

PUMP SEALS

SECONDARY

SECTION 5.4.1

5.5

OPEN

HYDROCARBON LIQUIDS

B;CLASS II

PUMP SEALS

SECONDARY

SECTION 5.4.1

5.0

OPEN

NAG, DEG, CONDENSATE, WATER

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

2.5

OPEN

NAG, DEG, CONDENSATE, WATER

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

SECTION 5.4.5 TABLE 5.6 SECTION 5.4.5 TABLE 5.6

2.5

OPEN

NAG, DEG, CONDENSATE, WATER

C;CLASS II

PUMP SEALS

SECONDARY

SECTION 5.4.1

5.5

OPEN

NAG, CONDENSATE, WATER

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

SECTION 5.4.3

4.0

OPEN

2 2 2 2 2 2 2 2 2 2

NAG

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

SECTION 5.4.5 TABLE 5.6

2.5

OPEN

2

NAG, DEG, CONDENSATE, WATER

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

OPEN

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

1.0

OPEN

2 2

NAG, DEG, CONDENSATE, WATER

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

1.0

OPEN

NAG, DEG, CONDENSATE, WATER

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

SECTION 5.4.5 TABLE 5.6 SECTION 5.4.5 TABLE 5.6 SECTION 5.4.5 TABLE 5.6 SECTION 5.4.5 TABLE 5.6

1.0

NAG, DEG, CONDENSATE, WATER

1.0

OPEN

NAG, DEG, CONDENSATE, WATER

G(i);CLASS 0

PUMP SEALS

SECONDARY

SECTION 5.4.1

5.5

OPEN

NAG, DEG, CONDENSATE, WATER

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

4.0

OPEN

NAG, DEG, CONDENSATE, WATER

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

1.0

OPEN

NAG, HYDROCARBON LIQUIDS

B;CLASS II

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

SECTION 5.4.3 SECTION 5.4.5 TABLE 5.6 SECTION 5.4.5 TABLE 5.6

2.5

OPEN

HYDROCARBON LIQUIDS

B;CLASS II

PUMP SEALS

SECONDARY

SECTION 5.4.1

5.0

OPEN

30

SK-722 V-7202

31 32

Fuel Gas System FUEL GAS KNOCK OUT VESSEL

33 34 35 36 37 38 39 40 41 42 43

SK-112/SK-113 V-1101 V-1103 V-1111/1116/ E-1115/1120/1125 P-1104/P-1106 K-1102 K-1114/1119/1124 T-1101 KD-1101

Recycle Gas Compressor System SURGE VESSEL SUCTION SCRUBBER SURGE VESSEL LUBE OIL SEPARATOR 1ST, 2ND & 3RD STAGE SUCTION SCRUBBERS 1ST, 2ND & 3RD STAGE COOLERS SURGE VESSEL PRELUBE/ SCRUBBER PUMPS SURGE VESSEL SCREW COMPRESSOR 1ST, 2ND & 3RD STAGE COMPR CYLINDER SURGE VESSEL SCREW WASTE OIL TANK CONTINENTAL MOTOR

2 2 2 2 2 2 2

NOTES a)

Definitions

b)

Fluid Categories

For definitions of Fluid "Group", "Type of release" and

- For fluid categories, refer to Table 1.2 of IP Part15

"Temperature Class" refer to IP Part15, Annex H and section 1.6.4

- Refer to secton 1.6.3 of IP Part15 for classification of the Zoning system

NAG - Non Associated Gas DEG - Di-Ethylene Glycol

REFERENCED DRAWINGS EQUIPMENT LAYOUT

DRAW ING No.

NOTES:

1. Area Classification schedule done in accordance with IP Part15

DOMGAS PROJECT (AGB ADA NAG)

C01

C.E

L.A O.A

'23/05/12

A01

APPROVED FOR CONSTRUCTION ISSUED FOR APPROVAL

C.E

L.A O.A

15/09/11

R02 R01 REV

ISSUED FOR SAFOP ISSUED FOR REVIEW DESCRIPTION

C.E C.E

O.O M.K O.O M.K

10/05/11 05/05/11

DRW N

CHK

APPR

DATE

HAZARDOUS AREA CL ASSIFICATION SCHEDUL E MAKON No. SHELL DOC No.

REV. C01 PAGE 2 OF 3

EQUIPMENT

S/N

44 45 46 47 48 49 50 51 52 53 54 55

Equipment No.

SK-512/522 V-5104/5204 V-5107/5207 V-5110/V-5210 E-5102/5202 E-5106/5206 P-5113/5213 P-5112/5212 C-5101/5201 S-5105/5205 S-5103/5203 S-5109/5209

Description

Fluid category and Class

Process Fluid Handled

Release Sources

Grade of Release (Continuous, Primary or Secondary)

Glycol Injection System GLYCOL FLASH VESSEL CONDENSED WATER KNOCK OUT

DEG, WATER

C;CLASS II

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

DEG, WATER

C;CLASS II

FLANGES/VALVS/FITTINGS/VENT

SECONDARY

GLYCOL SURGE VESSEL

DEG, WATER

C;CLASS II

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

GLYCOL REBOILER GLYCOL VAPOUR CONDENSER CONDENSED WATER PUMPS GLYCOL INJECTION PUMP GLYCOL STILL COLUMN CARBON FILTERS PARTICULATE FILTERS GLYCOL SUMP FILTER

DEG, WATER

C;CLASS II

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

VAPOUR, CONDENSED WATER

C;CLASS II

FLANGES/VALVES/JOINTS/FITTINGS

NAG, CONDENSED WATER

C;CLASS II

DEG, WATER

Section of IP Part 15

Hazardous Area Radius

VENTILATION

ZONE

2 2 2 2 2 2 2 2 2 2 2

COMMENTS

(m) 2.5

OPEN

3.0

OPEN

2.5

OPEN

2.5

OPEN

SECONDARY

SECTION 5.4.5 TABLE 5.6 SECTION 5.4.5 TABLE 5.6 SECTION 5.4.5 TABLE 5.6 SECTION 5.4.5 TABLE 5.6 SECTION 5.4.5 TABLE 5.6

2.5

OPEN

PUMP SEALS

SECONDARY

SECTION 5.4.1

5.5

OPEN

C;CLASS II

PUMP SEALS

SECONDARY

SECTION 5.4.1

5.5

OPEN

DEG

C;CLASS II

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

2.5

OPEN

DEG, WATER

C;CLASS II

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

2.5

OPEN

DEG, WATER

C;CLASS II

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

2.5

OPEN

DEG, WATER

C;CLASS II

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

SECTION 5.4.5 TABLE 5.6 SECTION 5.4.5 TABLE 5.6 SECTION 5.4.5 TABLE 5.6 SECTION 5.4.5 TABLE 5.6

2.5

OPEN

NAG, CONDENSATE, WATER

G(i);CLASS 0

FLANGES/JOINTS/PUMP SEALS

SECONDARY

OPEN

G(i);CLASS 0

FLANGES/JOINTS/PUMP SEALS

SECONDARY

5.5

OPEN

NAG, CONDENSATE, WATER

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

SECTION 5.4.1 SECTION 5.4.1 SECTION 5.4.5 TABLE 5.6

5.5

NAG, CONDENSATE, WATER

2.5

OPEN

DEG, WATER

C;CLASS II

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

SECTION 5.4.5 TABLE 5.6

2.5

OPEN

DEG, WATER

C;CLASS II

PUMP SEALS

SECONDARY

SECTION 5.4.1

5.5

OPEN

NAG

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

OPEN

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

SECTION 5.4.5 TABLE 5.6 SECTION 5.4.5 TABLE 5.6

1.0

NAG

1.0

OPEN

NAG

G(i);CLASS 0

PUMP SEALS

SECONDARY

SECTION 5.4.1

5.5

OPEN

NAG

G(i);CLASS 0

PUMP SEALS

SECONDARY

SECTION 5.4.1

5.5

OPEN

56 57 58 59 60

SK-612/622 E-6105/E-6205 P-6102/P-6202 S-6103

Heat Medium Package HEAT MEDIUM TRIM COOLER HEAT MEDIUM PUMPS HEAT MEDIUM FILTER

2 2 2

61

V-5111/5211 P-5108/5208 SK-432 SK-433 P-4300A/B P-4301A/B

Out of Skid GLYCOL SUMP TANK GLYCOL SUMP PUMP HP FLARE KNOCK OUT DRUM LP FLARE KNOCK OUT DRUM HP FLARE KNOCK OUT PUMPS LP FLARE KNOCK OUT PUMPS

G-8201A/B/C G-8301 T-6201 HOLD

MAIN GENERATOR (GAS) PACKAGE EMERGENCY GENERATOR (DIESEL) PACKAGE DIESEL STORAGE TANK PIG LAUNCHER

62 63 64 65 66 67 68

2 2 2 2 2 2

69 70 71 72 73

GAS

-

-

-

-

-

-

DIESEL

-

-

-

-

-

-

-

DIESEL

C;CLASS III

-

-

-

-

-

NAG, CONDENSED WATER

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

PRIMARY

SECTION 3.2 Paragraph II SECTION 5.4.6

3.0

OPEN

1

UNCLASSIFIED UNCLASSIFIED UNCLASSIFIED ZONE 2 OF 7m IS AROUND LAUNCHER

74 75 76

SK-2804 V-5701 T-5701

SALE GAS METERING SKID CLOSE DRAIN SYSTEM OIL SAVER PIT/OPEN DRAIN SYSTEM

NAG

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

OPEN

G(i);CLASS 0

FLANGES/VALVES/JOINTS/FITTINGS

SECONDARY

SECTION 5.4.5 TABLE 5.6 SECTION 5.4.5 TABLE 5.6

2.5

NAG, CONDENSATE, WATER

3.0

OPEN

2 2

NAG, CONDENSATE, WATER

G(i);CLASS 0

PIT CONTENT

CONTINUOUS

SECTION 5.4.9

-

OPEN

0

ZONE 1 OF 3m AROUND PIT

NOTES a)

Definitions

b)

Fluid Categories

For definitions of Fluid "Group", "Type of release" and

- For fluid categories, refer to Table 1.2 of IP Part15

"Temperature Class" refer to IP Part15, Annex H and section 1.6.4

- Refer to secton 1.6.3 of IP Part15 for classification of the Zoning system

NAG - Non Associated Gas DEG - Di-Ethylene Glycol

REFERENCED DRAWINGS EQUIPMENT LAYOUT

DRAW ING No.

NOTES:

1. Area Classification schedule done in accordance with IP Part15

DOMGAS PROJECT (AGB ADA NAG)

C01

APPROVED FOR CONSTRUCTION

C.E

L.A O.A

'23/05/12

A01

ISSUED FOR APPROVAL

C.E

L.A O.A

15/09/11

R02 R01 REV

ISSUED FOR SAFOP ISSUED FOR REVIEW DESCRIPTION

C.E C.E

O.O M.K O.O M.K

10/05/11 05/05/11

DRW N

CHK

APPR

DATE

HAZARDOUS AREA CL ASSIFICATION SCHEDUL E MAKON No. SHELL DOC No.

REV. C01 PAGE 3 OF 3

Customer:

Rev

Date

Prepared

Checked

Approved

R01

09-Aug-2012

A. Tejumola

C. Emu

M. Kulkarni

Reason for Issue

DOMGAS PROJECT (AGBADA NAG )

Project: Project No:

S/N

Document No.

Brief Material Description Manufacturer

MFR Part No.

Base Quantity

Unit

Contingency (Spare)

Total Quantity

Reference Drawing / Document No

Chalmit

PRGE/236/BI/LBE

24

PCS

2

26

SDA-S17893-AGBG1-EA-4025-00004-001

Chalmit

PRGE/236/BI/EM/LBE

6

PCS

2

8

SDA-S17893-AGBG1-EA-4025-00004-001

Chalmit MK/ABB/MEM

-

80 3

PCS PCS

4 1

84 4

SDA-S17893-AGBG1-EA-4025-00004-001 SDA-S17893-AGBG1-EA-4025-00004-001

Remarks

LIGHTING Generator House

3 4

2X36W, 220-240V, 50Hz, IP66, T4, Ex(e), Fluorescent Luminaire c/w Electronic Ballast 2X36W, 220-240V, 50Hz, IP66, T4, Ex(e), Fluorescent Luminaire- (Emergency lighting with battery back-up) c/w Electronic Ballast Fluorescent Lamp, Bi-Pin Type 10A, Single Pole, 1-Gang, 1-Way Ex(d) Switch

5

Eyelet Mounting Bracket Assembly

Chalmit

SPR05-0005

160

PCS

160

SDA-S17893-AGBG1-EA-4025-00004-001

6

Industrial Chain

Chalmit

-

100

Metres

100

SDA-S17893-AGBG1-EA-4025-00004-001

7

Lighting Junction Box Ex(e) c/w terminal blocks

8

M20 cable gland Ex(e)

1 2

Stahl

8118/122-1

34

PCS

2

36

SDA-S17893-AGBG1-EA-4025-00004-001

Hawke

501/453/RAC/O/M20

80

PCS

2

82

SDA-S17893-AGBG1-EA-4025-00004-001

NEXANS

-

250

Metres

250

SDA-S17893-AGBG1-EA-4025-00004-001

Chalmit

PRGE/236/BI/LBE

32

PCS

4

36

SDA-S17893-AGBG1-EA-4025-00007-001

Chalmit

PRGE/236/BI/EM/LBE

10

PCS

2

12

SDA-S17893-AGBG1-EA-4025-00007-001

Chalmit MK/ABB/MEM

-

84 3

PCS PCS

4 1

88 4

SDA-S17893-AGBG1-EA-4025-00007-001 SDA-S17893-AGBG1-EA-4025-00007-001

SPR05-0005

170

PCS

170

SDA-S17893-AGBG1-EA-4025-00007-001

2

9

3C x 2.5mm XLPE/PVC copper cable (Cores Brown, Blue, Green/Yellow)

For suspending lighting fittings

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

LIGHTING Off Gas Compressor Shed

3 4

2X36W, 220-240V, 50Hz, IP66, T4, Ex(e), Fluorescent Luminaire c/w Electronic Ballast 2X36W, 220-240V, 50Hz, IP66, T4, Ex(e), Fluorescent Luminaire- (Emergency lighting with battery back-up) c/w Electronic Ballast Fluorescent Lamp, Bi-Pin Type 10A, Single Pole, 1-Gang, 1-Way Ex(d) Switch

5

Eyelet Mounting Bracket Assembly

Chalmit

6

Industrial Chain

Chalmit

-

160

Metres

160

SDA-S17893-AGBG1-EA-4025-00007-001

7

Lighting Junction Box Ex(e) c/w terminal blocks

Stahl

8118/122-1

35

PCS

2

37

SDA-S17893-AGBG1-EA-4025-00007-001

8

M20 cable gland Ex(e)

Hawke

501/453/RAC/O/M20

90

PCS

2

92

SDA-S17893-AGBG1-EA-4025-00007-001

NEXANS

-

250

Metres

250

SDA-S17893-AGBG1-EA-4025-00007-001

1 2

2

9

3C x 2.5mm XLPE/PVC copper cable (Cores Brown, Blue, Green/Yellow)

Page 2 of 5

For suspending lighting fittings

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

Rev. R01

Customer:

Rev

Date

Prepared

Checked

Approved

R01

09-Aug-2012

A. Tejumola

C. Emu

M. Kulkarni

Contingency (Spare)

Total Quantity

Reference Drawing / Document No

Reason for Issue

DOMGAS PROJECT (AGBADA NAG )

Project: Project No:

S/N

Document No.

Brief Material Description Manufacturer

MFR Part No.

