14050642 100 PL DBM 0001_Pipeline Design Basis_Rev 1
Short Description
Pipeline design basis...
Description
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 Page Rev Date
CONTRACT NO. 14050642 PIPELINE DESIGN BASIS Doc. No. : 14050642-100-PL-DBM-0001
Class 1
1 of 54 1 19.06.2016
Effluent Water Treatment And Injection Plant (NK)
PROJECT
:
CONTRACT NO
: 14050642
OWNER
: KUWAIT OIL COMPANY
CONTRACTOR
:
DOCUMENT NO.
: 14050642-100-PL-DBM-0001
DOCUMENT REVISION STATUS
: 1
DOCUMENT TYPE
: E (Engineering Drawing/Document)
Dodsal Engineering & Construction Pte. Ltd.
1
19.06.2016
Re-Issued For Design (Ref.14050642-KD-T-01011)
SV
AC
PC
0
17.06.2015
Issued For Design (Ref.14050642-KD-T-00882)
MD
AC
PC
B
02.06.2015
Re-Issued For Approval (Ref.14050642-KD-T-00172 & 14050642-KD-T-00038)
SV
AC
PC
A
17.11.2014
Issued For Review / Approval
PJ
SV
PC
Rev
Date
Description
Prepared By
Checked By
Approved By
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 CONTRACT NO. 14050642 PIPELINE DESIGN BASIS Doc. No. : 14050642-100-PL-DBM-0001
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REVISION RECORD:
Revision No. A B 0
Reason for Revision
Date
Issued for Review / Approval Re-Issued for Approval Issued for Design
17.11.2014 02.06.2015 17.06.2015
1
Re-Issued for Design
19.06.2016
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 Page Rev Date
CONTRACT NO. 14050642 PIPELINE DESIGN BASIS Doc. No. : 14050642-100-PL-DBM-0001
Class 1
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EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 CONTRACT NO. 14050642 PIPELINE DESIGN BASIS Doc. No. : 14050642-100-PL-DBM-0001
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TABLE OF CONTENTS 1.
GENERAL ..................................................................................................................... 7
2.
OBJECTIVE ................................................................................................................... 7
3.
PROJECT DESCRIPTION ............................................................................................. 7
4.
SCOPE OF THIS DOCUMENT ...................................................................................... 8
5.
TERMINOLOGY ............................................................................................................ 9
6.
5.1.
DEFINITIONS ..................................................................................................... 9
5.2.
ABBREVIATIONS ............................................................................................ 10
DESIGN CODES, SPECIFICATIONS AND STANDARDS .......................................... 11 6.1.
INTERNATIONAL CODES AND STANDARDS ............................................... 11
6.2.
PROJECT REFERENCE SPECIFICATION / ADDENDUMS / DRAWINGS / DOCUMENTS: ................................................................................................. 17
6.3. 7.
8.
9.
ORDER OF DOCUMENT PRECEDENCE ........................................................ 20
GENERAL DESIGN DATA .......................................................................................... 21 7.1.
BATTERY LIMIT .............................................................................................. 21
7.2.
UNITS OF MEASUREMENT ............................................................................ 21
7.3.
COORDINATE SYSTEM .................................................................................. 22
SITE CONDITION & DESIGN DATA ........................................................................... 23 8.1.
SITE CONDITION / ENVIRONMENT DATA ..................................................... 23
8.2.
BASIC DESIGN DATA ..................................................................................... 23
8.3.
PIPELINE CATEGORIES ................................................................................. 24
8.4.
DESIGN LIFE SPAN ........................................................................................ 25
8.5.
PIPELINE TEMPERATURE & PRESSURE ..................................................... 26
8.6.
PIPELINE FLANGE RATING PHILOSOPHY ................................................... 26
PIPELINE MATERIALS ............................................................................................... 27
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 CONTRACT NO. 14050642 PIPELINE DESIGN BASIS Doc. No. : 14050642-100-PL-DBM-0001
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9.1.
GENERAL ........................................................................................................ 27
9.2.
LINE PIPE ........................................................................................................ 27
9.3.
CARBON STEEL PIPE DESIGN PROPERTIES .............................................. 28
9.4.
RTRP PIPE DESIGN PROPERTIES ................................................................ 29
9.5.
BRANCH CONNECTIONS ............................................................................... 29
9.6.
RTRP PIPE JOINTS ......................................................................................... 29
9.7.
MATERIAL CERTIFICATION ........................................................................... 30
PIPELINE FITTINGS ................................................................................................... 30 10.1.
PIPELINE BENDS ............................................................................................ 30
10.1.1 GENERAL ........................................................................................................ 30 10.1.2 ELASTIC BENDS ............................................................................................. 31 10.1.3 COLD FIELD BENDS....................................................................................... 32 10.1.4 HOT INDUCTION BENDS ................................................................................ 32
11.
12.
10.2.
BARRED TEE .................................................................................................. 32
10.3.
INSULATING FLANGE JOINTS / INSULATION GASKET KIT........................ 32
10.4.
PIG LAUNCHER/RECEIVER ........................................................................... 32
10.5.
PIG SIGNALLERS ........................................................................................... 34
10.6.
PIPELINE ANCHORS ...................................................................................... 34
10.7.
FLANGES, BRANCH CONNECTIONS AND FITTINGS .................................. 34
10.8.
VALVES ........................................................................................................... 35
PIPELINE ANCILLARIES ............................................................................................ 36 11.1.
PIPELINE TRACING ........................................................................................ 36
11.2.
PIPELINE MARKERS ...................................................................................... 36
11.3.
PIPELINE WARNING SIGNS ........................................................................... 36
PIPELINE DESIGN CRITERIA .................................................................................... 37 12.1.
GENERAL ........................................................................................................ 37
12.2.
PIPELINE WALL THICKNESS CALCULATION .............................................. 37
12.3.
DESIGN FACTOR ............................................................................................ 38
12.4.
STRESS CALCULATION AT ROAD CROSSINGS ......................................... 38
12.5.
PIPELINE AT ABOVE GROUND / BELOW GROUND TRANSITION .............. 38
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 CONTRACT NO. 14050642 PIPELINE DESIGN BASIS Doc. No. : 14050642-100-PL-DBM-0001
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12.6.
PIPELINE UPHEAVAL BUCKLING CHECK.................................................... 39
12.7.
ON-BOTTOM STABILITY OF PIPELINES IN WET AREAS ............................ 39
PIPELINE ROUTING ................................................................................................... 40 13.1.
GENERAL APPROACH ................................................................................... 41
13.2.
ROUTE ALIGNMENT SHEET .......................................................................... 41
13.3.
TERRAIN AND INSTALLATION ...................................................................... 42
13.4.
SEPARATION DISTANCES AND EXCLUSION ZONES ................................. 43
13.5.
TOPOGRAPHICAL & GEOTECHNICAL DATA ............................................... 49
DESIGN PHILOSOPHY AND PHYSICAL DATA ......................................................... 49 14.1.
PIGGING, HYDRO TESTING & INSPECTION ................................................. 49
14.2.
NON DESTRUCTIVE TESTING ....................................................................... 50
14.3.
PIPELINE DEWATERING AND DRYING ......................................................... 50
14.4.
FIRE AND SAFETY REGULATIONS ............................................................... 50
14.5.
SITE TIE-IN REQUIREMENTS ......................................................................... 50
14.6.
STRUCTURAL INTEGRITY: ............................................................................ 51
15.
WELDING REQUIREMENTS....................................................................................... 51
16.
TESTING AND PRE-COMISSIONING ......................................................................... 52
17.
CORROSION PROTECTION ....................................................................................... 52 17.1.
CATHODIC PROTECTION .............................................................................. 52
17.2.
EXTERNAL CORROSION ............................................................................... 53
ATTACHMENT-1: PIPELINE SCHEMATIC DIAGRAM ............................................................. 54
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 CONTRACT NO. 14050642 PIPELINE DESIGN BASIS Doc. No. : 14050642-100-PL-DBM-0001
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GENERAL Kuwait Oil Company (K.S.C), hereafter referred as COMPANY, as a major player of global oil and gas sector has a long term strategy for the development of North Kuwait (NK) Fields. North Kuwait Fields is located approximately 90kms from north of Kuwait city. The purpose of this project is to provide sufficient injection water to meet the requirements of the north Kuwait well injectors. For this, an effluent water treatment and injection plant shall be built in a location between the SABRIYAH and RAUDATAIN fields of north Kuwait having a treatment design capacity of 1,045,000 BWPD with 550,000 BWPD for injection and balance 495,000 BWPD will be transferred to existing central processing injector facility (CIPF existing). The plant shall receive a continuous supply of effluent water from existing Gathering Centers GC-15, GC-23, GC-24, GC-25 and an intermittent supply of effluent water from new GC-29, GC-30 and GC-31 (all routed from existing CIPF). For this purpose, the COMPANY has entered into a contract with DODSAL ENGINEERING
&
CONSTRUCTION
PTE
LIMITED,
hereafter
referred
as
CONTRACTOR, for Engineering, Procurement, Construction and Related Activities, with a Contract No. 14050642.
2.
OBJECTIVE The objective of this document is to define the relevant pipeline design data, general philosophies, design criteria, methodology, relevant codes and standard and other important considerations to be adopted for the detailed engineering of the pipelines involved for New EWTIP project.
3.
PROJECT DESCRIPTION The purpose of this project is to provide sufficient injection water to meet the requirements of the North Kuwait well injectors. To this end, the EW Treatment and Injection Plant (NK) (EWTIP) will be located between the Sabriyah and Raudatain fields. 510 MBWPD EW injection facilities for injecting water into 51 no of wells (550 MBWPD Water Injection Pipelines Distribution System up to Manifolds). The EWTIP
1
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 Class 1
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treatment system is divided into two identical trains each designed to treat 522.5 MBWPD. The plant includes collection tanks that receive effluent water from: • GC-15 (200 MBWPD normal; 220 MBWPD design) • GC-25 (200 MBWPD normal; 220 MBWPD design) • GC-23 (150 MBWPD normal; 165 MBWPD design) • GC-24 (200 MBWPD normal; 220 MBWPD design) • GC-29 (240 MBWPD design) • GC-30 (240 MBWPD design) • GC-31 (240 MBWPD design)
Collected effluent water from GCs is treated in the EW treatment facility to meet the required quality specification for injection. Prior to injection, the treated water is stored in the Treated Water Tanks. These tanks may also receive effluent water from GC-29, GC30 and GC-31 to maintain the required amount of injection water, should one of the primary source GCs be shut down. A portion of the treated effluent water is also to be transferred from the treatment plant to the effluent water collection tank of the CIPF (EF/1071, Effluent Water Injection Plant, Phase I). To minimize the size of the Treated Water Tanks and eliminate the need to install new dedicated treated effluent water transfer pumps, this treated water is pumped directly from the outlet of the new effluent water treatment plant upstream of the Treated Water Tanks. Inline Booster and High Pressure (HP) Injection Pumps are capable of maintaining a minimum operating pressure of 255 barg (3700 psig) at the inlet of farthest injector wellhead along with injection headers and injection lines to injection wells.
4.
SCOPE OF THIS DOCUMENT The scope of this document is to define the design criteria for the permanent works relevant to this project like pipeline engineering design data, analysis methods and design methods to be used for detail engineering of pipeline sections. The CONTRACTOR shall design and install all pipelines as indicated on the P&ID’s up to the interfaces and Tie-Ins to existing pipework. Refer to Drawing Number
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 CONTRACT NO. 14050642 PIPELINE DESIGN BASIS Doc. No. : 14050642-100-PL-DBM-0001
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14050642-0100-PL-DWG-0001: Schematic of Interconnecting Pipework for an overall view of the Pipeline and Off-Sites Works. The new Pipelines will connect and transport the various products between GC-15, GC-23, GC-24, GC-25, GC-29, GC-30 and GC-31, Fuel Gas Headers, Recovered oil headers, Brackish Water Header, Treated Water distribution header, Treated Water Manifold, Wellhead Flow Lines, EWTIP, CIPF, B.S-131, B.S-132 & various tie-ins to existing pipeline in North Kuwait. Refer to the Schematic & Layout represented in Figure-1 shows the overall view of the Pipeline and Off-site works. The pipelines are required for the following services: Effluent Water Treated Water Fuel Gas Recovered Oil Brackish Water (Fire Water) Injection Water.
5.
TERMINOLOGY For the purpose of this document, the words and abbreviations listed below shall have the explanations as follows:
5.1.
DEFINITIONS COMPANY CONTRACTOR
Kuwait Oil Company (K.S.C) EPC Contractor nominated to carry out the project, Dodsal Engineering and Construction Pte Ltd.
PROJECT
Works related to contract no: 14050642.
WORK
Activities required to be completed by the CONTRACTOR
SHALL
The word “SHALL” is understood to be mandatory to comply with the requirements.
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 CONTRACT NO. 14050642 PIPELINE DESIGN BASIS Doc. No. : 14050642-100-PL-DBM-0001
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SHOULD
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The word “SHOULD” is understood to be strongly recommended to comply with the requirements.
ABBREVIATIONS API
American Petroleum Institute
ASME
American Society of Mechanical Engineers
ASTM
American Society for Testing and Materials
BS
British Standard
EWTIP
Effluent Water & Treatment Injection Plant
CIPF
Central Injection Pumping Facilities
B.S
Booster Station
GC
Gathering Centres
CA
Corrosion Allowance
CP
Cathodic Protection
DF
Design Factor
KM
Kilo meters
FEED
Front End Engineering Design
FG
Fuel Gas
ROW
Right of Way
SMYS
Specified Minimum Yield Strength
HSAW / SSAW
Helical or Spiral Submerged Arc Weld
LSAW
Longitudinal Submerged Arc Weld
LP
Low Pressure
MBOPD
Thousand U.S Barrels of Oil Per Day
MSS
Manufacturers Standardization Society
NACE
National Association of Corrosion Engineers
SMLS
Seamless
TCP
Temporary Cathodic Protection
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 CONTRACT NO. 14050642 PIPELINE DESIGN BASIS Doc. No. : 14050642-100-PL-DBM-0001
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6.
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CS
Carbon Steel
P&ID
Piping & Instrumentation Diagram
RTRP
Reinforced Thermosetting Resin Pipe
HDPE
High Density Poly Ethylene
FBE
Fusion Bonded Epoxy
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DESIGN CODES, SPECIFICATIONS AND STANDARDS
All detailed design and construction shall be performed to COMPANY Specifications, Standards, and International Codes and to other documents listed in this Basis of Design Document. In particular, reference should be made to Company Specification and its Addendum to 015-IH-1002: Pipeline Design, Appendix-F: Technical specification and KOC-L-002: KOC Recommended Practice for the Protection of KOC Services. All pipelines shall be designed in accordance with ASME B31.4/ ASME B31.8 as applicable to respective services. In common, the pipelines and related facilities shall confirm in design, materials and performance except where specified, with the current issue and amendments prevailing on the effective date of contract.