Base Quantity

Unit

1

10m Medium Duty Base Hinged Column c/w flange plate, with double floodlight brackets, (FL4/3) c/w column mounted Ex 'e' type junction box, with 3 cable entries, 2 fuse modules, 9 terminals for looping in & looping out of 5C X 25mm2 Cables

Abacus

T088RLH/FP

20

PCS

20

SDA-S17893-AGBG1-EA-4025-00001-001, SDAS17893-AGBG1-EA-4025-00003-001

2

8m Medium Duty Base Hinged Column c/w flange plate, with Triplex floodlight brackets, (FL4/4) c/w column mounted Ex 'e' type junction box, with 3 cable entries, 2 fuse modules, 9 terminals for looping in & looping out of 5C X 25mm2 Cables

Abacus

T088RLH/FP

7

PCS

7

SDA-S17893-AGBG1-EA-4025-00001-001, SDAS17893-AGBG1-EA-4025-00003-001

3

Hydraulic Counterbalance Unit to operate Medium duty base hinged column

Abacus

RLH168

1

PCS

1

SDA-S17893-AGBG1-EA-4025-00001-001, SDAS17893-AGBG1-EA-4025-00003-001

Chalmit

EV 2D/400/MS

61

PCS

63

SDA-S17893-AGBG1-EA-4025-00001-001, SDAS17893-AGBG1-EA-4025-00003-001

200

Metres

200

100

PCS

100

NEXANS

200

Metres

200

SDA-S17893-AGBG1-EA-8809-00001-001

NEXANS

2500

Metres

2500

SDA-S17893-AGBG1-EA-8809-00001-001

NEXANS

2000

Metres

2000

SDA-S17893-AGBG1-EA-8809-00003-001

150

Metres

150

Remarks

OUTDOOR LIGHTING

5

400W HPS Ex (d) Floodlight with integral control gear, suitable for Zone 2, IP 67, 230V, 50Hz 32mm diameter PVC sleeve / conduit

6

M20 cable gland Ex(e)

4

Hawke

501/453/RAC/O/M20

2

EARTHING 1 2 3 4 5

6 7 8

1C X 120mm2 Green/Yellow PVC Insulated earthing cable 1C X 70mm2 Green/Yellow PVC Insulated earthing cable 1C X 25mm2 Green/Yellow PVC Insulated earthing cable 32mm diameter PVC Sleeve Earth bar, 475mm x 90mm x 96mm, with 6 connection points & removable test link, c/w M10 X 25 bolt, nut and washers Earth bar,1200mm x 90mm x 96mm, with 18 connection points & removable test link, c/w M10 X 25 bolt, nut and washers 50mm diameter Earth Boss with M10 stud

Furse

LK243-6

15

PCS

15

SDA-S17893-AGBG1-EA-8809-00003-001

Furse

LK243-18

4

PCS

4

SDA-S17893-AGBG1-EA-8809-00003-001

Furse

EB001

2

Furse

2

70mm compression C type crimp connector

50

PCS

50

SDA-S17893-AGBG1-EA-8809-00001-001

120

PCS

120

SDA-S17893-AGBG1-EA-8809-00001-001 SDA-S17893-AGBG1-EA-8809-00001-001

9

25mm M10 Compression type Lug (Connector)

Furse

FCT2510

100

PCS

100

10

70mm2 M10 Compression type Lug (Connector)

Furse

FCT7010

50

PCS

50

SDA-S17893-AGBG1-EA-8809-00001-001

11

120mm2 M10 Compression type Lug (Connector)

Furse

10

PCS

10

SDA-S17893-AGBG1-EA-8809-00001-001

12

50mm diameter 6m long galvanised steel pipe

120

PCS

120

SDA-S17893-AGBG1-EA-8809-00001-001

700

Metres

700

SDA-S17893-AGBG1-EA-8809-00001-001

20

PCS

20

SDA-S17893-AGBG1-EA-8809-00001-001

20

PCS

20

SDA-S17893-AGBG1-EA-8809-00001-001

2

13

70mm bare copper conductor for deep well earthing

NEXANS

14

U bolt rod clamp (type E) (for grounding conductor termination in earth pit)

Furse

15

Concrete Earth Pit

CR330

Page 2 of 5

To be Cast at Site

Rev. R01

Customer:

Rev

Date

Prepared

Checked

Approved

R01

09-Aug-2012

A. Tejumola

C. Emu

M. Kulkarni

Reason for Issue

DOMGAS PROJECT (AGBADA NAG )

Project: Project No:

S/N

Document No.

Brief Material Description Manufacturer

MFR Part No.

Base Quantity

Unit

Contingency (Spare)

Total Quantity

Reference Drawing / Document No

Furse

RA030

10

PCS

2

12

SDA-S17893-AGBG1-EA-8809-00001-001

Furse

RA230

6

PCS

2

8

SDA-S17893-AGBG1-EA-8809-00001-001

Furse

200

Metres

200

SDA-S17893-AGBG1-EA-8809-00001-001

250

Metres

250

SDA-S17893-AGBG1-EA-8809-00001-001

Remarks

LIGHTNING PROTECTION SYSTEM

3

Air Terminal Rod, Aluminium, 15mm Diameter, 1.5m Long Air Terminal Rod, Copper, 15mm Diameter, 1.5m Long 25 x 3mm Bare Aluminium Tape

4

25 x 3mm Bare Copper Tape

Furse

5

25 x 3mm Insulated Copper Tape

Furse

200

Metres

200

SDA-S17893-AGBG1-EA-8809-00001-001

6

15mm, M16, Air Rod Base, Copper, c/w Screw

Furse

SD105-H

8

PCS

8

SDA-S17893-AGBG1-EA-8809-00001-001

7

15mm, M16, Air Rod Base, Aluminium, c/w Screw

Furse

SD003-H

8

PCS

8

SDA-S17893-AGBG1-EA-8809-00001-001

Furse

CN-910

14

PCS

14

SDA-S17893-AGBG1-EA-8809-00001-001

Furse

CP215

80

PCS

80

SDA-S17893-AGBG1-EA-8809-00001-001

Furse

CP210-H

40

PCS

40

SDA-S17893-AGBG1-EA-8809-00001-001

Furse

CP110-H

40

PCS

40

SDA-S17893-AGBG1-EA-8809-00001-001

Furse Furse

CT105-H CT005-H

8 8

PCS PCS

8 8

SDA-S17893-AGBG1-EA-8809-00001-001 SDA-S17893-AGBG1-EA-8809-00001-001

1 2

12 13

Bimetallic Conductor (25mm X 3mm Aluminium Tape to 25mm X 3mm Copper Tape) DC Tape Clip, Copper c/w Screw (for Insulated Copper Tape) Swing Lid DC Tape Clip, Copper c/w Screw (for Bare Copper Tape) Swing Lid DC Tape Clip, Aluminium c/w Screw (for Bare Aluminium Tape) Square Tape Clamp, Copper c/w Screw Square Tape Clamp, Aluminium c/w Screw

14

Earth Test Link

Furse

12

PCS

12

SDA-S17893-AGBG1-EA-8809-00001-001

15

Rod to Tape Clamp

Furse

12

PCS

12

SDA-S17893-AGBG1-EA-8809-00001-001

8 9 10 11

LV SWITCHGEAR/DB 1

2

3 4 5

6

Photo Cell Controlled 63A, 8-way, 3-phase, 4-wire, 400/230V, 50Hz, Distribution Board, IP42 c/w MCB+RCD 30mA sensitivity for lighting and power circuit protection c/w photoelectric cell & its relay contacts (DB-1) 200A, 12-way, 3-phase, 4-wire, 400/230V, 50Hz, Distribution Board, IP42 c/w MCB+RCD 30mA sensitivity for power circuit protection (AC UPS UDB1) 100A, 12-way, 3-phase, 4-wire, 400/230V, 50Hz, MCB Distribution Board, (DB-4) 63A, 12-way, 3-phase, 4-wire, 400/230V, 50Hz, MCB Distribution Board, (DB-5) 63A, 8-way, 3-phase, 4-wire, 400/230V, 50Hz, MCB Distribution Board, (DB-6) 100A, 12-way, 3-phase, 4-wire, 400/230V, 50Hz, Distribution Board, IP42 c/w MCB+RCD 30mA sensitivity for power circuit protection, (AC UPS UDB2)

Eaton/ABB

Halyester

1

PCS

1

SDA-S17893-AGBG1-EA-4319-00001-001

See referenced drawing for load schedule of distribution board

Eaton/ABB

Halyester

1

PCS

1

SDA-S17893-AGBG1-EA-4319-00009-001

See referenced drawing for load schedule of distribution board

Eaton/ABB

Halyester

1

PCS

1

SDA-S17893-AGBG1-EA-4319-00002-001

Eaton/ABB

Halyester

1

PCS

1

SDA-S17893-AGBG1-EA-4319-00006-001

Eaton/ABB

Halyester

1

PCS

1

SDA-S17893-AGBG1-EA-4319-00004-001

Eaton/ABB

Halyester

1

PCS

1

SDA-S17893-AGBG1-EA-4319-00003-001

Page 2 of 5

See referenced drawing for load schedule of distribution board See referenced drawing for load schedule of distribution board See referenced drawing for load schedule of distribution board See referenced drawing for load schedule of distribution board

Rev. R01

Customer:

Rev

Date

Prepared

Checked

Approved

R01

09-Aug-2012

A. Tejumola

C. Emu

M. Kulkarni

Base Quantity

Unit

Contingency (Spare)

Total Quantity

Reference Drawing / Document No

NEXANS

60

Metres

60

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

60

Metres

60

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

60

Metres

60

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

Reason for Issue

DOMGAS PROJECT (AGBADA NAG )

Project: Project No:

S/N

Document No.

Brief Material Description Manufacturer

MFR Part No.

Remarks

POWER CABLES 1

2

3

3C x 70mm2 6000/10000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Gas Gen 1 to HV Switchgear) 3C x 70mm2 6000/10000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Gas Gen 2 to HV Switchgear) 3C x 70mm2 6000/10000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Gas Gen 3 to HV Switchgear) 3C x 70mm2 6000/10000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (HV Switchgear to screw compressor motor) 3C x 70mm2 6000/10000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (HV Switchgear to refrig. compressor motor 1) 3C x 70mm2 6000/10000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (HV Switchgear to refrig. compressor motor 2) 3C x 70mm2 6000/10000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (HV Switchgear to HV/LV Transformer 1) 3C x 70mm2 6000/10000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (HV Switchgear to HV/LV Transformer 2)

NEXANS

ENERFLEX SCOPE

220

Metres

5

225

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

ENERFLEX SCOPE

230

Metres

5

235

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

ENERFLEX SCOPE

235

Metres

5

240

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

60

Metres

60

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

60

Metres

60

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

60

Metres

60

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

60

Metres

60

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

13 14

15

4C x 240mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey, Blue (Diesel Gen to Emergency LV Switchgear) 4C x 240mm2 600/1000V XLPE/AWA/PVC Copper Cable: Brown, Black, Grey, Blue (Main LV Switchgear to Emergency LV Switchgear)

Page 2 of 5

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EASDA-S17893-AGBG1-EA-8801-00001-001, SDA7771-00010-001 for cables S17893-AGBG1-EA-4308-00001 specification

Rev. R01

Customer:

Rev

Date

Prepared

Checked

Approved

Reason for Issue

R01

09-Aug-2012

A. Tejumola

C. Emu

M. Kulkarni

Base Quantity

Unit

Contingency (Spare)

Total Quantity

Reference Drawing / Document No

Remarks

NEXANS

60

Metres

60

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

NEXANS

280

Metres

20

300

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

280

Metres

20

300

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

DOMGAS PROJECT (AGBADA NAG )

Project: Project No:

S/N

Document No.

16

Brief Material Description Manufacturer

4C x 240mm2 600/1000V XLPE/AWA/PVC Copper Cable: Brown, Black, Grey, Blue (Main LV Switchgear to Emergency LV Switchgear)

MFR Part No.

17 18

3C x 16mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Close Drain Pumps A&B Feeder cables ) 3C x 16mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Open Drain Pumps A&B Feeder cables ) 3C x 25mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Train 1 & 2 Inlet Cooler Motors Feeder cables ) 3C x 95mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Train 1 & 2 Condensate Export Pumps Feeder cables ) 3C x 35mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Screw compressor recycle gas cooler Feeder cable ) 3C x 16mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Screw compressor lube oil pump Feeder cable ) 3C x 4mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Train 1 & 2 Heat Trim Cooler motor feeder cables ) 3C x 10mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Train 1 & 2 Glycol Injection pump feeder cables ) 3C x 6mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Train 1 & 2 Glycol vapour condemser feeder cables ) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Train 1 & 2 Condensed water pump feeder cables ) 3C x 95mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Train 1 & 2 Heat medium pump feeder cables ) 3C x 10mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Train 1 & 2 compressor lube oil circ. pump feeder cables ) 3C x 70mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Train 1 & 2 Refrigerant condenser feeder cables ) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Train 1 & 2 HP & LP K.O. Vessel Pump feeder cables ) 5C x 70mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey, Blue, Green/Yellow (125A Welding Socket Outlet 1 & 2 Junction Boxes) 3C x 50mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (125A Welding Socket Outlet ) 4C x 10mm2 600/1000V XLPE/PVC Copper Cable: Brown, Black, Grey, Blue (Outdoor Lighting DB Feeder Cable)

NEXANS

ENERFLEX SCOPE

1740

Metres

60

1800

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

ENERFLEX SCOPE

1120

Metres

80

1200

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

ENERFLEX SCOPE

240

Metres

240

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

ENERFLEX SCOPE

240

Metres

240

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

ENERFLEX SCOPE

480

Metres

480

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

ENERFLEX SCOPE

980

Metres

20

1000

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

ENERFLEX SCOPE

490

Metres

10

500

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

ENERFLEX SCOPE

980

Metres

20

1000

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

ENERFLEX SCOPE

1030

Metres

20

1050

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

ENERFLEX SCOPE

510

Metres

10

520

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

ENERFLEX SCOPE

1010

Metres

40

1050

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

ENERFLEX SCOPE

1100

Metres

100

1200

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

280

Metres

20

300

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

60

Metres

60

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

30

Metres

30

Page 2 of 5

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EASDA-S17893-AGBG1-EA-8801-00001-001, SDA7771-00010-001 for cables S17893-AGBG1-EA-4308-00001 specification

Rev. R01

Customer:

Rev

Date

Prepared

Checked

Approved

R01

09-Aug-2012

A. Tejumola

C. Emu

M. Kulkarni

Base Quantity

Unit

Contingency (Spare)

Total Quantity

Reference Drawing / Document No

NEXANS

50

Metres

50

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

30

Metres

30

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

100

Metres

100

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

50

Metres

50

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

60

Metres

60

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

60

Metres

60

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

100

Metres

100

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

100

Metres

100

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

150

Metres

150

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

60

Metres

60

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

120

Metres

120

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

120

Metres

120

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

240

Metres

20

260

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

300

Metres

20

320

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

150

Metres

10

160

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

480

Metres

20

500

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

480

Metres

20

500

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

180

Metres

180

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

100

Metres

100

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

Reason for Issue

DOMGAS PROJECT (AGBADA NAG )

Project: Project No:

S/N

Document No.