6.1. INTERNATIONAL CODES AND STANDARDS
AMERICAN SOCIETY OF MECHANICAL ENGINEERS (ASME)
ASME B16.5
Pipe Flanges and Flanged Fittings
ASME B16.9
Factory Made Wrought Steel Butt welding Fittings
ASME B16.10
ASME B 16.20
Face to Face and End to End – Dimensions of Valves Metallic Gaskets for Pipe Flanges (Ring-Joint, Spiral-Wound and Jacketed)
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 CONTRACT NO. 14050642 PIPELINE DESIGN BASIS Doc. No. : 14050642-100-PL-DBM-0001
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ASME B 16.21
Non-metallic Flat Gaskets for Pipe Flanges
ASME B 16.25
Butt-Welding Ends
ASME B 16.34
Valves – Flanged, Threaded and Welding End
ASME B16.47 ASME B 16.48 ASME B 16.49
ASME B 31.4
ASME B 31.8
Large Diameter Steel Flanges NPS 26 through NPS 60 Line Blanks Factory-made wrought Butt-welding induction Bends for transportation & distribution system Pipeline Transportation Systems for Liquid Hydrocarbons and Other Liquids Gas Transmissions and Distribution Piping Systems
ASME B 31.3
Process Piping
ASME B 46.1
Surface texture
Section VIII - Boiler and Pressure Vessel Code Section II Div. 1 Part A – Ferrous material ASME
specifications Section II Div. 1 Part D – Properties (Materials) Section V – Non Destructive Examination Section VIII Div. 1 - Pressure Vessels Section IX – Welding and brazing Qualifications
AMERICAN PETROLEUM INSTITUTE (API)
API 5L
Specification for Line Pipe (45th Edition)
API 6D
Specification for Pipeline Valves
API 6F
Specification for Fire test for valves
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 Class 1
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CONTRACT NO. 14050642 PIPELINE DESIGN BASIS Doc. No. : 14050642-100-PL-DBM-0001 Recommended API RP 1102
Practice
for
Liquid
13 of 54 1 19.06.2016 Petroleum
Pipelines Crossing Railroads and Highways (7th Edition)
API STD 1104 API RP 1109 API RP 1110
Standard
for
welding
Pipelines
and
related
Facilities (20th Edition) Marking Liquid Petroleum Pipeline Facilities Recommended Practice for the Pressure Testing of Steel Pipelines (5th Edition)
American Society for Testing and Materials (ASTM):
Standard Specification for Carbon and Alloy Steel ASTM A 694 / M
Forgings for Pipe Flanges, Fittings, Valves and Parts for High Pressure Transmission Service
ASTM E 94 ASTM E 165 ASTM E 709
Standard Guide for Radiographic Examination Standard Test Method for Liquid Penetrant Examination Standard Guide for Magnetic Particle Examination Standard Practice for Design, Manufacture and
ASTM E 747
Material Grouping Classification of Wire Image Quality Indicators (IQI) Used for Radiology
American Welding Society (AWS):
AWS A 2.4
AWS A 5.5 / M
Standard Symbols for Welding, Brazing and Non-Destructive Examination Specification for Low Alloy Steel Electrodes for Shielded Metal Arc Welding
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 Class 1
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British Standards (BS): Industrial Valves Face-to-Face and Centre-to-Face BS EN 558
Dimensions of Metal Valves for use in Flanged Piping Systems Welding Recommendations for Welding of Metallic
BS EN 1011
Materials Part 1: General Guidance for Arc Welding Part 2: Arc Welding of Ferrite Steels
BS EN 1759
Flanges and their Joints – Circular Flanges for Pipes, Valves, Fittings and their Accessories Methods of Tests for Paints: Part F 11: Determination
BS 3900
of Resistance to Cathodic Disbonding of Coatings for use on Land Based Buried Structures
BS 5930
Code of Practice for Site Investigations
BS 6031
Code of Practice for Earthworks
BS EN ISO 6507
Metallic Materials – Vickers Hardness Test
BS PD 6513
Magnetic Particle Flaw Detection
BS 7361
BS PD 8010
BS 8110
BS EN ISO 17292
Cathodic Protection Part 1 – Code of Practice for Land and Marine Applications Code of Practice for Pipelines Part 1: Steel Pipelines on Land Structural Use of Concrete Metal Ball Valves for Petroleum, Petrochemical and Allied Industries
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International Standards Organization (ISO):
Petroleum and Natural Gas Industries – Cathodic ISO 15589
Protection of Pipeline Transportation Systems Part 1: On-Land Pipelines.
Manufacturers Standardization Society of the Valve and Fittings Industry (MSS): Standard Finishes for Contact Faces of MSS SP-6
Pipe Flanges Connecting Ends of Flanges of Valves and Fittings
MSS SP-25
MSS SP-44
Marking Systems for Valves, Fittings, Flanges and Unions Steel Pipe Flanges Quality Standard for Steel Casting and Forging for
MSS SP-53
Valves, Flanges and Fittings and Other Piping Components – Magnetic Particle Examination Method Quality Standard for Steel Castings for Valves,
MSS SP-55
Flanges and Fittings and Other Piping Components – Visual Method for Evaluation of Surface Irregularities
MSS SP-72
MSS SP-75
Ball Valves with Flanged or Butt Welding Ends for General Service Specification for High Test Wrought Butt Welding Fittings Integrally Reinforced Forged Branch Outlet
MSS SP-97
Fittings – Socket Welding, Threaded, and Buttwelding Ends.
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National Association of Corrosion Engineers International (NACE): Petroleum and Natural Gas Industries -Materials for use NACE MR 0175 /
in H2S-containing environments in Oil and Gas
ISO 15156
production: Parts 1 to 3 (2009 & its latest technical circulars)
NACE SP 0177
Mitigation of Alternating Current and Lightning Effects on Metallic Structures and Corrosion Control Systems Laboratory Testing of Metals for Resistance to
NACE TM 0177
Sulfide Stress Cracking and Stress Corrosion Cracking in H2S Environments
NACE RP 0274
NACE TM 0284
NACE SP 0286
High Voltage Electrical Inspection of Pipeline Coatings Evaluation of Pipeline and Pressure Vessel Steels for Resistance to Hydrogen-Induced Cracking Electrical Isolation of Catholically Protected Pipelines Methods and Controls to Prevent In-Service
NACE RP 0472
Environmental Cracking of Carbon Steel Weldments in Corrosive Petroleum Refining Environments.
NACE SP 0169 NACE SP 0200 NACE SP 0502
NACE SP 0572
Control of External Corrosion on Underground submerged piping systems Steel Cased Pipeline Practices Pipeline External Corrosion Direct Assessment Methodology Design, Installation, Operation and Maintenance of Impressed current deep Anode Beds
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6.2. PROJECT REFERENCE SPECIFICATION / ADDENDUMS / DRAWINGS / DOCUMENTS: KOC Specifications: 015-IH-1001 Rev.1
Pipeline Construction
015-IH-1002 Rev.1
Pipeline Design
015-IH-1004 Rev.1
Pipeline Pigging and Hydrostatic test
015-IH-1005 Rev.1
Pipeline Dewatering, drying and Purging
015-IH-1008 Rev.1
Pipeline Field Welding Non Sour Service
015-IH-1009 Rev.1
Flow lines
015-LH-1002 Rev.1
Piping design
015-PH-1910 Rev.1
Cathodic Protection (CP) Transformer Rectifier Units
015-SH-1006 Rev.1
Topographical Survey
015-WH-1001 Rev.0
Welding Procedure Approval and Welding Quality Requirement
015-WH-1002 Rev.0
Field Welding Requirements including: welding, Heat treatment and NDT of piping
015-WH-1006 Rev.1
Cathodic Protection Design Requirements
Document No.