19

20

21

Brief Material Description Manufacturer

4C x 16mm2 600/1000V XLPE/PVC Copper Cable: Brown, Black, Grey, Blue (Control Building Lighting & Small Power DB Feeder Cable) 4C x 16mm2 600/1000V XLPE/PVC Copper Cable: Brown, Black, Grey, Blue (Electrical Building Lighting & Small Power DB Feeder Cable) 4C x 50mm2 600/1000V XLPE/PVC Copper Cable: Brown, Black, Grey, Blue (AC UPS 1 & 2 Feeder Cables) 4C x 35mm2 600/1000V XLPE/PVC Copper Cable: Brown, Black, Grey, Blue (AC UPS Bypass Feeder Cable) 4C x 10mm2 600/1000V XLPE/PVC Copper Cable: Brown, Black, Grey, Blue (Anti-condensation Heaters DB-2 & DB-5 Feeder Cables) 4C x 16mm2 600/1000V XLPE/PVC Copper Cable: Brown, Black, Grey, Blue (Power Plant Auxiliaries DB-10 & DB-11 Feeder Cables) 4C x 35mm2 600/1000V XLPE/PVC Copper Cable: Brown, Black, Grey, Blue (Control Building HVAC 1 & 2 Feeder Cables) 4C x 35mm2 600/1000V XLPE/PVC Copper Cable: Brown, Black, Grey, Blue (Electrical Building HVAC 1 & 2 Feeder Cables) 4C x 25mm2 600/1000V XLPE/PVC Copper Cable: Brown, Black, Grey, Blue (Cathodic Protection Rectifier Feeder Cable) 3C x 6mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Diesel Loading Pump Feeder cable ) 3C x 50mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Instrument Air Compressors A & B Feeder cables ) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Instrument Air Compressors A & B Aftercooler Feeders ) 3C x 25mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Well Water Pump A & B JB Feeders ) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Train 1 & 2 Motor Operated Valve Feeders ) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Flow Control Valve Feeder ) 3C x 70mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Recip Compressor Coolers A & B Feeder cables ) 3C x 10mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Train 1 & 2 Burner Blower feeder cables ) 4C x 35mm2 600/1000V XLPE/PVC Copper Cable: Brown, Black, Grey, Blue (Gas generators 1,2 & 3; 225A Aux. DB Feeder Cables) 4C x 25mm2 600/1000V XLPE/PVC Copper Cable: Brown, Black, Grey, Blue (63A Telecom Gearswitch Feeder Cables)

NEXANS

MFR Part No.

ENERFLEX SCOPE

Page 2 of 5

Remarks

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Rev. R01

Customer:

Rev

Date

Prepared

Checked

Approved

R01

09-Aug-2012

A. Tejumola

C. Emu

M. Kulkarni

Base Quantity

Unit

Contingency (Spare)

Total Quantity

Reference Drawing / Document No

NEXANS

250

Metres

250

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

250

Metres

250

NEXANS

250

Metres

250

Reason for Issue

DOMGAS PROJECT (AGBADA NAG )

Project: Project No:

S/N

Document No.

22

23

24

Brief Material Description Manufacturer

3C x 185mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Agbada 2 Flowstation Booster Compressor motor feeder cable ) 3C x 10mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Agbada 2 Flowstation Booster Compressor cooler feeder cable ) 3C x 4mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey (Agbada 2 Flowstation Booster Compressor Glycol feeder cable )

MFR Part No.

Remarks

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EASDA-S17893-AGBG1-EA-8801-00001-001, SDA7771-00010-001 for cables S17893-AGBG1-EA-4308-00001 specification Refer to SDA-S17893-AGBG1-EASDA-S17893-AGBG1-EA-8801-00001-001, SDA7771-00010-001 for cables S17893-AGBG1-EA-4308-00001 specification

25 26

7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Close Drain Pumps A&B RCU Feeder Cables)

NEXANS

280

Metres

20

300

27

7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Open Drain Pumps A&B RCU Feeder cables )

NEXANS

280

Metres

20

300

28

29

7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Train 1 & 2 Inlet Cooler Motors RCU Feeder cables ) 7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Train 1 & 2 Condensate Export Pumps RCU Feeder cables )

NEXANS

ENERFLEX SCOPE

1740

Metres

60

1800

NEXANS

ENERFLEX SCOPE

1120

Metres

80

1200

Page 2 of 5

Refer to SDA-S17893-AGBG1-EA7771-00007-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

Rev. R01

Customer:

Rev

Date

Prepared

Checked

Approved

R01

09-Aug-2012

A. Tejumola

C. Emu

M. Kulkarni

Contingency (Spare)

Total Quantity

Reason for Issue

DOMGAS PROJECT (AGBADA NAG )

Project: Project No:

S/N

Document No.

30

31

32

33

34

35

36

37

Brief Material Description Manufacturer

MFR Part No.

Base Quantity

Unit

NEXANS

ENERFLEX SCOPE

240

Metres

240

NEXANS

ENERFLEX SCOPE

240

Metres

240

NEXANS

ENERFLEX SCOPE

480

Metres

480

NEXANS

ENERFLEX SCOPE

980

Metres

20

1000

NEXANS

ENERFLEX SCOPE

490

Metres

10

500

NEXANS

ENERFLEX SCOPE

980

Metres

20

1000

NEXANS

ENERFLEX SCOPE

1030

Metres

20

1050

NEXANS

ENERFLEX SCOPE

510

Metres

NEXANS

ENERFLEX SCOPE

1010

Metres

40

1050

NEXANS

ENERFLEX SCOPE

1100

Metres

100

1200

NEXANS

60

Metres

60

NEXANS

120

Metres

120

NEXANS

120

Metres

120

7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Well Water Pump A & B RCU Feeders )

NEXANS

240

Metres

10

250

7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Train 1 & 2 Motor Operated Valve RCU Feeders )

NEXANS

300

Metres

20

320

7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Flow Control Valve RCU Feeder )

NEXANS

150

Metres

10

160

480

Metres

480

NEXANS

480

Metres

480

NEXANS

220

Metres

220

NEXANS

230

Metres

230

7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Screw compressor recycle gas cooler RCU Feeder cable ) 7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Screw compressor lube oil pump RCU Feeder cable ) 7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Train 1 & 2 Heat Trim Cooler motor RCU feeder cables ) 7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Train 1 & 2 Glycol Injection pump RCU feeder cables ) 7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Train 1 & 2 Glycol vapour condenser RCU feeder cables ) 7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Train 1 & 2 Condensed water pump RCU feeder cables ) 7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Train 1 & 2 Heat medium pump RCU feeder cables ) 7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Train 1 & 2 compressor lube oil circ. pump RCU feeder cables ) 7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Train 1 & 2 Refrigerant condenser RCU feeder cables ) 7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Train 1 & 2 HP & LP K.O. Vessel Pump RCU feeder cables ) 7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Diesel Loading Pump RCU Feeder cable ) 7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Instrument Air Compressors A & B RCU Feeder cables ) 7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Instrument Air Compressors A & B Aftercooler RCU Feeders )

7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Recip Compressor Coolers A & B RCU Feeder cables ) 7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Train 1 & 2 Burner Blower RCU feeder cables ) 7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Main Compressor drive motor RCU feeder cables ) 7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Train 1 Refrig compressor motor RCU feeder cables )

NEXANS

ENERFLEX SCOPE

Page 2 of 5

510

Reference Drawing / Document No

Remarks

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

Rev. R01

Customer:

Rev

Date

Prepared

Checked

Approved

Reason for Issue

R01

09-Aug-2012

A. Tejumola

C. Emu

M. Kulkarni

Base Quantity

Unit

Contingency (Spare)

Total Quantity

NEXANS

235

Metres

235

NEXANS

250

Metres

250

NEXANS

250

Metres

250

NEXANS

250

Metres

250

5C x 25mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Black, Grey, Blue, Green/Yellow (Floodlighting Cables)

NEXANS

1000

Metres

3C x 4mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (HV, main & emergency LV Switchboards Anti-condensation Feeder Cable)

NEXANS

90

Metres

90

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Diesel & Gas generators Anti-condensation heaters Feeder Cable)

NEXANS

240

Metres

240

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

NEXANS

560

Metres

40

600

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

DOMGAS PROJECT (AGBADA NAG )

Project: Project No:

S/N

Document No.

Brief Material Description Manufacturer

7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Train 2 Refrig compressor motor RCU feeder cables ) 7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Agbada 2 Flowstation Booster Compressor motor RCU feeder cable ) 7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Agbada 2 Flowstation Booster Compressor cooler RCU feeder cable ) 7C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable (Agbada 2 Flowstation Booster Compressor Glycol RCU feeder cable )

3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Open & Close Drain Pumps Anti-condensation heaters Feeder Cable) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Train 1 & 2 Inlet Cooler Motors Anti-condensation heaters Feeder Cable) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Train 1 & 2 Condensate Export Pumps Anti-condensation heaters Feeder Cable) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Screw compressor recycle gas cooler Anti-condensation heater Feeder Cable) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (main compressor driver motor Anti-condensation heater Feeder Cable) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (screw compressor lube oil pump Anti-condensation heater Feeder Cable) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Train 1 & 2 Heat medium trim coolers Anti-condensation heater Feeder Cable) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Train 1 & 2 Glycol Injection Pumps Anti-condensation heater Feeder Cable)

MFR Part No.

100

1100

Reference Drawing / Document No

Remarks

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

NEXANS

ENERFLEX SCOPE

1740

Metres

60

1800

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

NEXANS

ENERFLEX SCOPE

1120

Metres

80

1200

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

NEXANS

ENERFLEX SCOPE

240

Metres

240

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

NEXANS

ENERFLEX SCOPE

220

Metres

220

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

NEXANS

ENERFLEX SCOPE

240

Metres

240

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

NEXANS

ENERFLEX SCOPE

480

Metres

20

500

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

NEXANS

ENERFLEX SCOPE

980

Metres

20

1000

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

Page 2 of 5

Rev. R01

Customer:

Rev

Date

Prepared

Checked

Approved

R01

09-Aug-2012

A. Tejumola

C. Emu

M. Kulkarni

Reason for Issue

DOMGAS PROJECT (AGBADA NAG )

Project: Project No:

S/N

Document No.

Brief Material Description

3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Train 1 & 2 Glycol vapour condenser Anti-condensation heater Feeder Cable) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Train 1 & 2 Condensed water Pumps Anti-condensation heater Feeder Cable) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Train 1 & 2 Heat Medium Pumps Anti-condensation heater Feeder Cable) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Train 1 & 2 Refrig. Compressor motors Anti-condensation heater Feeder Cable) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Train 1 & 2 Compressor lube oil circ. pump Anti-condensation heater Feeder Cable) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Train 1 & 2 Refrig condenser Anti-condensation heater Feeder Cable) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (HP & LP K.O. Vessel pumps Anti-condensation heater Feeder Cable) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Diesel Loading Pumps Anti-condensation heaters Feeder Cable) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Instrument Air Compressors A & B Anti-condensation heaters Feeder Cable) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Instrument Air Compressors A & B Aftercoolers Anti-condensation heaters Feeder Cable) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Well water pumps A & B Anti-condensation heaters Feeder Cable) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Agbada 2 Flowstation Booster Compressor motor Anticondensation heaters Feeder Cable) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Agbada 2 Flowstation Booster Compressor cooler Anticondensation heaters Feeder Cable) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Agbada 2 Flowstation Booster Compressor glycol Anticondensation heaters Feeder Cable)

Manufacturer

MFR Part No.

Base Quantity

Unit

Contingency (Spare)

Total Quantity

NEXANS

ENERFLEX SCOPE

490

Metres

10

500

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

NEXANS

ENERFLEX SCOPE

980

Metres

20

1000

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

NEXANS

ENERFLEX SCOPE

1030

Metres

20

1050

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

NEXANS

ENERFLEX SCOPE

480

Metres

480

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

NEXANS

ENERFLEX SCOPE

510

Metres

510

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

NEXANS

ENERFLEX SCOPE

1010

Metres

40

1050

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

NEXANS

ENERFLEX SCOPE

1100

Metres

100

1200

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

NEXANS

100

Metres

100

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

NEXANS

120

Metres

120

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

NEXANS

120

Metres

120

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

NEXANS

240

Metres

280

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

NEXANS

250

Metres

250

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

NEXANS

250

Metres

250

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

NEXANS

250

Metres

250

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

Page 2 of 5

40

Reference Drawing / Document No

Remarks

Rev. R01

Customer:

Rev

Date

Prepared

Checked

Approved

R01

09-Aug-2012

A. Tejumola

C. Emu

M. Kulkarni

Base Quantity

Unit

Contingency (Spare)

Total Quantity

Reference Drawing / Document No

NEXANS

340

Metres

20

360

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

340

Metres

20

360

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

240

Metres

20

260

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

300

Metres

20

320

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

50

Metres

50

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

50

Metres

50

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

120

Metres

120

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

360

Metres

400

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

120

Metres

120

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

NEXANS

240

Metres

240

SDA-S17893-AGBG1-EA-8801-00001-001, SDAS17893-AGBG1-EA-4308-00001

Reason for Issue

DOMGAS PROJECT (AGBADA NAG )

Project: Project No:

S/N

Document No.

38

39

Brief Material Description Manufacturer

3C x 25mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (HP & LP Flare Ignition Panel Feeder Cables) 3C x 2.5mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Gas Metering skid Feeder Cables) 3C x 4mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Diesel and Gas generators bettery chargers Feeder Cables) 3C x 4mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Analyser House JB Feeder Cables) 4C x 25mm2 600/1000V XLPE/PVC Copper Cable: Brown, Black, Grey, Blue (UPS Distribution Board Feeder Cable) 4C x 10mm2 600/1000V XLPE/PVC Copper Cable: Brown, Black, Grey, Blue (MCC Building UPS Distribution Board Feeder Cable) 3C x 4mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Generator House Lighting Junction Boxes Feeder Cable) 3C x 4mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Compressor shed Lighting Junction Boxes Feeder Cable) 3C x 4mm2 600/1000V XLPE/SWA/PVC Copper Cable: Brown, Blue, Green/Yellow (Chemical shed Lighting Junction Box Feeder Cable) 30 Pair 1.5mm2 XLPE insulated, individual & overall screened, LSZH (Low smoke Zero halogen) sheathed, armoured instrument copper cables 500V Copper Cable (Generators to Synchronisation cabinet, Main switchboard to emergency switchboard)

MFR Part No.

Page 2 of 5

40

Remarks

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

Refer to SDA-S17893-AGBG1-EA7771-00010-001 for cables specification

Rev. R01

Customer:

Rev

Date

Prepared

Checked

Approved

R01

09-Aug-2012

A. Tejumola

C. Emu

M. Kulkarni

Contingency (Spare)

Total Quantity

Reason for Issue

DOMGAS PROJECT (AGBADA NAG )

Project: Project No:

S/N

Document No.

Brief Material Description Manufacturer

MFR Part No.

Base Quantity

Unit

Reference Drawing / Document No

Remarks

CABLE GLANDS 1

M50 Hazardous Area Type Cable Gland

Hawke

501/453/RAC/D/M50

100

PCS

100

2

M40 Hazardous Area Type Cable Gland

Hawke

501/453/RAC/C2/M40

128

PCS

128

3

M32 Hazardous Area Type Cable Gland

Hawke

501/453/RAC/C//M32

150

PCS

150

4

M25 Hazardous Area Type Cable Gland

Hawke

501/453/RAC/B//M25

200

PCS

200

5 6 7 8

M20 Hazardous Area Type Cable Gland M20 Hazardous Area Type Cable Gland Earth Tags Heavy Duty Locknuts

Hawke Hawke Hawke Hawke

501/453/RAC/A/M20 501/453/RAC/O/M20 Earth Tag/M50 Locknut/M50

200 200 3 5

PCS PCS PCS PCS

200 200 3 5

9

Serrated Washer

Hawke

Serrated Washer/M50

5

PCS

5

10 11

Earth Tags Heavy Duty Locknuts

Hawke Hawke

Earth Tag/M40 Locknut/M40

64 128

PCS PCS

64 128

12

Serrated Washer

Hawke

Serrated Washer/M40

128

PCS

128

19 38

PCS PCS

19 38

13 14

Earth Tags Heavy Duty Locknuts

Hawke Hawke

Earth Tag/M32 Locknut/M32

15

Serrated Washer

Hawke

Serrated Washer/M32

38

PCS

38

16 17

Earth Tags Heavy Duty Locknuts

Hawke Hawke

Earth Tag/M25 Locknut/M25

50 95

PCS PCS

50 95

18

Serrated Washer

Hawke

Serrated Washer/M25

95

PCS

95

19 20

Earth Tags Heavy Duty Locknuts

Hawke Hawke

Earth Tag/M20 Locknut/M20

190 370

PCS PCS

190 370

21

Serrated Washer

Hawke

Serrated Washer/M20

370

PCS

370

22

M50 PVC Shroud

Hawke

PVC Shroud/D

8

PCS

8

23

M40 PVC Shroud

Hawke

PVC Shroud/C2

130

PCS

130

24

M32 PVC Shroud

Hawke

PVC Shroud/C

40

PCS

40

25

M25 PVC Shroud

Hawke

PVC Shroud/B

105

PCS

105

26

M20 PVC Shroud

Hawke

PVC Shroud/A

170

PCS

170

27

M20 PVC Shroud

Hawke

PVC Shroud/O

200

PCS

200

28

M63 Hazardous Area Type Cable Gland c/w washer, lockenuts

Hawke

501/453/RAC/D/M63

24

PCS

Page 2 of 5

4

28

Rev. R01

Customer:

Rev

Date

Prepared

Checked

Approved

R01

09-Aug-2012

A. Tejumola

C. Emu

M. Kulkarni

Base Quantity

Unit

Contingency (Spare)

Total Quantity

Burndy /3M/T&B

100

PCS

100

Burndy /3M/T&B

40

PCS

40

Burndy /3M/T&B

20

PCS

20

Burndy /3M/T&B

20

PCS

20

Burndy /3M/T&B

30

PCS

30

Burndy /3M/T&B

30

PCS

30

Burndy /3M/T&B

60

PCS

60

Burndy /3M/T&B

120

PCS

120

Burndy /3M/T&B

60

PCS

60

Burndy /3M/T&B

30

PCS

30

Burndy /3M/T&B

60

PCS

60

Burndy /3M/T&B

230

PCS

230

Burndy /3M/T&B

1100

PCS

1100

Reason for Issue

DOMGAS PROJECT (AGBADA NAG )

Project: Project No:

S/N

Document No.

Brief Material Description Manufacturer

MFR Part No.

Reference Drawing / Document No

Remarks

CABLE LUGS 1 2 3 4 5 6 7 8 9 10 11 12 13

500mm2 Compression type cable Lug (for copper conductor) 400mm2 Compression type cable Lug (for copper conductor) 120mm2 Compression type cable Lug (for copper conductor) 95mm2 Compression type cable Lug (for copper conductor) 70mm2 Compression type cable Lug (for copper conductor) 50mm2 Compression type cable Lug (for copper conductor) 35mm2 Compression type cable Lug (for copper conductor) 25mm2 Compression type cable Lug (for copper conductor) 16mm2 Compression type cable Lug (for copper conductor) 10mm2 Compression type cable Lug (for copper conductor) 6mm2 Compression type cable Lug (for copper conductor) 4mm2 Compression type cable Lug (for copper conductor) 2.5mm2 Compression type cable Lug (for copper conductor)

CABLE TRAY Electrical Building 1 2 3

750mm Hot Dip Galvanised Ladder Cable Tray Straight Section 600mm Hot Dip Galvanised Ladder Cable Tray Straight Section 150mm Hot Dip Galvanised Ladder Cable Tray Straight Section

SWIFTS

PL 750 G

36

Metres

36

SDA-S17893-AGBG1-EA-8801-00003-001

SWIFTS

PL 600 G

15

Metres

15

SDA-S17893-AGBG1-EA-8801-00003-001

SWIFTS

PL 150 G

60

Metres

60

SDA-S17893-AGBG1-EA-8801-00003-001

4

750mm Hot Dip Galvanised Coupler Sets

SWIFTS

PC G

13

PCS

13

SDA-S17893-AGBG1-EA-8801-00003-001

5

600mm Hot Dip Galvanised Coupler Sets

SWIFTS

PC G

6

PCS

6

SDA-S17893-AGBG1-EA-8801-00003-001

6

150mm Hot Dip Galvanised Coupler Sets

SWIFTS

PC G

20

PCS

20

SDA-S17893-AGBG1-EA-8801-00003-001

7

Fitting to Straight Length Fastner Sets

SWIFTS

LF G M10P50

200

PCS

200

SDA-S17893-AGBG1-EA-8801-00003-001

8

Cable Tie

50

PKT

50

SDA-S17893-AGBG1-EA-8801-00003-001

9

Earth Continuity Connectors

SWIFTS

30

PCS

30

SDA-S17893-AGBG1-EA-8801-00003-001

10

750mm x 900 Horizontal Bend

SWIFTS

PFB 750 90 600 G

5

PCS

5

SDA-S17893-AGBG1-EA-8801-00003-001

11

600mm x 900 Horizontal Bend

SWIFTS

PFB 600 90 600 G

2

PCS

2

SDA-S17893-AGBG1-EA-8801-00003-001

12

750mm x 900 Vertical Outside Bend

SWIFTS

POR 750 90 600 G

5

PCS

5

SDA-S17893-AGBG1-EA-8801-00003-001

13

600mm x 900 Vertical Outside Bend

SWIFTS

POR 600 90 600 G

1

PCS

1

SDA-S17893-AGBG1-EA-8801-00003-001

Page 2 of 5

Rev. R01

Customer:

Rev

Date

Prepared

Checked

Approved

R01

09-Aug-2012

A. Tejumola

C. Emu

M. Kulkarni

Contingency (Spare)

Total Quantity

Reference Drawing / Document No

Reason for Issue

DOMGAS PROJECT (AGBADA NAG )

Project: Project No:

S/N

Document No.

Brief Material Description Manufacturer

MFR Part No.

Base Quantity

Unit

14

750mm x 600mm Horizontal Straight Reducer

SWIFTS

PSR 750 600 G

1

PCS

1

SDA-S17893-AGBG1-EA-8801-00003-006

15

750mm Dropout Plate

SWIFTS

DO 750 G

15

PCS

15

SDA-S17893-AGBG1-EA-8801-00003-002

16

600mm Dropout Plate

SWIFTS

DO 600 G

15

PCS

15

SDA-S17893-AGBG1-EA-8801-00003-003

17

Hold Down Clip

SWIFTS

PF G

60

PCS

60

SDA-S17893-AGBG1-EA-8801-00003-004

18

Tee Brackets

SWIFTS

PTB G

40

PCS

40

SDA-S17893-AGBG1-EA-8801-00003-005

SWIFTS

PL 150 G

134

PCS

13

147

SWIFTS

PL 300 G

22

PCS

2

24

SWIFTS

PL 450 G

34

PCS

4

38

SWIFTS

PL 600 G

64

PCS

6

70

SWIFTS

CV 150 G

160

PCS

13

173

SWIFTS

CV 300 G

22

PCS

2

24

SWIFTS

CV 450 G

34

PCS

4

38

SWIFTS

CV 600 G

64

PCS

12

76

Remarks

CABLE TRAY Pipe Rack 1 2 3 4 5 6 7 8

150mm Hot Dip Galvanised Cable Ladder - Straight Section (3m Length) 300mm Hot Dip Galvanised Cable Ladder - Straight Section (3m Length) 450mm Hot Dip Galvanised Cable Ladder - Straight Section (3m Length) 600mm Hot Dip Galvanised Cable Ladder - Straight Section (3m Length) Hot Dip Galvanised Cover for 150 ladder (3m Length) Hot Dip Galvanised Cover for 300 ladder (3m Length) Hot Dip Galvanised Cover for 450 ladder (3m Length) Hot Dip Galvanised Cover for 600 ladder (3m Length)

9

Hot Dip Galvanised Hot Dip Galvanised Coupler Sets

SWIFTS

PC G

470

PCS

30

500

10

Hot Dip Galvanised Hot Dip Galvanised Bendable Connectors

SWIFTS

PHG

85

PCS

15

100

11

Hot Dip Galvanised Fastner Sets

SWIFTS

LF G M10P50

3000

PCS

250

3250

12

Hot Dip Galvanised Vertical Splice Connector

SWIFTS

PV G

400

PCS

40

440

13

Hot Dip Galvanised 150mm x 900 Horizontal Bend

SWIFTS

PFB 150 90 600 G

34

PCS

4

38

14

Hot Dip Galvanised 150mm x 450 Horizontal Bend

SWIFTS

PFB 150 45 600 G

18

PCS

2

20

15

Hot Dip Galvanised 150mm x 300 Horizontal Bend

SWIFTS

PFB 150 30 600 G

10

PCS

16

Hot Dip Galvanised 300mm x 450 Horizontal Bend

SWIFTS

PFB 300 45 600 G

2

PCS

17

Hot Dip Galvanised 450mm x 450 Horizontal Bend

SWIFTS

PFB 450 45 600 G

4

PCS

4

18

Hot Dip Galvanised 600mm x 900 Horizontal Bend

SWIFTS

PFB 600 90 600 G

6

PCS

6

SWIFTS

FB CV 150 90 600 G

34

PCS

4

38

SWIFTS

FB CV 150 45 600 G

18

PCS

2

20

SWIFTS

FB CV 150 30 600 G

10

PCS

10 2

4

0

19 20 21

Hot Dip Galvanised 150mm x 90 Horizontal Bend Cover Hot Dip Galvanised 150mm x 450 Horizontal Bend Cover Hot Dip Galvanised 150mm x 300 Horizontal Bend Cover

Page 2 of 5

10 Rev. R01

Customer:

Rev

Date

Prepared

Checked

Approved

R01

09-Aug-2012

A. Tejumola

C. Emu

M. Kulkarni

Reason for Issue

DOMGAS PROJECT (AGBADA NAG )

Project: Project No:

S/N

Document No.

22 23 24

Brief Material Description

Hot Dip Galvanised 300mm x 450 Horizontal Bend Cover Hot Dip Galvanised 450mm x 450 Horizontal Bend Cover Hot Dip Galvanised 600mm x 900 Horizontal Bend Cover

Manufacturer

MFR Part No.

Base Quantity

Unit

Contingency (Spare)

Total Quantity

SWIFTS

FB CV 300 45 600 G

2

PCS

2

4

SWIFTS

FB CV 450 45 600 G

4

PCS

4

SWIFTS

FB CV 600 90 600 G

6

PCS

6

25

Hot Dip Galvanised 600mm x 600mm Horizontal Tee

SWIFTS

PT 600 600 R G

3

PCS

3

26

Hot Dip Galvanised 600mm x 600mm Horizontal Tee Cover

SWIFTS

T CV 600 600 R G

3

PCS

3

27

Hot Dip Galvanised 150mm x 150mm Horizontal Tee

SWIFTS

PT 150 600 R G

1

PCS

1

SWIFTS

T CV 150 600 R G

1

PCS

1

SWIFTS

LF G M10P50

6250

PCS

650

6900

SWIFTS

RC10

50

PCS

50

100

30

Hot Dip Galvanised 150mm x 150mm Horizontal Tee Cover M10 Bolt and Nut for Clamp to Ladder (Comprise M10 coach bolt, flat washer, spring washer and nut) spring washer and nut Threaded rod M10

31

Threaded rod M10 Connector

SWIFTS

TR10

50

PCS

50

100

32

Tee Brackets

SWIFTS

PTB G

50

PCS

20

70

33

150mm Dropout Plate

SWIFTS

DO 150 G

20

PCS

20

34

300mm Dropout Plate

SWIFTS

DO 300 G

20

PCS

20

35

450mm Dropout Plate

SWIFTS

DO 450 G

20

PCS

20

36

600mm Dropout Plate

SWIFTS

DO 600 G

10

PCS

10

37

Earth Continuity Connectors

SWIFTS

PLFEB

1000

PCS

1000

38

Hold Down Clip

SWIFTS

PF G

100

PCS

100

39

Hold Down Bracket

SWIFTS

PJ G

100

PCS

100

40

Boltable Hold Down Bracket

SWIFTS

PN G

100

PCS

100

41

Boltable Angled Hold Down Brackets

SWIFTS

PP G

100

PCS

100

42

Flexible Expansion Couplers

SWIFTS

PE G

100

PCS

100

43

Rail-to-Rail Dropout Brackets

SWIFTS

MG

100

PCS

100

44

Ancillary Mounting Bracket

SWIFTS

AMB 150 G

50

PCS

45

Ancillary Mounting Bracket

SWIFTS

AMB 300 G

50

PCS

46

Ancillary Mounting Bracket

SWIFTS

AMB 450 G

50

PCS

75

125

47

Ancillary Mounting Bracket

SWIFTS

AMB 600 G

50

PCS

50

100

48

Ancillary Mounting Plate

SWIFTS

MP G

100

PCS

40

140

49

UV Resistant Cable Tie

LEGRAND

0319 13

50

PKT

28 29

Page 2 of 5

4

Reference Drawing / Document No

Remarks

54 50

50 Rev. R01

Customer:

Rev

Date

Prepared

Checked

Approved

R01

09-Aug-2012

A. Tejumola

C. Emu

M. Kulkarni

Contingency (Spare)

Total Quantity

Reason for Issue

DOMGAS PROJECT (AGBADA NAG )

Project: Project No:

S/N

Document No.

Brief Material Description Manufacturer

MFR Part No.

Base Quantity

Unit

Reference Drawing / Document No

50

UV Resistant Cable Tie

LEGRAND

0319 16

50

PKT

50

51

UV Resistant Cable Tie

LEGRAND

0319 19

50

PKT

50

52

UV Resistant Cable Tie

LEGRAND

0319 20

50

PKT

50

53

UV Resistant Cable Tie

LEGRAND

0319 21

50

PKT

50

54

UV Resistant Cable Tie

LEGRAND

0319 22

50

PKT

50

55

UV Resistant Cable Tie

LEGRAND

0319 25

50

PKT

50

56

Tool for Colson Cable Ties

LEGRAND

0319 96

2

PCS

2

ABB

2CMA163737R1000

1

PCS

2

SDA-S17893-AGBG1-EA-4025-00001-001

ABB

2CMA163735R1000

1

PCS

1

SDA-S17893-AGBG1-EA-4025-00001-001

SDA-S17893-AGBG1-EA-4018-00001-001

Remarks

WELDING SOCKET 1 2

400VAC, 50Hz, 125A Industrial Welding Socket, Ex II, IP67, c/w bolts & nuts 230VAC, 50Hz, 125A Industrial Welding Socket, Ex II, IP67, c/w bolts & nuts

OTHERS 1

9Kg Portable CO2 Fire Extinguisher

6

PCS

6

2

9Kg Portable Dry Chemical Powder Fire Extinguisher

2

PCS

2

3

Portable eye wash station (for battery room)

1

PCS

1

Page 2 of 5

SDA-S17893-AGBG1-EA-4018-00001-001

Rev. R01

Contract No.

CUSTOMER

UNIT

PLANT LOCATION AGBADA NAG Sheet

PROJECT DOMGAS

Revision

2 of 5

C01

TECHNICAL DATA SHEET FOR GAS ENGINE GENERATING SET - Quantity No. :

Generator Tags : G-8201A/B/C

3

Purpose : POWER GENERATION

DESIGN DATA Rated Power :

1914

kVA

6.6

kV ±

Rated voltage (Un) :

with lagging power factor : 5 % - Frequency :

- N. of poles :

4

% - N. of phases :

3

0.8

50 Hz ± 2

Shape : Duty :

System Neutral Point

Continuous

-

Insulated

- Earthed

Earthed by resistance Air

GENERATOR DATA

Cooling System

Solid Earthed

- Water

Water type : STA

Inlet pressure :

m2°C/W

-Fouling factor : STA

kPa - Inlet temperature :

Max. loss of pressure :

°C

kPa - Max. temperature stage :

°C

Self lubrication - Independent forced lubrication Lubrication Forced lubrication from driving machine System Execution & Degree of Protection Starting Method

Excitation Type EXCITATION AND CONTROL SYSTEM DATA

LOCATION ELECTRIC SYSTEM DATA

IP 54

Enclosure :

IP 55 Terminal boxes : Instrument and auxiliaries :

IP 55

Air Start

Battery start

Pneumatic Start

Hydraulic Start

Brushless

Battery Type:

- With permanent magnet generator (PMG)

Voltage regulated

±

Excitation Short circuit sustained CharacterVoltage regulator range : istics Speed response :

% % In per

300 ± s

6.6

Max./min. short circuit power :

kV ± 10 25

% - Frequency :

50

Hz ±

-

Coupling type:

No

Baseplate : Common

- Not common

Lube oil system for generator :

No

- Yes - Yes

5

%

KA - Rated Power :

- Gear

I = mr2 kgm2 Axial thrust toward motor :

STA = SUPPLIER TO ADVISE

s

- Regulation accuracy :

Type :

DRIVING MACHINE DATA

3

%

- Outdoor

Operational voltage (Ue) :

Coupling : Direct

- Static

- Power factor regulated

- Reactive power regulated

Current compensate

Indoor

Ni-Cd Others

kg -

1531

kW

CUSTOMER

Contract No.