Description
KOC-L-002 Rev.3
RP for Protection of KOC Services
KOC-L-012 Rev.1
Cathodic Protection Material
KOC-L-015 Rev.2
External Cathodic Protection of Underground Steel Pipeline and Piping Networks
KOC-MP-005 Rev.1
Pipeline Pig Trap Systems
KOC-MP-010 Rev.1
Piping Material Classes
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 CONTRACT NO. 14050642 PIPELINE DESIGN BASIS Doc. No. : 14050642-100-PL-DBM-0001
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KOC-MP-011- Part-1 Rev.2 KOC-MP-011- Part-2 Rev.2
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RTRP Pipes and Fittings Materials RP for RTRP Pipes and Fittings, Engineering Design and Installation.
KOC-MP-018 Rev.1
Seamless Line Pipe to API 5L
KOC-MP-019 Rev.1
Submerged Arc Welded (SAW) Pipe to API 5L
KOC-MP-033 Part-1 Rev.1
KOC Standard for Valves: Part 1- Ball Valves
KOC-MP-015 Rev.1
KOC Standard for Check Valves
KOC-MP-013 Rev.1
KOC Standard for Gate Valves
KOC-MP-023 Rev.1
KOC Standard for Through-Conduit Gate Valves
KOC-MP-014 Rev.1
KOC Standard for Globe Valves
KOC-MP-035 Rev.1 KOC-MP-038 Rev.2 KOC-MS-001 Part-1 Rev.2
Internal Corrosion Monitoring Equipment for Facilities and Pipelines Hot Tapping and plugging Material Specification For Line Pipe For Sour Service
KOC-MS-002 Rev.1
Material Specification For Induction Bend
KOC-P-001 Rev.3
Painting and Coating of External Metal Surface
KOC-P-004
External Coating Of Pipelines – Dual Layer FBE
Part-4 Rev.2 KOC-P-004 Part-7 Rev.2
Coating of Field Girth Welds, Fittings and Flanges
KOC-P-005 Rev.1
Internal Coating of Pipelines
55-04-72 Rev.0
Typical Barred Tee Details
EWTIP-00-GE-BOD-0001 Rev.5
Basis of Design
EWTIP-20-PL-SPC-0001
ADDENDUM TO KOC SPECIFICATION:
Rev.0
TOPOGRAPHICAL SURVEY (015-SH-1006)
1
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 CONTRACT NO. 14050642 PIPELINE DESIGN BASIS Doc. No. : 14050642-100-PL-DBM-0001
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EWTIP-20-PL-SPC-0002 Rev.1
EWTIP-20-PL-SPC-0003 Rev.0
EWTIP-20-PL-SPC-0004 Rev.0
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ADDENDUM TO KOC SPECIFICATION: PIPELINE DESIGN (015-IH-1002 REV1)
ADDENDUM TO KOC SPECIFICATION: FLOWLINES (015-IH-1009 REV2) SPECIAL CRITERIA TO KOC STANDARD FOR EXTERNAL COATING OF PIPELINES PART 4 FUSION BONDED EPOXY COATING (KOC-P004 PART4 REV2)
EWTIP-20-PL-SPC-0005 Rev.0
ADDENDUM TO KOC SPECIFICATION PIG LAUNCHERS/RECEIVERS (015-IH-1006 REV1)
EWTIP-20-PL-SPC-0006
SPECIAL CRITERIA TO KOC STANDARD FOR
Rev.0
INTERNAL COATING OF PIPELINES (KOC-P005 REV1)
EWTIP-20-PL-SPC-0007 Rev.0
SPECIAL CRITERIA TO KOC STANDARD FOR EXTERNAL COATING OF UNDERGROUND PIPING/PIPELINES - HIGH BUILD EPOXY COATING (KOC-P-004 PART8 REV1) SPECIAL CRITERIA TO KOC RECOMMENDED
EWTIP-20-PL-SPC-0008 Rev.0
PRACTICE FOR THE PROTECTION OF KOC SERVICES: CLEARANCE REQUIREMENTS FOR BURIED PIPELINES, CABLES, UNDERGROUND STRUCTURES, BUILDINGS AND HOUSING PROJECTS (KOC-L-002 REV3) SPECIAL CRITERIA TO KOC STANDARD FOR
EWTIP-20-PL-SPC-0009
EXTERNAL COATING OF UNDERGROUND
Rev.0
PIPING/PIPELINES - HIGH BUILD POLYURETHANE COATING (KOC-P-004 PART9 REV1)
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 CONTRACT NO. 14050642 PIPELINE DESIGN BASIS Doc. No. : 14050642-100-PL-DBM-0001
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Page Rev Date
EWTIP-20-PL-SPC-0010
SPECIFICATION FOR HIGH DENSITY
Rev.1
POLYETHYLENE (HDPE) LINERS FOR
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CARBON STEEL PIPELINES EWTIP-20-PL-SPC-0011
SPECIFIC CRITERIA TO KOC STANDARD FOR
Rev.1
ELECTRIC WELDED PIPES (KOC-MP-017 REV1)
EWTIP-20-PL-SPC-0012 Rev.1
PIPELINE LEAK DETECTION SPECIFICATION
EWTIP-20-PL-SPC-0013
Special Criteria To Standard For Seamless Line
Rev.0
Pipe to API 5L ( KOC-MP-018 Rev.1)
EWTIP-20-PL-SPC-0014
Criteria To Standard For Submerged Arc Welded
Rev.0
(SAW) Pipe to API 5L ( KOC-MP-019 Rev.1)
EWTIP-20-PL-SPC-0015
ADDENDUM TO KOC SPECIFICATION:
Rev.0
PIPELINE PIGGING AND HYDROSTATIC TEST (015-IH-1004 REV1)
EWTIP-20-PL-SPC-0016
ADDENDUM TO KOC SPECIFICATION
Rev.0
PIPELINE DEWATERING, DRYING AND PURGING (015-IH-1005 REV1)
EWTIP-20-PL-SPC-0017
Project Specific Criteria to Material Specification
Rev.1
For Induction Bend (KOC-MS-002 Rev.1)
EWTIP-20-PL-SPC-0018
Addendum to Specification for Pipeline
Rev.1
Construction ( 015-IH-1001 Rev.1)
EWTIP-20-PL-SPC-0019 Rev.0
PROJECT SPECIFIC CRITERIA FOR KOC RECOMMENDED PRACTICE FOR EXTERNAL CATHODIC PROTECTION OF UNDERGROUND STEEL PIPELINES & PIPING NETWORKS
6.3. ORDER OF DOCUMENT PRECEDENCE In case of conflict on technical requirements, the most stringent requirements as defined by the company shall apply as per clause no 1.2 and 3.3 of Appendix-F of the contract.
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In case of conflict on codes, standards, company specifications, regulatory requirements, following order of precedence shall apply: a. Regulatory Requirements b. Addendum and project specific criteria to KOC specifications and standards c. KOC standards & Specifications d. International Codes and Standards Should there be an inconsistency, conflict or discrepancy between any of the Standards, Specifications or Regulatory requirements, the most stringent and safest requirement applicable to the project shall prevail to the extent of the inconsistency, conflict or discrepancy. Any inconsistencies critical to the design shall be brought to the attention of KOC for resolution.