UNIT

PLANT LOCATION

0

AGBADA NAG PROJECT

Sheet DOMGAS

Revision

3 of 5

C01

TECHNICAL DATA SHEET FOR GAS ENGINE GENERATING SET - Quantity No. :

Tags : G-8201A/B/C

3

DESIGN DATA Connecti Direct on to Network Reference diagram :

CONNECTION DETAILS

Through busways Power Through cables Connecti on

- Type : - Type :

3C x 70mm2

-

Normal Isolate Operation In parallel

- with generators

WORKING CONDITION

Transien t

Maximum voltage variation for application of steps of load

-

- with external network ACTUAL RUNNING LOAD kVA

Cos f

1914

0.8

APPLIED LOAD kVA 1914

Cos f

VOLTAGE DROP Max. Transient %

0.8

-

Short Cct In case of bolted short circuit at the machine terminals, generator shall supply a minimum Performa short circuit current of 100 % rated current for 1 s. nces

AUXILLARY SUPPLY

Controls:

24 V DC-

Hz -

Signallings/ Alarms :

24 VDC -

Hz -

EQUIPMENT

Pos.

ACCESSORY AND ANCILLARY EQUIPMENT

CONTROL & TRIP DEVICES

Pos.

1.1

Space heaters

2.1

Air filter working order

1.2

Star center CT

2.2

Cooling fluid circulation

1.3

Voltage regulator

2.3

Internal over-pressure

1.4

Excitation system

2.4

1.5

Lube oil system

2.5

1.6

Winding temperature detectors

2.6

1.7

Bearing temperature detectors

2.7

1.8

Foundation slab and bolts

2.8

1.9

2.9

1.10

2.10

1.11

2.11

1.12

2.12

1.13

2.13 Line and start Point Panel Generator Control Panel

CONTROL PANELS

Protection Relays as per protection and metering single line diagram

STA = SUPPLIER TO ADVISE

2

Contract No:

CUSTOMER

UNIT

PLANT LOCATION

0

AGBADA NAG PROJECT / UNIT

Sheet DOMGAS

Revision

4 of 5

C01

TECHNICAL DATA SHEET FOR GAS ENGINE GENERATING SET - Quantity No. :

Tags : G-8201A/B/C

3

CONSTRUCTION DATA Mfr. & construction type : Rated current :

200

1500

RPM :

Windings connection :

A150%

- Overspeed : Star

- Terminals number :

Stator insulation class :

F

- Temperature rise :

B

Rotor insulation class :

F

- Temperature rise :

B

Overall noise level :

82

COS PHI

-

dB(A) at 1 metre 100

Maximum power output with one fan out of service :

CONVENTIONAL EFFICIENCY

CW

% - Rotation (1) :

- Delta

4/4 LOAD

3/4 LOAD

% Rated power

VOLTAGE VARIATION ON FULL LOAD AT NO LOAD CONDITION WITH CONSTANT EXCITATION AND SPEED

1/2 LOAD

0.98

COS PHI

DELTA V%

0.8

STA

Short circuit ratio : SUBTRANSIENT Saturated

SYNCHRONOUS

TRANSIENT

Not Saturated

Saturated

Not Saturated Saturated Not Saturated

REACTANCE

DIRECT

0.15%

Subtransient (Td") :

0.08%

0.04

s - open circuit (Tdo') :

s-

TIME CONSTANTS

Reactive power at Cos f = 0 e Un :

under exciting

kVAR - over exciting

kVAR

Type : EXCITATION AND CONTROL SYSTEM

BEARINGS TYPE

Characteristics :

DE : NDE: Grease

LUBRICANT

- Oil

- Type :

Quality for first filling :

50 kPa -

Inlet pressure : POWER TERMINAL BOXES

AUXILIARIES TERMINALS

- Viscosity :

kg - Oil flow :

Position (1) :

Star point terminal box :

Connection :

Cable gland plate

POSITION (1): LEFT (DE)

STA = SUPPLIER TO ADVISE

-

ISO VG32

2 X 30 l/min - Lubricating interval :

JUST BEFORE ENTRANCE OF BEARING LEFT (DE) - line terminal box :RIGHT (DE)

h

Contract No:

CUSTOMER

UNIT

PLANT LOCATION

0

AGBADA NAG Sheet

PROJECT

5 of 5

DOMGAS

Revision C01

TECHNICAL DATA SHEET FOR GAS ENGINE GENERATING SET Tags : G-8201A/B/C

- Quantity No. :

3

CONSTRUCTION DATA Quantity : COOLERS

FILTERS

1

- Independent 3

Cooling water flow :

m /s Position on generator frame : Quantity N. : 1

- Position :

- Type :

Enclosure dimensions : STA I = mr2 kgm2 Axial thrust toward driven machine No :

- Yes

Maximum dimensions : Length

m - width

Masses :

Total

Painting :

Colour

STA

STA

kg STA

kg - rotor

m - height

kg - Lift mass : - cycle

ACCESSORY AND ANCILLARY EQUIPMENT Pos.

Qty.

Notes: STA = SUPPLIER TO ADVISE

CONSTRUCTION CHARACTERISTICS

STA kg -

CUSTOMER

Contract No.

UNIT

PLANT LOCATION AGBADA NAG Sheet

PROJECT DOMGAS PROJECT

Revision

2 of 5

C01

TECHNICAL DATA SHEET FOR EMERGENCY DIESEL GENERATOR Generator Tags :

G-8301

- Quantity No. :

1

Purpose : POWER GENERATION

DESIGN DATA 500

Rated Power :

kVA

0.400

Rated voltage (Un) :

kV ± 5

with lagging power factor : 50Hz ± 2 % - Frequency : %

0.8 - N. of poles :

4

- N. of phases : 3

Shape : Duty :

System Neutral Point

Continuous

-

Insulated

- Earthed

Earthed by resistance Air

GENERATOR DATA

Cooling System

- Water

Water type : 0.12

Inlet pressure : Max. loss of pressure :

Excitation Type EXCITATION AND CONTROL SYSTEM DATA

ELECTRIC SYSTEM DATA

Battery start

Pneumatic Start

Hydraulic Start

Brushless

Battery Type:

- With permanent magnet generator (PMG)

±

% 300

Voltage regulator range :

- Static

- Power factor regulated

- Reactive power regulated

Short circuit sustained

Indoor

Ni-Cd Others

% In per

±

3

s

% s

- Regulation accuracy :

- Outdoor

Operational voltage (Ue) :

0.400

Max./min. short circuit power :

kV ± 5 40

% - Frequency :

50

Hz ± 2

- Rated Power : Direct

- Gear

-

Coupling type:

STA I = mr2 kgm2 Axial thrust toward motor :

No

Baseplate : Common

- Not common

Lube oil system for generator :

No

STA = SUPPLIER TO ADVISE

- Yes - Yes

%

KA -

Type :

DRIVING MACHINE DATA

°C

IP 55

Air Start

Current compensate

Coupling :

°C 43

kPa - Standard Ambient Temp :

- Independent forced lubrication

Speed response : LOCATION

10

kPa - Inlet temperature : STA

Voltage regulated Excitation Characteristics

m2°C/W

-Fouling factor :

Forced lubrication from driving machine

IP 54 Execution & Enclosure : IP 55 Degree of Terminal boxes : Protection Instrument and auxiliaries : Starting Method

Stand-by

Solid Earthing

Self lubrication Lubrication System

Emergency

kg -

STA

400

kW

CUSTOMER

Contract No.

UNIT

PLANT LOCATION

0

AGBADA NAG Sheet 3 of 5

PROJECT DOMGAS

Revision C01

TECHNICAL DATA SHEET FOR EMERGENCY DIESEL GENERATOR Tags : G-8301

DESIGN DATA Direct Connection to Network

-kV

- Vsc %

- kVA

Reference diagram :

CONNECTION DETAILS

Power Connection

Normal Operation

Through busways

- Type :

Through cables

- Type :

Isolate

-

In parallel

- with generators

2nos 4C x 240mm2

WORKING CONDITION

Transient

-

- with external network ACTUAL RUNNING LOAD

Maximum voltage variation for application of steps of load

APPLIED LOAD

VOLTAGE DROP

kVA

Cos f

kVA

Cos f

Max. Transient %

500

0.8

500

0.8

2

-

In case of bolted short circuit at the machine terminals, generator shall supply a minimum Short Cct short circuit current of Performances

AUXILLARY SUPPLY

% rated current for

Controls:

24 VDC -

Hz -

Signallings/ Alarms :

24 VDC -

Hz -

EQUIPMENT

Pos.

ACCESSORY AND ANCILLARY EQUIPMENT

100

1

CONTROL & TRIP DEVICES

Pos.

1.1

Space heaters

2.1

Air filter working order

1.2

Star center CT

2.2

Cooling fluid circulation

1.3

Voltage regulator

2.3

Internal over-pressure

1.4

Excitation system

2.4

1.5

Lube oil system

2.5

1.6

Winding temperature detectors

2.6

1.7

Bearing temperature detectors

2.7

1.8

Foundation support and bolts

2.8

1.9

2.9

1.10

2.10

1.11

2.11

1.12

2.12

1.13

s.

2.13 Line and start Point Panel Generator Control Panel

CONTROL PANELS

Protection Relays as per protection and metering single line diagram

JOB

CUSTOMER

UNIT

PLANT LOCATION

0

AGBADA NAG Sheet

PROJECT DOMGAS

Revision

4 of 5

C01

TECHNICAL DATA SHEET FOR EMERGENCY DIESEL GENERATOR Tags : G-8301

CONSTRUCTION DATA Mfr. & construction type : 800

Rated current : 1500

RPM : Windings connection :

A150

- Overspeed : Star

- Terminals number :

Stator insulation class :

F

- Temperature rise :

B

Rotor insulation class :

F

- Temperature rise :

B

Overall noise level :

85

COS PHI

-

dB(A) at 1 metre -

Maximum power output with one fan out of service :

CONVENTIONAL EFFICIENCY

CW

% - Rotation (1) :

- Delta

4/4 LOAD

% Rated power

3/4 LOAD

1/2 LOAD

VOLTAGE VARIATION ON FULL LOAD AT NO LOAD CONDITION WITH CONSTANT EXCITATION AND SPEED

0.93

COS PHI

DELTA V%

0.8

STA

Short circuit ratio : SUBTRANSIENT

SYNCHRONOUS

TRANSIENT

Saturated

Not Saturated

0.15

0.08

Saturated

Not Saturated

Saturated

Not Saturated

REACTANCE

DIRECT

0.04

Subtransient (Td") :

s - open circuit (Tdo') :

s-

TIME CONSTANTS

Reactive power at Cos f = 0 e Un :

under exciting

kVAR - over exciting

kVAR

Type : EXCITATION AND CONTROL SYSTEM

BEARINGS TYPE

Characteristics :

DE : NDE: Grease

LUBRICANT

- Oil

Quality for first 40 filling : Inlet pressure :

POWER TERMINAL BOXES

AUXILIARIES TERMINALS

- Type :

Position (1) : Connection :

- Viscosity :

kg - Oil flow : 50 kPa -

Star point terminal box :400 Cable gland plate

POSITION (1): LEFT (DE)

STA = SUPPLIER TO ADVISE

-

ISO VG 32

2 X 30 l/min - Lubricating interval :

JUST BEFORE ENTRANCE OF BEARING LEFT (DE) - line terminal box :

RIGHT (DE)

h

JOB

CUSTOMER

UNIT

PLANT LOCATION

0

AGBADA NAG Sheet

PROJECT DOMGAS

5 of 5

Revision C01

TECHNICAL DATA SHEET FOR EMERGENCY DIESEL GENERATOR Tags : G-8301

CONSTRUCTION DATA Quantity N. : COOLERS

ONE (1) - Independent m3/s

Cooling500 water flow : Position on generator frame :

FILTERS

Quantity N. :

1

- Type :

- Position :

Enclosure dimensions : STA I = mr2 kgm2 Axial thrust toward driven machine : Maximum dimensions : Masses :

Total

Painting :

Colour

Length STA

No STA

- Yes

kg

mm - width

STA

kg - rotor

-

mm - height kg - Lift mass :

- cycle

ACCESSORY AND ANCILLARY EQUIPMENT Pos.

Qty.

CONSTRUCTION CHARACTERISTICS

STA = SUPPLIER TO ADVISE

STA

mm kg -

DOMESTIC GAS PROJECT

OWNER:

CONTRACTOR:

AGBADA NAG

DATA SHEET FOR 6.6KV SWITCHGEAR AND CONTROLGEAR ASSEMBLIES

Details A

REV.: C01

PAGE 2 of 5

CLIENT Requirements

Vendor Response

APPLICABLE SPECIFICATION & STANDARD SPECIFICATIONS

SPEC

MANUFACTURING STANDARD

IEC STANDARDS

SWITCHGEAR TAG NO.

SB100D1

SINGLE LINE DIAGRAM

ATTACHED

B

LOCATION/QUANTITY:

INDOOR/ ONE (1)

C

SERVICE/SITE CONDITIONS

1

DESIGN AMBIENT TEMPERATURE (Max./Min.)

43 OC/180C

2

SITE ALTITUDE

SEA LEVEL

3

RELATIVE HUMIDITY (Max.)

100%

4

ANNUAL RAINFALL

3800 mm (AVERAGE)

5

ENVIORNMENT

HUMID

D

CONSTRUCTION

1

INTERRUPTING MEDIUM (SF6/ VACUUM/ OTHERS)

VACUUM

2

ARRANGEMENT (SINGLE/ DOUBLE ROW)

VTA

3

TYPE- ARC RESISTANCE (AIS/ GIS)

AIR INSULATED SWITCHGEAR (AIS)

4

POWER CABLE ENTRY (BOTTOM/ TOP)

BOTTOM

5

CONTROL CABLE ENTRY (BOTTOM/TOP)

BOTTOM

6

INGRESS PROTECTION

IP42

7

EXTENDABLE (RIGHT/ LEFT/ BOTH)

BOTH

8

BASE FRAME REQUIRED (YES/ NO)

YES

9

TYPE OF ENCLOSURE (METAL/ INSULATED ENCLOSED)

METAL ENCLOSED (ARC RESISTANT)

10

SHUTTER MARKING, COVER AND DOORS

AS PER SPEC

E

SYSTEM PARTICULARS

1

VOLTAGE

6600V

± 10%

2

FREQUENCY

50 Hz

± 5%

3

NO. OF PHASES / WIRE

3 PHASE / 3 WIRE

4

SYSTEM GROUNDING (ISOLATED/ SOLID/ IMPEDANCE EARTHED

NER

5

CONTINUOUS RATING

600A

6

SHORT TIME WITHSTAND CURRENT

25 kA FOR 1 SEC, 3-Ph, SYMM.

7

PEAK WITHSTAND CURRENT

63 kA FOR 1 SEC

8

NUMBER OF BUS SECTIONS (1/ 2/ 3)

VTA

30

Ohms

DOMESTIC GAS PROJECT

OWNER:

CONTRACTOR:

AGBADA NAG

DATA SHEET FOR 6.6KV SWITCHGEAR AND CONTROLGEAR ASSEMBLIES

Details

REV.: C01

PAGE 3 of 5

CLIENT Requirements

Vendor Response

F

MAIN BUSBAR

1

CONDUCTOR (Cu/ Al)

SPEC

2

BARE/ INSULATED

INSULATED

3

LOCATION (TOP/BOTTOM)

TOP ATTACHED

G

SPECIAL REQUIREMENTS

1

PAINTING TYPE AND SHADE

AS PER SPEC

2

METERING AND PROTECTION FUNCTIONS

AS PER SPEC

3

INTERFACE WITH DCS SYSTEM

YES - AS PER SPEC

H

CONTROL/AUXILIARY SUPPLY

1

MAIN CONTACTOR COIL

VTA

2

CIRCUIT BREAKER CLOSING & TRIPPING COIL

110VDC

3

PROTECTIVE RELAY

VTA

4

PANEL & MOTOR SPACE HEATER

230VAC

5

SPRING CHARGER MOTOR

VTA

6

CB TRIP TIME MONITORING

YES

8

RR/TRM RELAY REQUIRED

YES

I

ACCESSORIES

1

SPACE HEATER REQUIRED

YES

2

MOUNTING CHANELLS (YES/ NO)

YES

3

LIFTING EYE BOLTS (YES/NO)

YES

4

HANDLING TRUCK (YES/ NO)

YES

5

SAFETY DEVICES (YES/ NO)

YES

6

SURGE ARRESTER (YES/ NO)

YES

J

INSPECTION AND TESTING FAT WITNESS (YES/ NO)

YES

ROUTINE TESTS (YES/ NO)

REQUIRED

TYPE TEST CERTIFICATE SUBMISSION

REQUIRED

SPECIAL TESTS (YES/ NO)

NO

DOMESTIC GAS PROJECT

OWNER:

CONTRACTOR:

AGBADA NAG

DATA SHEET FOR 6.6KV SWITCHGEAR AND CONTROLGEAR ASSEMBLIES

Details K

REV.: C01

PAGE 4 of 5

CLIENT Requirements

Vendor Response

DETAILS OF NER QUANTITY

SPEC

SPACE HEATER (YES/ NO)

YES

TAG #

RR-01

COOLING

ATTACHED

SYSTEM VOLTAGE (L-L)

6.6KV

RESISTOR VOLTAGE (L-N)

3.8KV

CURRENT RATING

160A

TIME RATING

10SEC

ENCLOSURE IP RATING

IP56

RESISTOR MATERIAL

STAINLESS STEEL

MOUNTING

FLOOR MOUNTED

HV CABLE SIZE

3CX70mm2, Cu/XLPE/SWA/PVC

EARTHING CABLE SIZE

1C x 70mm2 COPPER

DETAILS OF CT

L

- CT1 (FOR 51G)

YES (VTA)

- CT2 (FOR 64R)

YES (VTA)

INSPECTION AND TESTING FAT WITNESS (YES/ NO)

YES

ROUTINE TESTS (YES/ NO)

REQUIRED

TYPE TEST CERTIFICATE SUBMISSION

REQUIRED

SPECIAL TESTS

TEMPERATURE RISE TEST

M

ADDITIONAL NOTES

1

Vendor shall provide adequate space for termination of incoming and outgoing power cables

2

All termination at 6.6KV shall be done by Heat Shrink termination kits ease of operation. Maximum height of the MCC including base channel shall be 2.3 metres.

3

All label, documentation and equipment tagging shall be in English Language. Switchgear shall be tagged in front and rear sides

4

CT2 in NER and CT in 6.6KV switchgear for restricted earth fault protection of generators 600A shall be of same make and supplied by switchgear vendor

5

CT, PT BURDEN AND ACCURACY CLASS TO BE SELECTED BY VENDOR

DOMESTIC GAS PROJECT

OWNER:

CONTRACTOR:

AGBADA NAG

DATA SHEET FOR 6.6KV SWITCHGEAR AND CONTROLGEAR ASSEMBLIES

Details

REV.: C01

PAGE 5 of 5

CLIENT Requirements

Vendor Response

INFORMATION BY SWITCHGEAR VENDOR N

GENERAL

1

MANUFACTURER NAME

2

TYPE

3

RATED SHORT CIRCUIT STRENGTH

SPEC

ATTACHED

THERMAL

kA for 1s

DYNAMIC 4

TYPE OF ENCLOSURE (METAL/INSULATED)

5

DEGREE OF PROTECTION (IP)

6

TOTAL MASS OF EQUIPMENT

7

CONTROL VOLTAGE

kA crest

CLOSING

V ac/dc

TRIPPING

V dc

8

SPECIFIED TENDER DOCUMENT ATTACHED (YES/ NO)

9

ANY DEVIATIONFROM SEPCIFICATION (LIST IF ANY)

10

TOTAL DIMENSION (LxWxD)

11

SPACE HEATER POWER RATING

mm

INFORMATION BY NER VENDOR O

GENERAL

1

MANUFACTURER NAME

2

OVERALL DIMENSIONS (Lx Wx D)

3

IP RATING

4

OHMIC VALUE

5

VOLTAGE GRADE

6

TEMPERATURE RESISTANCE COEFFICIENT

7

RESISTANCE TOLERANCE

%

8

INSULATION LEVEL

kV

9

TEMPERATURE RISE

0

10

TIME RATING

11

mm

Ohms kV

C

Sec

Data / requisition sheet for

MAIN LV SWITCHBOARD (sheet 2/4) 1 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 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53

Specific requirements Schedule Power system type Electrical supply characteristics Rated current of busbar system Prospective short time withstand current Service conditions Location Special service conditions Pollution degree Special transport conditions Anti condensation heaters required Type of enclosure IMCS required RR/TRM relay bases required Measuring Instruments Transducers required for signals to DCS Type of mounting Framework required Type of fuses Witnessed routine testing / inspection Special tests required Language on equipment Language on documentation

: : : : : : : : : : : : : : : : : : : : : : : :

Design book Contr. job MESC

No. : No. : No. :

SPECIAL REQUIREMENTS AND REMARKS

C.N

Date

EQUIPMENT :

Chked by:

C.E

Date

PLANT :

Appr. by:

M.K

Date

CONSIGNEE :

Eng. by

:

Principal

:

METS

2

REQUIREMENTS AND CONDITIONS General As per Specification - SDA-S17893-AGBG1-EA-7771-00005 and IEC 60439-1 TTN-S / Voltage: 400 V±5% ; Frequency: 50 Hz±2% As per Specification SDA-S17893-AGBG1-EA-7771-00005 (specify details) 2500 A 50 kA/s; n: as per IEC / As per specification - SDA-S17893-AGBG1-EA-7771-00005 Land installation; indoors Arc Resistant Type 3 no yes metal ; multi-cubicle yes (details on sheet 4 of this requisition) no digital Yes freestanding yes Cable entries : incoming: bottom DIN / BS : outgoing: bottom yes Cable gland plate : Undrilled no Glands required : no English Glands type : English Padlock hasp size : 5mm / mm minimum

INFORMATION TO BE SUBMITTED BY MANUFACTURER WITH THE QUOTATION Make and type : Manufacturing location : Assembly : ; Main Components : Rated short-circuit strength : thermal: kA rms, 1s; dynamic: IMCS type : Type of enclosure : Type of mounting : Degree of protection : IP Anti condensation heaters included : yes / no Rain canopy : yes / no Total mass of equipment : kg Specified tender documentation attached : yes / no Any deviations from specification : no (if yes, list deviations) :

Made by:

page:

MAIN LV SWITCHGEAR AGBADA NAG METS

kA crest (see sheet 4)

REMARKS ON REVISIONS

Rev. letter C01 Date 23/05/12 Sign. Sheet No. 2

continued on sheet No. 3

Equipm. No. SB100E1 Req. No.

Data / requisition sheet for

EMERGENCY SWITCHBOARD (sheet 3/4) 1 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 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53

Specific requirements Schedule Power system type Electrical supply characteristics Rated current of busbar system Prospective short time withstand current Service conditions Location Special service conditions Pollution degree Special transport conditions Anti condensation heaters required Type of enclosure IMCS required RR/TRM relay bases required Measuring Instruments Transducers required for signals to DCS Type of mounting Framework required Type of fuses Witnessed routine testing / inspection Special tests required Language on equipment Language on documentation

: : : : : : : : : : : : : : : : : : : : : : : :

Design book Contr. job MESC

No. : No. : No. :

SPECIAL REQUIREMENTS AND REMARKS

C.N

Date

EQUIPMENT :

Chked by:

C.E

Date

PLANT :

Appr. by:

M.K

Date

CONSIGNEE :

Eng. by

:

Principal

:

METS

3

REQUIREMENTS AND CONDITIONS General As per Specification - SDA-S17893-AGBG1-EA-7771-00005 and IEC 60439-1 TTN-S / Voltage: 400 V±5% ; Frequency: 50 Hz±2% As per Specification - SDA-S17893-AGBG1-EA-7771-00005 (specify details) A 1000 40 kA/s; n: as per IEC / As per Specification - SDA-S17893-AGBG1-EA-7771-00005 Land installation; indoors Arc Resistant Type 3 no yes metal ; multi-cubicle yes (details on sheet 4 of this requisition) no digital Yes freestanding yes Cable entries : incoming: bottom DIN / BS : outgoing: bottom yes Cable gland plate : Undrilled no Glands required : no English Glands type : English Padlock hasp size : 5mm / mm minimum

INFORMATION TO BE SUBMITTED BY MANUFACTURER WITH THE QUOTATION Make and type : Manufacturing location : Assembly : ; Main Components : Rated short-circuit strength : thermal: kA rms, 1s; dynamic: IMCS type : Type of enclosure : Type of mounting : Degree of protection : IP Anti condensation heaters included : yes / no Rain canopy : yes / no Total mass of equipment : kg Specified tender documentation attached : yes / no Any deviations from specification : no (if yes, list deviations) :

Made by:

page:

EMERGENCY LV SWITCHBOARD AGBADA NAG METS

kA crest (see sheet 4)

REMARKS ON REVISIONS

Rev. letter C01 Date 23/05/12 Sign. Sheet No. 3

continued on sheet No. 4

Equipm. No. SB100E2 Req. No.

Data / requisition sheet for

LV SWITCHBOARD - IMCS (sheet 4/4) 1 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 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53

Design book Contr. job MESC

No. : No. : No. :

page:

4

(applicable only if IMCS is specified) REQUIREMENTS AND CONDITIONS General Specific requirements As per Specification : FCU's for feeders required : all Optional requirements for motor starters : - auto restart : no - power and power factor monitoring : yes - under current protection : yes - under voltage protection : yes (only with latched contactors) - over temperature protection : yes (Pt100 / thermistor) Optional requirements for feeders : - power and power factor monitoring : yes - overcurrent protection : yes - earthfault protection : yes Redundancy connection CCU - MCU/FCU : yes (specify details as required) Redundancy connection CCU - DCS : yes (specify details as required) Number of Engineering Work Stations (EWS) required : 1 Number of Hand Held Terminals (HHT) required : combined with EWS Electrical supply to MCU / FCU : local UPS supply available : yes Trip supply availability indicator and alarm : yes Make and type of DCS : make: type: : Witnessed inspection required : yes Site installation : yes : Commissioning : yes : Start-up assistance : yes Language on documentation : English Simulation unit for training : yes Language on equipment : English Quotation for spare parts covering 2 years : yes

INFORMATION TO BE SUBMITTED BY MANUFACTURER WITH THE QUOTATION Make and type of IMCS : Manufacturing location : (specify separately for main components) Nearest service organisation / location : Details of electrical supply included : yes / (specify for various components) Any deviations from specification : no (if yes, list deviations)

Test protocol attached Specified tender documentation attached

: yes / no : yes / no

SPECIAL REQUIREMENTS AND REMARKS

Made by:

C.N

Date

EQUIPMENT :

Chked by:

C.E

Date

PLANT :

Appr. by:

M.K

Date

CONSIGNEE :

Eng. by

:

Principal

:

METS

LV SWITCHBOARD AGBADA NAG METS

REMARKS ON REVISIONS

Rev. letter C01 Date 23/05/12 Sign. Sheet No. 4

continued on sheet No.

Equipm. No. SB100E1 & 2 Req. No.

DOMESTIC GAS PROJECT

OWNER:

CONTRACTOR:

AGBADA NAG

DATA SHEET FOR POWER TRANSFORMER REV.: C01 PART - A : SPECIFIC REQUIREMENTS A

APPLICABLE SPECIFICATION & STANDARD

AS PER SPEC; IEC 60076

B

QUANTITY :

2

C

CLIMATIC CONDITIONS

1

DESIGN AMBIENT TEMPERATURE (Min./Max.)

43/18 oC

2

SITE ALTUTUDE

SEA LEVEL

3

RELATIVE HUMIDITY (Max.)

100%

4

ANNUAL RAINFALL

3800 mm

5

ATMOSPHERE

HUMID

D

SYSTEM PARTICULARS

1

PRIMARY SYSTEM :

(AVERAGE)

1.1

VOLTAGE(FULL LOAD)

6600V

1.2

NO. OF PHASES / WIRE

3 PHASE / 3 WIRE

1.3

SYSTEM GROUNDING

GROUNDED THROUGH NER

1.4

FAULT LEVEL (R.M.S)

25kA FOR 1 SEC

2

SECONDARY SYSTEM :

2.1

VOLTAGE (FULL LOAD)

400V (415V)

2.2

NO. OF PHASES / WIRE

3 PHASE / 4 WIRE

2.3

SYSTEM GROUNDING

SOLID

2.4

FAULT LEVEL (R.M.S)

50kA FOR 1 SEC

E

TECHNICAL PARTICULARS

1

RATING

1250 kVA

2

NO. OF PHASES

THREE

3

VOLTAGE RATIO : PRIMARY / SECONDARY

6600/400V at mid point tap and at no load

4

VECTOR GROUP

Dyn 11

5

FREQUENCY

50 Hz

6

% IMPEDANCE

5.00%

7

TYPE OF COOLING

ONAN

8

INSTALLATION

OUTDOOR

9

INSULATION LEVEL

10

11

a) FOR IMPULSE TEST

AS PER IEC 60076-2

b) FOR POWER FREQUENCY

AS PER IEC 60076-2

TEMPERATURE RISE: a) WINDING

AS PER IEC 60076-2

b) OIL

AS PER IEC 60076-2

TYPE OF TRANSFORMER (CONSERVATOR / SEALED)

SEALED TYPE (OIL IMMNERSED)

PAGE 2 of 6

DOMESTIC GAS PROJECT

OWNER:

CONTRACTOR:

AGBADA NAG

DATA SHEET FOR POWER TRANSFORMER REV.: C01

PAGE 3 of 6

PART - A : SPECIFIC REQUIREMENTS (CONTD…) E

TECHNICAL PARTICULARS (CONTD…)

12

ADDITIONAL BUSHING FOR NEUTRAL EARTHING : a) FOR PRIMARY

NOT REQUIRED

b) FOR SECONDARY

REQUIRED

c) EARTH CONDUCTOR SIZE

VTA

13

TAP CHANGER : HV SIDE

OFF CIRCUIT

14

RANGE OF TAPS / STEPS

± 5 %, IN STEPS OF + 2.5%

15

TAP CHANGER : ON LOAD/OFFLOAD

OFF LOAD

16

PROTECTIVE CT's

16.1

16.2

17

HV SIDE :

LV SIDE :

RATIO

VTA

ACCURACY CLASS

VTA

(for Neutral) RATIO

2500/1A

ACCURACY CLASS

5P10

RATIO

VTA

ACCURACY CLASS

VTA

MOUNTING OF CT's : HV SIDE

VTA

LV SIDE

VTA

F

CONSTRUCTION

1

TERMINAL BOX ARRANGEMENT : HV & LV

OPPOSITE TO EACH OTHER

2

PRIMARY TERMINAL TYPE

CABLE BOX WITH DISCONNECTING CHAMBER

2.1

CABLE / CONDUCTOR SIZE

3CX35mm2, Cu/XLPE/SWA/PVC

SECONDARY TERMINAL TYPE

CABLE BOX WITH DISCONNECTING CHAMBER

CABLE / CONDUCTOR SIZE

14nos 1CX400mm2, Cu/XLPE/SWA/PVC

4

CABLE ENTRY

GLANDS

5

RADIATOR

DETACHEABLE

6

PAINTING

EPOXY BASED

7

FITTINGS & ACCESSORIES (MINIMUM)

3 3.1

8

OIL STORAGE TANK



DRAIN SAMPLING VALVE



PRESSURE VALVE



WINDING TEMPERATURE INDICATOR



OIL TEMPERATURE INDICATOR

OIL STORAGE TANK ASSEMBLY INCLUDING FILTER, LEVEL LEVEL INDICATOR, HUMIDOTY DRYER WITH SILICA GEL BREATHER

9

BI-DIRECTIONAL RAILWHEEL/ ROLLER

BIDIRECTIONAL ROLLERS WITH SKID UNDERBASE

DOMESTIC GAS PROJECT

OWNER:

CONTRACTOR:

AGBADA NAG

DATA SHEET FOR POWER TRANSFORMER REV.: C01

PAGE 4 of 6

PART - A : SPECIFIC REQUIREMENTS (CONTD…) G

PERFORMANCE PARTICULARS

VENDOR TO FURNISH AS PER PART-B

H

DRAWING, DATA & TEST CERTIFICATES

YES

I

INSPECTION & TESTING

AS PER SDA-S17893-AGBG1-EA-7771-00009

J



ROUTINE TESTS

YES



TYPE TESTS

NO (Only Type Test Certificate to be submitted)



SPECIAL TESTS

NO



FACTORY ACCEPTANCE TEST

YES

NOTES & ADDITIONAL REQUIREMENTS 1.