7.
GENERAL DESIGN DATA 7.1. BATTERY LIMIT The design battery limit between pipeline and piping are the flanges at the launcher / receiver and before first isolation valve on the bypass line near barred tee & the code break between ASME B 31.3 and ASME B 31.8 / ASME B31.4 as per P & ID.
7.2. UNITS OF MEASUREMENT SI units shall be used for all calculations and on all drawings. For convenience, data in imperial units may be included for reference.
Design Unit Standards(Note 1) Item
SI units
Imperial Units
Oil Flow
m3/hr.
bbl/d
Gas Flow
MMm3/d
MMscf/d
Density
kg/m3
lbs./ft3
Pressure
bar(a) or bar(g)
psia or psig
Differential Pressure
bar/mbar
psi
Temperature
°C
°F
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Class 1
Viscosity
MPa
cP
Kinematic Viscosity
cSt
cSt
Mass
kg
lbs
mm
inch
Energy
MJ
Btu
Power
kW
hp
Pipe diameters, valve size, instrument tubing (note 2)
Seconds, hours,
Time
days
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Seconds, hours, days
Piping (note 2), Structural, Isometric, Site (Layouts, Topographical etc.), and
Metric
English
Metric
English
Metric
English
Vendor Drawings Vessel Dimensions Electrical Equipment Cabinets & other equipment inside control buildings Notes: 1. Standard conditions are defined as 14.696 psia and 60°F (1.01325 bar(a) and 15°C) 2. All piping and tubing to be SI sizes.
7.3. COORDINATE SYSTEM
The co-ordinate system to be used for mapping on the project shall be: Projection
:
Universal Transverse Mercator
Zone
:
UTM 38R
Datum
:
World Geodetic System (WGS-84)
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SITE CONDITION & DESIGN DATA
8.1. SITE CONDITION / ENVIRONMENT DATA The site conditions shall be in accordance with CL.5.0 of project Basic Design Data KOC-G-007 R4.
UNDERGROUND TEMPERATURE As per clause 5.1.5 of KOC-G-007, soil temperature at 1.22m depth: Minimum (Soil)
:
17 °C
Maximum (Soil)
:
35 °C
Minimum (Ambient)
:
- 3 °C
Maximum (Ambient)
:
55 °C
Maximum
:
100%
Minimum
:
6%
ABOVE GROUND TEMPERATURE
RELATIVE HUMIDITY AT 55° C
LOCAL CONTAMINATION (as per KOC-G-007) Lighting
:
To be considered
Seismic Factor
:
Rainfall
:
Frosts
:
Never
Snow
:
Never
Sand Storms
:
Strong frequent sandstorms are common between march & may
Wind speed
:
45 m/s at above ground
Zone-1; Zone factor (Z)=0.075; site co-efficient = 1.0 to 1.2 Annual rainfall is 200mm maximum.
8.2. BASIC DESIGN DATA The FEED study drawings of pipelines and pipeline facilities:
P&ID of all pipeline systems.
Plot plans for launcher / receiver scrapper facilities at EWTIP, Fuel gas tie-in, Recovered Oil return at GC-15 and GC-25, all manifolds.
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Field maps showing injection well locations and pipeline routings used in the FEED study.
Alignment sheets for produced water pipelines, injection water trunk lines and the recovered oil pipelines.
Schematics of the high pressure pipelines used for hydraulic simulations and materials quantity determination.
8.3. PIPELINE CATEGORIES The pipeline categories shall comply with the requirements of KOC specification: Application of codes and Group Standards, which has been reproduced for design purpose as in below table, Table 8.1 : Pipeline Categories Approx. S.No.
Applicable Project Pipelines
Length (KM)
1
20” RTRP Pipeline from GC-15 in CIPF to EWTIP
1.72
2
16” RTRP Pipeline from GC-23 in CIPF to EWTIP
1.73
3
20” RTRP Pipeline from GC-24 in CIPF to EWTIP
1.72
4
20” RTRP Pipeline from GC-25 in CIPF to EWTIP
1.72
5
6” CS Pipeline from B.S-131 to EWTIP (2 nos.)
6
7
20” CS HDPE lined Pipeline from EWTIP to Sabriyah manifold distribution 20” CS HDPE lined Pipeline from EWTIP to Rudatain manifold distribution
17 (8.5 each) 47.0
16.4
Product
Design
type
Code
Effluent
ASME
Water
B31.4
Effluent
ASME
Water
B31.4
Effluent
ASME
Water
B31.4
Effluent
ASME
Water
B31.4
Fuel Gas
ASME B31.8
Injection
ASME
Water
B31.4
Injection
ASME
Water
B31.4
1
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 Class 1
8
9
10
11
12
13
14
15
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CONTRACT NO. 14050642 PIPELINE DESIGN BASIS Doc. No. : 14050642-100-PL-DBM-0001 14” CS HDPE lined Pipeline from Distribution header to Sabriyah manifolds (3 nos.) 12” CS HDPE lined Pipeline from Distribution header to Sabriyah manifold (1 no.) 10” CS HDPE lined Pipeline from Distribution header to Sabriyah manifolds (3 nos.) 10” CS HDPE lined Pipeline from Distribution header to Raudatain manifolds (3 nos.) 10” CS HDPE lined Flowline from Sabriyah manifolds to Well heads (1 no.) 8” CS HDPE lined Flowlines from Sabriyah manifolds to Well heads (11 nos.) 6” CS HDPE lined Flowlines from Sabriyah manifolds to Well heads (23 nos.) 8” CS HDPE lined Flowline from Raudatain manifolds to Well heads (8 nos.)
2.521
0.384
3.364
1.897
3.83
65.525
61.5
45.03
16
6” CS HDPE lined Flowlines from Raudatain manifolds to Well heads (8 nos.)
21.39
17
30” RTRP Pipeline from EWTIP to CIPF Existing
1.72
18
12” RTRP pipeline from B.S-132 to EWTIP
3.1
19
6” CS FBE Lined pipeline from EWTIP to GC-15 & GC-25 (2 Nos.)
23.605
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Injection
ASME
Water
B31.4
Injection
ASME
Water
B31.4
Injection
ASME
Water
B31.4
Injection
ASME
Water
B31.4
Injection
ASME
Water
B31.4
Injection
ASME
Water
B31.4
Injection
ASME
Water
B31.4
Injection
ASME
Water
B31.4
Injection
ASME
Water
B31.4
Treated
ASME
Water
B31.4
Brackish
ASME
Water
B31.4
Recovere
ASME
d Oil
B31.4
Total Length 321.156
8.4. DESIGN LIFE SPAN The facilities have been designed for a life of 25 years. Should it be impractical for a component to be designed with this life expectancy, a review with KOC shall be conducted and the outcome documented.
1
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8.5. PIPELINE TEMPERATURE & PRESSURE
Table 8.2: Temperature and Pressure Design
Operating
Design
Operating
Pressure
Pressure
Temperature
(barg)
(barg)
(°C)*
Distribution Lines
278
331
30-60
-3 / 93
Flow Lines
278
331
30-60
-3 / 93
5.9
11
30-60
-3 / 93
25.5
46
30-60
-3 / 93
4
15
30-60
-3 / 93
Oily Water
8.41
10.5
30-60
-3 / 93
Brackish Water
4.13
15
30-60
-3 / 93
Pipelines
Temperature UG / AG (°C)
Treated Water Return Line to CIPF (existing 1071) Fuel Gas Effluent Water
8.6. PIPELINE FLANGE RATING PHILOSOPHY For the selected material class, the flange rating shall be selected by applying the chosen design pressure and temperature in the appropriate rating table in the Piping Material specification and shall in accordance to ASME B 16.5 & ASME 16.47.
Pipeline
Flange Rating
Effluent water
150 #
Recovered Oil
300 #
Fuel Gas
300 #
Brackish Water
300 #
1
1
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 Class 1
9.
CONTRACT NO. 14050642 PIPELINE DESIGN BASIS Doc. No. : 14050642-100-PL-DBM-0001 Treated Water
150 #
Injection Water
2500 #
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PIPELINE MATERIALS 9.1. GENERAL Pipelines such as Injection water, Recovered oil & Fuel Gas shall be designed & constructed from carbon steel material in accordance with API 5L and COMPANY design specifications listed in CL.6.2 of this document.
Brackish water, Treated water & Effluent water pipelines shall be designed & constructed from Reinforced Thermosetting Resin Pipe (RTRP) in accordance with ASTM D2996 and COMPANY design specifications listed in CL.6.2 of this document.
All carbon steel materials shall be suitable for sour service conforming to KOCMS-001 Part 1, NACE MR 0175 / ISO 15156 and shall be HIC tested. Testing shall be performed using Test Solution “A” as per NACE Standard TM-0284. Size of any branch or instrument connections on Pipeline which are exposed to service shall not be less than 2 inch for mechanical strength reasons.
9.2. LINE PIPE Carbon Steel Seamless Line pipe shall be used for fuel gas, Injection water and Recovered Oil services. Seamless line pipe shall conform to specification level 2 (PSL 2) of API 5L Specification 45th Edition and the requirements of KOC-MS-001 and Project Criteria for sour service conditions as specified in the pipeline data sheet 14050642-100-PL-DAT-0001. The final material grade and wall thickness shall be confirmed and submitted by CONTRACTOR to COMPANY for their approval. For Injection pipelines, carbon steel pipe with HDPE internal liner shall be used for underground section and carbon steel pipe with Incoloy 825 internal liner shall be used for aboveground section. The connection of these two pipeline sections shall have suitable flanged arrangements as per approved
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manufacturer’s design. For mechanical handling considerations and to avoid pipe damage during construction the pipe diameter to wall thickness ratio should not exceed 96 in general as per clause 403.2.5 of ASME B31.4. All carbon steel pipes of API 5L X60 material shall be of SMLS construction up to 20 inch. Pipe material shall be Reinforced Thermosetting Resin Pipe (RTRP) for Effluent Water, Treated water and Brackish Water and pipe shall be manufactured by Dual Helical Filament Winding Process in accordance with COMPANY standard for RTRP pipes and fittings: KOC-MP-011 Part 1.
9.3. CARBON STEEL PIPE DESIGN PROPERTIES The properties shown in table below are to be used for calculations involving carbon steel line pipe with reference to API 5L, 45th Edition. Table 9.1: Pipeline Design Properties Property
Units
Material API 5L, 45th
All CS Pipelines in Table 8.1
Edition Material grade Yield strength Min SMYS Yield strength Max Ultimate Tensile Strength
Pipeline
L415 (X60) MPa
MPa
MPa
L245 (B)
415
245
565
450
520
415
Density
Kg/m3
7850
Young’s’ Modulus
MPa
203000
mm /
11.7 x 10-6
Thermal Co-efficient of Expansion
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mm /C
Poisson’s Ratio
0.3
9.4. RTRP PIPE DESIGN PROPERTIES The properties shown in table below shall be given to vendor for the RTRP Line pipes with reference to ASTM D 2996 Table 9.2: Pipeline Design Properties Property
Units
Resin Type Epoxy Resin
Polyester & Vinyl Ester Resin
Tensile Strength
103 psi
4-13
6-13
Tensile Modulus
106 psi
0.35
0.3 – 0.64
Elongation at Break
%
3-15
1.25 W
buoyancy
Where
Wbuoyancy
= Buoyancy of air filled pipeline relative to liquefied ground
Wair
= Weight of pipeline in air
The pipelines shall be designed to be stable over the design life. This shall be achieved by increasing the weight of concrete coating to give the desired factor of safety. Concrete is assumed to have a density of 2240 Kg/m 3 and in all cases the minimum thickness shall be 40mm. Temporary stabilization during construction shall be considered. Soil weight when buried should be considered for operational cases.
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 Class 1
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CONTRACT NO. 14050642 PIPELINE DESIGN BASIS Doc. No. : 14050642-100-PL-DBM-0001
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PIPELINE ROUTING A pipeline route survey shall be carried out prior to producing detailed route alignment sheets which will include topographical, geotechnical and underground investigation. The horizontal clearance between the pipelines and the existing cable shall meet KOC-E-008 & KOC-L-002 requirements. All pipelines installed in the new pipeline corridors will have 1 m berm constructed from natural ground level for protection. The information included in the drawings, documents, specifications and alignment sheets must be reviewed fully to appreciate the extent of the design parameters. All pipeline corridors depending on the number of pipelines to be installed will have permanent six meter access tracks constructed along each pipeline corridor to be used for pipeline construction and also for permanent maintenance roads after construction activities are completed. The location of permanent access tracks shall be shown on the Pipeline Route Alignment sheets. No sectionalizing valves will be required on any of the routes of the pipelines for intermediate isolation. There are numerous rig track, gatch and asphalt road crossings, above and below ground utilities to be crossed on all of the pipeline route corridors. The minimum distance from the base of any power pylon shall be 20 meters as per clause 11.4.2 of KOC-L-002. Where the pipeline runs parallel with a buried power cable, the horizontal clearance between the pipeline and the existing cable shall not be less than 3 meters. This shall be increased where there is a likelihood of CP interference. A Cathodic protection system shall be designed and installed on all steel buried pipelines. A corrosion monitoring study shall also be carried out to review any corrosion monitoring requirements on the various pipelines. All carbon steel pipework will be externally coated along with the welded joints. All carbon steel pipework will be welded to sour service conditions. It is to be aware that there are other CONTRACTORS, working in the area along with well drilling, road construction and other third party activities in North Kuwait. Therefore interface is required with other CONTRACTORS to avoid any disruption or impact to their work which would cause delay to their schedule.
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All pipelines shall be hydro tested to KOC and International Standards. pipeline stress analysis shall be carried out on the various pipelines up to and including the pig launcher/receivers in the various installations to take into account the various Design Code breaks to confirm anchor blocks design requirements.
13.1. GENERAL APPROACH The principal strategy adopted in finalizing pipeline routes involved,
Shortest connections to minimize route lengths.
Avoiding or minimizing disturbances to natural environment, ecology etc.
Construction feasibility maintaining adequate clearance between the existing facilities.
Existing or planned pipelines, facilities and cables
Obstructions, soil conditions and grade changes
Proposed intermediate isolation valves, if any
Temporary access for construction
Uninterrupted permanent access for maintenance
Crossings of existing roads or tracks or with other existing pipelines / cables
Utilization of existing right of way and crossings
Security from accidental or deliberate interference from Third Parties
Avoidance of excessively corrosive environments
Availability of power supplies.
Seasonal water courses and locations susceptible to washout and contaminated soil areas.