TRANSFORMER SHALL BE BUILT IN ACCORDANCE WITH & CONTAINS ALL THE STANDARD FEATURES SPECIFIED IN IEC (INCLUDING WEATHER PROOFING & AUTO PRESSURE RELIEF DEVICE) WITH THE FOLLOWING ALARM CONTACTS, WIRED UP TO A MARSHALLING BOX: i)

GAS DETECTOR/LOW LEVEL CONTACT FOR ALARM

ii)

OVER PRESSURE CONTACT

iii)

TEMPERATURE HIGH CONTACT (2 Nos.) FOR OIL

iV)

WINDING TEMPERATURE INDICATOR WITH CONTACTS

2.

ALL ALARM SIGNALS SHALL BE WIRED TO PLANT FAB FOR REMOTE INDICATION AT PAS DCS.

3

THE CT FOR RESTRICTED AND STANDBY EARTH FAULT SHALL BE CONNECTED TO TRANSFORMER NEUTRAL AT SITE ALL ARRANGEMENTS REQUIRED FOR INSTALLING THESE CT's ON TRANSFORMER NEUTRAL SHALL BE MADE BY VENDOR

4

VENDOR SHALL MAKE NECESSARY PROVISION FOR FIXING THE COOLING FANS AT A FUTURE DATE CONSIDERING ONAF RATING AS 20% HIGHER THAN ONAN RATING

5

LANGUAGE ON DOCUMENTS AND LABELS SHALL BE IN ENGLISH

DOMESTIC GAS PROJECT

OWNER:

CONTRACTOR:

AGBADA NAG

DATA SHEET FOR POWER TRANSFORMER REV.: C01 PART - B : PERFORMANCE PARTICULARS (TO BE FURNISHED BY MANUFACTURER) THE PARTICULARS MARKED WITH ASTERISK ( * ) SHALL BE GUARANTEED, SUBJECT TO THE TOLERANCE SPECIFIED IN IEC - 60076 ITEM 1

NAME OF THE MANUFACTURER

2

RATED kVA AS PER IEC

3

CONTINUOUS MAXIMUM RATING FOR SITE

UNIT

kVA

CONDITIONS SPECIFIED IN PART - A

kVA

4

( * ) NO LOAD VOLTAGE RATIO

5

VECTOR GROUP REFERENCE

6

( * ) NO LOAD LOSSES AT RATED VOLTAGE

* kW 0

7

( * ) LOAD LOSSES AT RATED CURRENT, 75 C

8

RESISTANCE VOLTAGE (AT RATED kVA, 75 0C & 50 Hz) 0

9

REACTANCE VOLTAGE (AT RATED kVA, 75 C & 50 Hz)

10

( * ) IMPEDANCE VOLTAGE (AT RATED kVA, 75 0C & 50 Hz)

11

RESISTANCE OF WINDING, AT 75 0C

12 13

% *%

Ohms

b) LV PER PHASE

Ohms

ZERO PHASE SEQUENCE IMPEDANCE ( ESTIMATED )

%

0

EFFICIENCY ( AT 75 C ) AT FULL LOAD a) 1.0 P.F.

%

b) 0.8 P.F. (LAG)

%

TYPE OF TRANSFORMER (CONSERVATOR / SEALED)

15

PERCENTAGE REGULATION AT FULL LOAD

17

%

a) HV PER PHASE

14

16

* kW

a) 1.0 P.F.

%

b) 0.8 P.F. (LAG)

%

EXCITING CURRENT REFERRED TO PRIMARY, 50 Hz a) 90 % RATED VOLTAGE

Amps.

b) 100 % REATED VOLTAGE (NO LOAD CURRENT)

Amps.

c) 110 % RATED VOLTAGE

Amps.

POWER FACTOR OF EXCITING CURRENT AT RATED VOLTAGE AND 50 Hz. :

18

MAGNETISING INRUSH CURRENT ( PEAK ) UNDER WORSE CONDITIONS OF RESIDUAL MAGNETISM & INSTANT OF SWITCHING

19

SYMMETRICAL SHORT-CIRCUIT CURRENT (ASSUME INFINITE SOURCE ) :

20

TIME OF WITHSTAND WITHOUT INJURY UNDER MAX. SYMM. SHORT CIRCUIT CONDITION

21

THERMAL TIME CONSTANT

Secs. Hrs.

PAGE 5 of 6

DOMESTIC GAS PROJECT

OWNER:

CONTRACTOR:

AGBADA NAG

DATA SHEET FOR POWER TRANSFORMER REV.: C01 PART - B : PERFORMANCE PARTICULARS (CONTD…) (TO BE FURNISHED BY MANUFACTURER) THE PARTICULARS MARKED WITH ASTERISK ( * ) SHALL BE GUARANTEED, SUBJECT TO THE TOLERANCE SPECIFIED IN IEC - 60076 ITEM 22

MAX. FLUX DENSITY IN CORE AT RATED VOLTAGE

23

CURRENT DENSITY AT RATED LOAD

24

UNIT K.Lines /CM2

a) HV WINDING

A / mm2

b) LV WINDING

A / mm2

TYPE OF WINDING a) HIGH VOLTAGE b) LOW VOLTAGE

25

IMPULSE LEVELS WITH 1.2/50 MICRO-SECOND WAVE FORM

26

a) HIGH VOLTAGE

kV

b) LOW VOLTAGE

kV

ONE MINUTE POWER FREQUENCY WITHSTAND VOLTAGE a) PRIMARY

kV

b) SECONDARY

kV

27

TYPE OF COOLING

28

TOTAL WEIGHT WITH OIL & ACCESSORIES

29

VOLUME OF OIL FOR COMPLETE FILLING

30

APPROXIMATE OVERALL DIMENSIONS ( L x W x H )

31

DETAILS OF FITTINGS & ACCESSORIES :

kg Litres mm

DRAIN SAMPLING VALVE PRESSURE VALVE OIL LEVEL INDICATOR WINDING TEMPERATURE INDICATOR OIL TEMPERATURE INDICATOR OFF LOAD TAP CHANGER BI-DIRECTIONAL ROLLER WITH SKID UNDERBASE ANY OTHER ACCESSORIES (VENDOR TO LIST) 32

SOUND PRESSURE LEVEL AT 0.3m

dB(A)

PAGE 6 of 6

Equipment Data Sheet for Variable Speed Drive 1

Tag No. :

VS-001

Client:

2

Service:

MOTOR CONTROL

Plant Location:

AGBADA NAG

3

P & ID No. :

N/A

Manufacturer:

*

4

Calculation Ref. :

N/A

Purchase Order No. :

*

5

No. of Units:

6

Service Description:

System Voltage:

6600

V



5%

System Frequency:

50

Hz



2%

Neutral Earthing:

RESISTANCE EARTHED

1 MOTOR SPEED CONTROL

ENVIRONMENTAL CONDITIONS

7 8

Location:

Indoor

9

Ambient air temp:

Min:

10

Humidity:

100%

11

Hazardous area classification:

18

°C Max:

POWER SYSTEM 38

Altitude:

1m

UNCLASSIFIED

PARTICULARS OF EQUIPMENT

12

°C

PURCHASER'S REQUIREMENTS

UNITS

13

GENERAL REQUIREMENTS

14

Applicable Code or Standard

15

Model

16

Type

17

Function

18

Design Ambient Temperature (Note 1)

°C

25

19

Design Humidity (Note 1)

%

30 - 80

20

Atmospheric Contaminants

21

Input Isolator

Yes / No

YES

22

Prospective Fault Level at Source

23

Max Upstream Feeder Protection Fuse Size / Type

24

Motor Rated Power

25

Harmonics at the line side/ Cooling System at PC

26

INPUT SUPPLY

27

Input Voltage

28

Input Number of Phases

29

VENDOR'S RESPONSE

IEC 61800, 60034 & 60146 VTA VTA Soft Start / Speed Control

N/A 25

kA

VTA / gG 635

kW

6.5%/ Air VAC

6600

Input Frequency

Hz

50

30

Input Voltage Tolerance (Transient)

±%

5

31

Input Frequency Tolerance (Transient)

±%

2

3

32 33

INPUT / OUTPUT SUPPLY CABLES

34

Input:

35 36

Cu / XLPE/SWA/PVC 0

3C x 70 mm2

Size and Number of Cores Output:

37 38

0

Type

Cu /XLPE/SWA/PVC

Type

0

Size and Number of Cores

0

3C x 70 mm2 Bottom

Cable Entry From

39 KM-1100

40

MOTOR DETAILS (Note 2)

41

Type

42

Nominal Voltage

43

Location

44

Hazardous Area Classification

45

Enclosure Degree of Protection

46

Speed Range (operational)

rpm

47

Starting Torque (Full Voltage)

Nm

VTA

48

Full Load Torque (rated torque)

Nm

2030

49

Full Load Current (at Max Ambient Conditions)

A

63

Cage Induction 6600

VAC

Outdoor Zone 2, Group IIB, T3 IP55 0

2987

50 C01

23-May-12

APPROVED FOR CONSTRUCTION

C. Emu

O. Anthony

M. Kulkarni

A01

05-Mar-12

ISSUED FOR APPROVAL

C. Emu

O. Anthony

M. Kulkarni

R01

14-Nov-11

ISSUED FOR REVIEW

C. Emu

O. Anthony

O. Awe

Rev.

Date

Issue Description

Originator

Checker

Approver

Client

CLIENT:

Project: DOMGAS Project No: Datasheet No:

SDA-S17893-AGBG1-EA-2105-00008

SHEET 2

of

4

R01

Equipment Data Sheet for Variable Speed Drive 1

Tag No. :

VS-001

Client:

2

Service:

MOTOR CONTROL

Plant Location:

AGBADA NAG

3

P & ID No. :

N/A

Manufacturer:

*

4

Calculation Ref. :

N/A

Purchase Order No. :

*

5

No. of Units:

6

Service Description:

UNITS

PURCHASER'S REQUIREMENTS

pu

VTA

kW

VTA

%

As per Spec

VENDOR'S RESPONSE

VSD Input Power Factor

9 10

MOTOR SPEED CONTROL

PARTICULARS OF EQUIPMENT

7 8

1

At 100/75/50% Load Current Heat Generated

11

At 100/75/50% Full Load

12 13

INPUT LINE HARMONICS

14

Total Harmonic Current Distortion at Input

15

Maximum Input Current Harmonic Content

16

2nd

%

VTA

17

3rd

%

VTA

18

4th

%

VTA

19

5th

%

VTA

20

7th

%

VTA

21

11th

%

VTA

22

13th

%

VTA

23

17th

%

VTA

24

19th

%

VTA

25

Note: Harmonic study to be carried out to verify the effect of the VSD on the power system

26

RELIABILITY DATA (Note 3)

27

Overall Mean Time Before Failure (MTBF)

days

As per Spec

28

Overall Mean Time To Repair (MTTR)

days

As per Spec

29 30

UNIT ENCLOSURE

31

Construction Material

32

Location

33

Dimensions (Length x Width x Height)

34

Weight

35

Degree of Protection

36

Maximum Sound Pressure Level at 1m

37

Enclosure Access

38

Finish Colour - External

39

Finish Colour - Internal

40

Paint Specification

41

Ventilation

42

Minimum Space Clearance to Wall Behind

mm

43

Minimum Side Clearance

mm

44

Gland Plates

Sheet Steel Air-conditioned Switchroom 0

VTA

mm

VTA

kg

IP42 / IP21 (Doors Open) dBA

81 0

Front 0

VTA 0

VTA VTA 0

Natural Ventilation Preferred 0

VTA 0

VTA Brass 0

45 46

0

47 48 49 50 C01

23-May-12

APPROVED FOR CONSTRUCTION

C. Emu

O. Anthony

M. Kulkarni

A01

05-Mar-12

ISSUED FOR APPROVAL

C. Emu

O. Anthony

M. Kulkarni

R01

14-Nov-11

ISSUED FOR REVIEW

C. Emu

O. Anthony

O. Awe

Rev.

Date

Issue Description

Originator

Checker

Approver

Client

CLIENT:

Project: DOMGAS Project No: Datasheet No:

SDA-S17893-AGBG1-EA-2105-00008

SHEET 3

of

4

R01

Equipment Data Sheet for Variable Speed Drive 1

Tag No. :

VS-001

Client:

2

Service:

MOTOR CONTROL

Plant Location:

AGBADA NAG

3

P & ID No. :

N/A

Manufacturer:

*

4

Calculation Ref. :

N/A

Purchase Order No. :

*

5

No. of Units:

6

Service Description:

1 MOTOR SPEED CONTROL

PARTICULARS OF EQUIPMENT

7 8

CONTROL

PURCHASER'S REQUIREMENTS

UNITS

VENDOR'S RESPONSE

PROFIBUS

9

Communications Interface with DCS

10

Common Alarm Voltage Free Contacts

Yes / No

11

Remote Access Capability

Yes / No

No

12

Interface for Programming Port

Yes / No

Yes

13

Remote Control Unit Inputs hardwired

Yes / No

Yes

Yes

14 15

ACCESSORIES

16

RTD Inputs

17

Motor Anti-condensation Heater Supply

18

Input Line Harmonic Filter

Yes / No

As Required (VTA)

19

Input RFI Filter

Yes / No

As Required (VTA)

20

Output Filter

Yes / No

As Required (VTA)

2 x PT100

Yes / No

230 V, 50 Hz, Single Phase

21 22

ISOLATION SWITCHES

23

Type

24

Rated Voltage

V

25

Rated Continuous Current

A

26

Operation

27

Rated Duty

28

Utilisation Category

Required 6600 200 Manual 0

VTA 0

VTA

29 30

NOTES:

31

1. Design ambient temperature and humidity are the expected normal operating conditions in the air-conditioned switchroom in accordance

32

with IEC 62040-3 Clause 4.1. Upon loss of HVAC systems, minimum and maximum ambient temperatures and humidity are as per the

33

environmental conditions section of SPEC.

34

2. Refer to motor data sheet for further details (Note ii)

35

3. The methodology used to derive the reliability data (MTBF and MTTR) shall be attached.

36

4. Vendor to derive control supplies from incoming 400 VAC supply. Communications interface to Electrical Control System to be

37

supplied from 230 VAC UPS system to ensure visibility when power isolated. Purchaser to confirm system voltages and points of supply.