Care shall be taken to follow existing pipeline routes and corridors where ever possible, and to minimize the number of hot bends for ease of installation.
13.2. ROUTE ALIGNMENT SHEET The route alignment sheets shall be developed and shall contain the following
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detailed data:
Route layout, ground profile, topography, soil condition/characteristics;
Location of existing above ground and buried pipelines, location of existing power cables, overhead lines and other services
Soil resistivity measurement for CP design and Cathodic protection
Change of Design code & design factor , line pipe material, grade and wall thickness,
Design conditions, Hydrostatic test sections and Test Pressure
Surface/ terrain details, track, asphalt/rig track crossings, area of high water table
Bench marks and survey references
Pipeline markers and warning signs
Coating type, buried depth, special items (Valves, fittings, hot bends,
1
insulation joints etc.)
Type of construction, crossing location, types and applicable drawings
Location of oil wells / lakes / buildings / KOC facilities within 250m from the center line of the pipeline corridor
Location of pig traps & signalers
Location of Man way / Hand hole, Valve Pits and pipeline markers.
Key Plan
Detailed ROW section views, wherever required.
1
13.3. TERRAIN AND INSTALLATION The pipeline shall be buried with minimum cover in accordance with EWTIP-20PL-SPC-0002 & 15-IH-1002 Pipeline design and appropriate for the location as detailed in EWTIP-20-PL-SPC-0008 & KOC-L-0002 – Recommended Practice of KOC Services: Clearance Requirements for Buried Pipelines and Piping, Cables, Underground Structures and buildings. Sudden gradient changes in the pipeline profiles shall be avoided where possible in order to minimize the occurrence of low points.
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Pipelines shall be constructed on the ground or if the area consists of marshlands, swamp or has a high water table then the ground level shall be raised using gatch. The pipelines shall be covered with one meter high berms of sand and if the area is subject to wind erosion then a layer of gatch shall be used to protect the berms. Where pipelines cross existing services, the new pipelines shall pass underneath with a minimum vertical separation distance of 1m from the underside of the existing service to the top of the new pipeline or service. Construction of Pipelines shall confirm the requirements of Project specification for Pipeline Construction, EWTIP-20-PL-SPC-0018 & 015-IH-1001.
13.4. SEPARATION DISTANCES AND EXCLUSION ZONES Pipeline Burial depth and Clearances shall be in accordance to COMPANY specification KOC-L-002 and EWTIP-20-Pl-SPC-0008.
1
13.4.1. PIPELINE SEPARATION DISTANCE WITHIN CORRIDORS Within corridors where pipelines are laid parallel to one another in a trench or alongside / across existing services the pipelines are required to be laid by a minimum distance as required in Table 13.1.
Table 13.1 Pipeline Separation within Corridors Minimum Separation Pipeline Condition Pipelines laid in same trench (alongside each another) Pipelines
installed
in
plants #
at
plant
Horizontal
-
1m
-
5m #
separate
trenches (new or existing lines) except
Vertical
approaches/near
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CONTRACT NO. 14050642 PIPELINE DESIGN BASIS Doc. No. : 14050642-100-PL-DBM-0001 Mechanical
Equipment
operation
-
5m**
-
20m*
-
0.5m
1.0 m
-
parallel to existing pipelines** Pipelines that run parallel with power lines* Pipeline in the same trench as Fiber Optic Cable Pipeline or existing service and cable buried crossings
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*For distance between pipelines and overhead lines shall be as per clause 11.4.3 of KOC-L-002. **For protection of existing services during construction in accordance with clause 17.0 of KOC-L-002. # The distance can be further reduced upto 1m with manual excavation. 13.4.2. PIPELINE BURIAL DEPTH Minimum cover for pipelines shall be generally 1 m from grade elevation; however it shall be 1.2m under field roads as per clause 17.3.8 of KOC-L-002. Pipeline burial depth from ground surface to top of pipe shall be as per table 13.2 below Table 13.2 Pipeline Burial Depths Location
Minimum Cover
Normal Terrain and sand Dunes
1.0 m
Minor road / Track Crossing (Uncased)
1.2 m
Asphalt Road and Rig Track crossings(Cased)
1.2 m*
Sabkha crossings/ High Water table Areas (Note1)
1.5 m
* Minimum cover from top of casing pipe. Note 1: No high water table / Sabkha areas are identified in this project. Note that the above indicated cover values are the minimum between top of pipe and natural ground surface. In addition, pipelines shall have
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berm with 1m height. Final requirements of cover height shall be verified by flexibility analysis. Note 2: The above mentioned cover for Asphalt Road and Rig Track crossing shall be confirmed with road crossing calculation.
13.4.3. PIPELINE CROSSING A Crossing Design Report shall be prepared and submitted to COMPANY by CONTRACTOR detailing each asphalt road and rig tracks crossing type and method of construction / installation. Crossings shall be suitably designed to API 1102 to prevent any traffic load onto the pipeline and also in accordance with KOC-L-002 Specification. It shall also be suitably designed for electrical influences between the services by using adequate clearance or any other suitable means. Where multiple pipelines are installed adjacent to each other in the same pipeline corridor, the minimum clear spacing at the trenchless road crossings shall be 3 meters. The pipelines shall be designed to prevent expansion or contraction causing excessive forces or stresses in the pipeline system. Pipe sleeves used for Asphalt road and rig tracks crossing installations shall be bare (uncoated) metallic pipe in accordance with clause 7.8.1 of KOC specification KOC-L-015 Rev.2. The crossing of rig track, gatch and paved roads shall be in accordance with KOC standard 381 / 13 Part 1. Field desert tracks, gatch and rig track can be crossed by open cut construction with approval from COMPANY. For RTRP pipeline, metallic sleeves shall be provided at road & track crossing. Pipelines shall be protected at crossings as per API 1102 & KOC-L-002. However subject to Company approval, direct burial is acceptable if Contractor can demonstrate in accordance with API 1102 that the strength of metallic carrier pipe is sufficient without protection by sleeve pipe at road crossing. In addition the carrier pipe wall
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thickness shall meet the applicable Code requirements for road crossing. Sleeve pipe shall be sealed at each end with “Pull-On” type end seals to prevent ingress of soil / water. Major Asphalt road crossings shall be based on trenchless installation method using non-open cut techniques like horizontal directional drilling, auger-boring, thrust-boring or microtunneling techniques. But subject to approval by COMPANY, Open Cut shall be carried out. Crash Barriers shall be installed at all road crossings to protect the installed pipeline and crossing vents from Third Party damage in accordance with the drawings. All crossing methods shall be subject to COMPANY approval. Pipeline safety shall be checked in accordance with API 1102 – Steel Pipeline Crossing Railroads and Highways. all road crossings shall be recorded during Topographic survey. New pipelines shall be buried below existing pipelines with a minimum clearance of 1.0m, unless otherwise agreed by the COMPANY. All Major asphalt
road crossings shall be made at an angle of 90
degree to the road Centre line by an approved ‘non-disruptive’ road crossing method of carrier pipe without any casing if approved by COMPANY. Specific crossing drawings shall be created for each major crossing. The minimum pipeline burial depth for the general route, road and track crossings as given in table 13.2. The following wheel loadings were taken into account in determining the stresses imposed on the carrier pipe / casing pipe at each crossing:
Asphalt Road / Highway / Track crossings: As per KOC specification 015-IH1002, 112kN per wheel at 900mm centers with maximum of four (4) wheels per axle. Contact area per API RP 1102 is 0.093 square meters, giving surface pressure = 1204 kN/m2. Rig Track crossings: The total load of rig is 1100 KN and the maximum Tandem axle wheel load is 550KN. The contact area, over which the wheel load is applied, shall be taken as 0.403 square meters.