38

5. VTA = Vendor to Advise

39

6. Refer to Specification for Variable Speed Drives (note ii)

40

7. Vendor specification for VSDS shall be submitted for Client's approval

0

41 42 43

Notes to Package Engineer

44

i. All Italics to be deleted upon formal issue

45

ii. Data sheet document number and Specification number to be added

46

iii. Cells highlighted provide typical values which should be reviewed and revised as necessary for each project.

47

iv. * = Purchaser to complete.

0

48 49 50 C01

23-May-12

APPROVED FOR CONSTRUCTION

C. Emu

O. Anthony

M. Kulkarni

A01

05-Mar-12

ISSUED FOR APPROVAL

C. Emu

O. Anthony

M. Kulkarni

R01

14-Nov-11

ISSUED FOR REVIEW

C. Emu

O. Anthony

O. Awe

Rev.

Date

Issue Description

Originator

Checker

Approver

Client

CLIENT:

Project: DOMGAS Project No: Datasheet No:

SDA-S17893-AGBG1-EA-2105-00008

SHEET 4

of

4

R01

Data / requisition sheet for

AC UNINTERRUPTIBLE POWER SUPPLY UNITS 1 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 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51

Design book Contr. job MESC

No. : No. : No. :

page: 2 of 2 S17893

REQUIREMENTS AND CONDITIONS Specific requirements : As per specification Rated Output : 65 kVA at pf 0.8 Configuration : Parallel Redundant Type of battery : VLRA Autonomy time : As specified on UPS load profile (SDA-S17893-AGBG1-EA-4329-00003-001) Electrical Supply system : TNs ; Voltage: 400 ± 5% V ; frequency: 50 Hz ± 2% Deviations from nom. voltage/frequency/harmonics : as per specification Short circuit rating supply busbar : 50 kA for 1s (current limiting effect of fuses not taken into account) Output : 3 phase &N 400 V 50 Hz Output voltage waveform : as per specification Location : Conditioned room Service Conditions (general) : as per specification Battery temperature range : as per specification Battery Gassing Calculations : To be provided seperately by UPS vendor Ingress protection of enclosure : as per specification (IP-31) Transparent IP21 Screen required Yes Battery isolation switch : Industrial, in non hazardous area Scada monitoring required : yes Contact for interlock battery room fan : Manufacturer to advise Cable entries : Bottom Modem for remote maintenance support : To be confirmed Type of main cables : PVC/PVC Copper Cable Additional load terminals for testing : yes Main UPS supply cable : Size : 4C x 50 mm2 Individual battery cell monitoring : no Bypass supply cable : Size : 4C x 50 mm2 Witnessed factory acceptance tests : yes Maintenance bypass supply cable : Size : 4C x 35 mm2 Quotation for 2 years spares : yes Glands required : yes Language on documentation : English Type of Glands : Compression Type Language on equipment : English Max length of battery cable : 20 m INFORMATION TO BE SUBMITTED BY MANUFACTURER WITH THE QUOTATION Manufacturer : Country of origin : UPS : Battery: Location nearest service centre : Continuous output of UPS : kVA at 0.8 pf (individual units regardless configuration) Autonomy time of the UPS : minutes / hours Efficiency of UPS : at 100% load: ; at 50% load: at 25% load: Noise level : dB(A) at 1 metre distance Recommended fuses for main intake supply : Rectifier : A ; Bypass : A (type gG) Maximum secondary fuse rating that can be blown without switching over to bypass : A (type gG) Type of battery : Vented NiCd / Recombination NiCd / Vented Lead Acid / VRLA Make of battery : Nominal battery capacity : Ah (calculation shall be provided separately) Number of Cells : End of discharge voltage per cell : V Battery temperature compensation applicable : yes / no (calculation shall be provided separately) Number of parallel strings : Battery design lifetime : as per speciification Recommended size battery cables : x x mm2 Battery isolation switch : Industrial / Ex 'de' ; fuse switch / MCCB ; A Any deviations from the specification : no / yes (if yes, list deviations separately) Witnessed factory acceptance tests : yes / no Quotation for spare parts : yes / no Dimensional drawings attached : yes / no Mass of UPS : kg Battery calculations attached : yes / no Mass of battery : kg SPECIAL REQUIREMENTS AND REMARKS REMARKS ON REVISIONS

52 53 Made by:

P. A

Chked by:

C. E

EQUIPMENT : Date 30/11/11 TAG NR : Date PLANT :

Appr. by:

O. A

Date

Eng. by

:

Principal

:

CONSIGNEE :

METS - MAKON

65kVA AC UPS UP-001A & B AGBADA NAG (DOMGAS PROJECT) METS (MAKON)

Rev. letter C01 Date 30/11/11 Sign. Sheet No. 2 Equipm. No. UP-001A & B Req. No.

ATTACHEMENTS: CURRICULUM VITAE, COPIES OF DEGREES AND PROFESSIONAL CERTIFICATES

CHUKS EMU Electrical Engineer Address: Email: Tel:

24 Ogunkoya Street, Off Dele Okuwa, Ikosi-Ketu, Lagos, Nigeria. [email protected] +2348062284092

PERSONAL DATA

th

DATE OF BIRTH:

5 August 1979

SEX:

Male

STATE OF ORIGIN/LGA:

Delta State/Ukwuani

MARITAL STATUS:

Married

NATIONALITY:

Nigerian

PERSONAL SKILLS I am self-motivated, a productive team player, a very fast learner, goal-oriented and industrious individual with good interpersonal, communication and computer skills.

EDUCATION B.Eng. Electrical/Electronics Engineering – University of Benin, Nigeria [Grade - Second Class Honours, Upper Division]

(April 2004)

N.D Electrical/Electronics Engineering – Federal Polytechnic, Idah, Nigeria (Nov. 1997) [Grade – Upper Credit]

TRAININGS              

FMC Engineering Boot camp on Subsea Design & Offshore facilities – Manifolds, SLED/PLET, Christmas Trees, SCM, Umbilical, HPU, Sensors, Wellheads, MCS, ULM and SPCU etc. Subsea Power & Communication Unit Test Using ETU Software Topside Communication & SCM Data Allocation FMC Schematics Electrical Controls & Programmable Logic Control (PLC) Flow management Ethernet & IP Technology ORCAD Capture & PSPICE Simulation & Analysis Team Centre Engineering (iMAN) Training. UWD-Well head system, Pressure Testing, JSA & Safety on the Rig Rigging Operations & Offshore field development, HUET Basic Engineering Design Training - Electrical & Instrumentation By DTL Training in Project management,QAQC,HSE,TQM & Document Control AutoCAD & MS Offices Trainings

SUMMARY OF EXPERIENCE    

10+ years working experience in both Downstream & Upstream sector of the Oil and Gas industry as an Electrical & Controls Systems design engineer. Familiar with all Subsea & Topside products. Knowledgeable in NEC, IEEE, IEC, ISA, API and ISO Standards and Codes related to design and analysis of Topside Electrical and Subsea Controls system design. Experience in the use of SKM PTW, AutoCAD, Luxicon, ETU, Matlab, MathCAD, PSPICE & Microsoft Office Suites Result oriented, highly motivated, strong team player.

CHUKS EMU Electrical Engineer Address: Email: Tel:

24 Ogunkoya Street, Off Dele Okuwa, Ikosi-Ketu, Lagos, Nigeria. [email protected] +2348062284092

Snr. Electrical Engineer & Lead Electrical – Makon Engineering & Technincal Services (Sept. 2010 to Date) Projects: Shell Domestic Gas Project – SPDC Nigeria (EPC for Alakiri, Utorogu & Agbada NAG; Bonny, Adibawa & Egbema-West AG) Activities (FEED & Detailed Engineering Design; HV & LV Systems)         

        

Prepared Loadlists, Single Line Diagram and Electrical Equipment sizing & selection Carried out power system SKM System studies- short circuit, motor starting, voltage drop et; lighting Illumination calculation Plan, direct and supervise Engineering design works Prepare man-hours estimation, assign & monitor work progress, prepare training plans, train younger engineers Ensuring design is completed in compliance with Industry and Company Engineering standards, policies, procedures and regulations Safe, cost & schedule effective and efficient projects delivery Generation of Installation Scope for subcontractor usage Prepared CP Scope of work, CP calculations and layout and detail drawings Carry out cable sizing and voltage drop calculations (HV and LV) Prepared Power, Earthing, Lightning & Lighting Layouts & Typical Drawings Prepared cable tray and cable routing layouts Prepared Electrical Detailed Drawings Prepared Electrical Installation Manuals Prepared Hazardous Area Classification drawings and schedule Prepared specifications and Datasheets for Electrical equipment (HV and LV) Carry out site visit, preparation of site visit checklist and report, interface with vendors and subcontractors, Review bids, Carried out HAZOP, SAFOP reviews for all sites Provide construction support on technical issues, attend FAT of major electrical equipment Prepare As-Built Documentations

Snr. Electrical Engineer – China Petroleum Engineering & Construction Company (CPECC) , Khartoum, Sudan (Mar. 2010 to Sept. 2010) Projects: 1. Provision of PCC Services for FSF and Transit Lines for FNE and JAKE Phase III Project – Petro-Energy 2. Melut Basin Oil Development Project-Upstream Facilites EPCC for Field Surface Facilities – Petrodar Operating Company (PDOC) 3. Palouge Produced Water Reinjection Project - Petrodar Operating Company (PDOC) Activities (Detailed Engineering Design)      

Prepared lighting Illumination calculation Prepared CP calculations, Impressed current CP Typical and schematic drawings Prepared Sacrificial anode typical installation details Prepared Transit, Trunk and Flowlines CP Layout drawings and Schedule Carry out cable sizing and voltage drop calculations (MV and LV) Transformer Sizing calculation

CHUKS EMU Electrical Engineer Address: Email: Tel:



       

24 Ogunkoya Street, Off Dele Okuwa, Ikosi-Ketu, Lagos, Nigeria. [email protected] +2348062284092

Prepared CP drawings for Tanks internal and external Prepared Power, Earthing & Lighting Layouts Prepared cable tray and cable routing layouts Prepared Single line diagram for MV and LV Switchgears Prepared Hazardous Area Classification drawings Prepared Electrical and CP Cable Schedule/ List Material Requisition and Datasheets for Electrical equipment (MCC, Transformer, Cables and CP) Supervision of construction and commissioning jobs Carried out Site Visit and As-built documentations

Snr. Electrical Engineer - Deltaafrik Engineering Ltd, Lagos

(Jan. 2010 – Mar. 2010)

Project: Amenam Kpono Offshore Project – Total Petroleum Engineering Nigeria Limited Activities ( Basic Engineering Design)   

  

Prepared load list/summary & Load Schedules Carried out lighting calculation, cable sizing calculations, cable selection Prepared Single Line Diagrams. Prepared Power, Earthing & Lighting Layouts Prepared Cable Tray & Routing Plan Site Visit and Report, Prepare As-Built Documentations

Snr. Electrical Engineer - Deltaafrik Engineering Ltd, Lagos

(Jun. 2009 – Mar. 2010)

Project: Abiteye Escravos Pipelines Project – Chevron Nigeria Limited Activities (Detailed Engineering Design)           

Prepared Hazardous Area Classification Drawings Prepared load list/summary & Load Schedules Carried out cable sizing calculations, cable selection Prepared Cable Schedule & MCC Elevation Drawings Prepared Single Line Diagrams. Prepared Power, Earthing & Lighting Layouts Prepared Cable tray layouts & Cable routing plans Prepared Input to Basis of Design Prepared CP Layouts, Recommendation Report & Installation details Prepared Transformer & Panel Board Datasheets & Specifications Carried Out Site Visit & prepared site visit checklists and report, As-Built Documentations

CHUKS EMU Electrical Engineer Address: Email: Tel:

24 Ogunkoya Street, Off Dele Okuwa, Ikosi-Ketu, Lagos, Nigeria. [email protected] +2348062284092

Snr. Electrical Engineer - Deltaafrik Engineering Ltd, Lagos

(Oct. 2009 – Mar. 2010)

Project: Diesel Storage Tank Project – Chevron Nigeria Limited Activities (Detailed Engineering Design)      



Prepared Hazardous Area Classification Drawings Prepared load list/summary & Load Schedules Carried out cable sizing calculations, cable selection for motors Prepared Single Line Diagrams. Prepared Power, Earthing & Lighting Layouts Prepared Cable tray layouts & Cable routing Prepared Equipment Specifications

Electrical Engineer (Deltaafrik Engineering Ltd, Lagos) (Mar. 2009 – Sept.. 2009) Project: Mobil – AUP & EADP (Nigeria) Activities (Post - IFC Verification)        

Verified the conformance of IFC package to applicable specifications, codes & standards Compared MTO against IFC Drawings to confirm accuracy & completeness. Revised MTO’s were generated when shortfalls are identified Compared MTOs against the PO’s & Material Receiving & Inspection reports Prepared TSD’s for the procurement of identified shortfalls Revised Hazardous Area Classification Drawings Revised Single Line Diagram & Lighting Panel Schedule Revised Lighting Plan & Installation details Prepared Site Visit checklist & Report

FMC Technologies Inc. / DELTAAFRIK ENGINEERING LTD

(Mar. 2007 – Dec. 2008)

Subsea Controls Engineer - FMC Technologies Inc. Houston, Texas, USA. Projects: Agbami, Llog, Nexen, Helix Noonan, Murphy Azurite, Callon Entrada, Cascade & Chinook, Blind Faith and eWOCS Activities (Offshore Detailed Engineering Design)     

Designed Subsea Power & Communication Unit (SPCU/EPU), Umbilical Line Unit (ULM), Master Control Unit (MCS) & CWTU Single Line Diagram, Schematics, GA and Assembly Drawings. Prepared eWOCS MCS, SPCU & ULM Wirelist/Interconnection wiring & Cable Sizing. Assisted in preparing SCM MKIV Hydraulic schematics & As-Built Documentations Carried out SPCU – SCM Communication Test using ETU Software Carried out Cross Talk, IR and Attenuation studies for eWOCS Logging Cables

CHUKS EMU Electrical Engineer Address: Email: Tel:

    

24 Ogunkoya Street, Off Dele Okuwa, Ikosi-Ketu, Lagos, Nigeria. [email protected] +2348062284092

Prepared Factory Acceptance Test (FAT), EFAT; and Operation & Maintenance Manual for SPCU, ULM & MCS. Prepared Specifications & Bill Of Material/ Material Takeoffs for Topside Control Systems. Participated in SPCU/HPU FAT & SIT for hardware & software operability. Carried out Engineering Documentation in CITADON and PSPICE Simulation & Analysis. Prepared/Responded to RFI from/to clients

Electrical Engineer (Deltaafrik Engineering Ltd, Lagos) (Sept. 2006 – Mar. 2007) Project: Chevron – East Area Gas Utilization project (Nigeria) Activities (FEED)     

Prepared load list/summary Carried out cable sizing calculations, cable selection & cable routing. Assisted in preparing Single Line Diagrams. Carried out switchgears – MCC, Circuit breakers & relays – sizing and selection. Performed relay coordination task. Prepared Hazardous Area Classification Drawings

CAKASA NIG. COMPANY LTD, IKOYI, LAGOS

(Nov. 2005 – Sept. 2006)

Projects: Sahara Energy & Sigmund Petroleum Storage Depot. Trainee Engineer (Detailed Engineering Design)        

Prepared Electrical Load list and one line diagram Prepared Cable schedule & bulk MTO’s Prepared Power, Lighting and Earthing layouts Prepared Hazardous Area Classification Drawings Carried out load analysis & load schedule Prepared Perimeter Lighting for depot Interpretation of P&ID and generation of Deliverables from it. Generate Fire and Gas Layouts, Cause and effect charts, Instrument index & Datasheets etc

AGBOKIM SEC. SCHOOL, ETUNG LGA, CROSS RIVERS 

(Sept. 2004 – Sept. 2005)

Tutor – Taught Mathematics, Physics, Chemistry and Geography

EXTRA-CURRICULLAR ACTIVITIES Reading, Swimming & Playing Football

REFERENCES Available on Request