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EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 Class 1
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The number of crossings of roads, tracks, pipelines, and other services by new replacement pipelines and their right of way access tracks shall be minimized. Access across the new and replacement pipelines shall be by existing roads and tracks. Where no suitable road or track exists, crossing points at intervals no greater than 1 Km shall be provided as per clause 9.11of 015-IH-1001. For pipelines running alongside other (existing) pipelines, crossing points shall be at the location of existing crossings. Number of crossings and locations shall be reviewed and approved by COMPANY. Pipe strings welds shall be subjected to 100% radiography or 100% ultrasonic testing and hydro tested prior to incorporation into a nondisruptive crossing. The method employed to handle coated pipe and insert the coated line pipe into non-disruptive crossing shall be such that damage to coatings and field joints shall not be there. Pipe sleeves shall be in reference to standard drawing 55-04-77.
13.4.4. FOREIGN SERVICES
All foreign services and underground utilities that are crossing or encroaching in the pipeline corridor shall be located, recorded and protected. CONTRACTOR to confirm position and depth of all utilities shown on the alignment sheets and also any utilities found during detailed survey or during construction activities are the responsibility of CONTRACTOR. All crossings shall be installed as per typical drawings. All new pipelines shall be installed below existing foreign services unless otherwise agreed by the Company. The crossing of existing buried pipelines, cables, power lines and minor roads shall be as below table.
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Minimum Crossing
Crossing
Angle
Existing pipelines and cables,
60° (note-1)
Unimproved roads, track & Asphalt roads Overhead power lines
90° (note-2)
Notes: 1. Wherever it is not feasible to maintain minimum 60°, the crossing angle between proposed pipeline and existing pipeline / cables 1
can be reduced up to minimum 30°. 2.
Wherever
underground
pipeline
crosses
overhead
power
transmission lines, it shall be preferably be at right angle (90°). In unavoidable locations, the horizontal angle of intersection shall be maintained within 70° to 110° to the overhead power line.
13.4.5. PIPELINE CROSSING DRAWINGS Detailed crossing drawings shall be generated for major asphalt road crossings based on confirmed alignment of pipelines as per topographic and geotechnical survey findings shall be provided. The crossing drawings shall include as a minimum:
The road / track / ROW / pipelines / utility / feature to be crossed in relation to the pipeline.
Profile including bend information and depth of cover (if applicable).
Plan, at a scale not greater than 1:500.
COMPANY
requirements,
including
minimum
protection requirements, etc.
Cathodic Protection details.
Pipeline markers.
Line size, material grade and wall thickness.
Crossing co-ordinates.
Proposed method of Construction / Installation
clearances,
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 Class 1
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13.4.6. PIPELINE PRESERVATION: Pipeline preservation is not envisaged for this project. However, if required, the pipeline preservation shall be carried out for Fuel Gas Pipelines after construction, and hydro testing activities are completed. The fuel gas carbon steel pipelines at the termination points of the pipelines at the various installation boundary fences shall have welded steel caps on the ends of the last pipe along with a 2 “ ball valve .The pipelines shall be filled with nitrogen to a pressure of one barg and this internal pipeline pressure shall be monitored to check that there is a positive pressure in the pipeline until it is connected to the installation facility pipeline. A temporary CP system must be installed and working on the pipelines until a permanent CP system is designed and commissioned. HDPE lined water injection pipelines, FBE lined recovered oil pipelines and Pipelines constructed of RTRP do not require nitrogen preservation.
13.5. TOPOGRAPHICAL & GEOTECHNICAL DATA Topographic survey drawings, reports and geotechnical reports shall comply with Project requirement as defined in scope of work for Topographical & Geotechnical survey for Pipeline route corridor.
14.
DESIGN PHILOSOPHY AND PHYSICAL DATA
14.1. PIGGING, HYDRO TESTING & INSPECTION All carbon steel pipelines shall have a hydro test of 1.25 times the design pressure in accordance with ASME B31.4 for water injection pipelines. Fuel gas pipeline shall be hydro tested at 1.25 times the design pressure as per table 841.3.2-1 ASME B31.8. All RTRP pipelines shall have a hydro-test at 1.5 times the design pressure for a period of 30 minutes as a strength test followed by a hydro-test at 1.33 times
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 CONTRACT NO. 14050642 PIPELINE DESIGN BASIS Doc. No. : 14050642-100-PL-DBM-0001
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the design pressure for a period of 8 hours in accordance with KOC standards for RTRP Pipes & Fittings: Engineering Design and Installation, KOC-MP-011 part 2 or as required by company. The Water injection lines, Recovered Oil lines and Fuel Gas Lines shall be designed as piggable. For details and the requirement of permanent or temporary pig traps on the individual systems refer schematic drawing. Pipeline pigging and hydrostatic testing shall be carried out in accordance with KOC Standard 015-IH-1004 and associated Project Addendum EWTIP-20-PL-SPC0015.
14.2. NON DESTRUCTIVE TESTING In road crossing, populated areas, Tie-ins and weld repair locations, All butt welds shall be subjected to 100% X-ray radiography or UT and all fillet welds shall be 100% tested with liquid penetrant / wet magnetic particle crack detection method in accordance with company specifications 015-IH-1008 and 015-WH-1002.
14.3. PIPELINE DEWATERING AND DRYING Pipeline dewatering and drying shall be conducted in accordance with KOC Standard 015-IH-1005 and associated Project Addendum EWTIP-20-PL-SPC0016.
14.4. FIRE AND SAFETY REGULATIONS All relevant safety requirements of KOC’s Fire and Safety Regulations and KOC’s HSE policy Shall be adhered to while performing the works within KOC pig-trap areas and pipeline route.
14.5. SITE TIE-IN REQUIREMENTS The associated pipeline facilities required at tie-in sites include other valves and piping. These facilities, up to the code break locations identified on the P&IDs, shall be designed in accordance with ASME B31.4.
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 CONTRACT NO. 14050642 PIPELINE DESIGN BASIS Doc. No. : 14050642-100-PL-DBM-0001
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Positive isolation by spading / blinding shall be used for welded tie-ins. All tie-in locations shall be identified and a tie-in schedule produced. It shall be confirmed that the connecting piping is adequately protected from overpressure of the pipeline. Hot tapping shall be in accordance to KOC-MP-038: KOC recommended practice for hot-tapping and plugging. 14.6. STRUCTURAL INTEGRITY: The pipelines shall be checked for structural integrity taking into account the anticipated stress conditions in the pipeline during installation, hydrostatic testing and operation. As a minimum the following calculations/checks shall be performed.
Internal pressure
Pipeline road and track crossing analysis in accordance with API 1102
Pipeline stress analysis
Pipeline flexibility and tie-in analysis for above ground pipe work
The stress analysis of the pipeline system shall be performed using the latest version of Caesar II program and evaluated in accordance with the governing code requirements. The stress analysis shall be carried out as per detailed specification for pipeline flexibility analysis (14050642-100-PL-SPC-0001).
15.
WELDING REQUIREMENTS
Welding shall be in accordance with API 1104: Welding of Pipelines and Related Facilities, in conjunction with Project Specification EWTIP-20-PL-SPC-0002: Addendum to KOC specification: Pipeline Design (015-IH-1002, rev.1), EWTIP-20-PL-SPC-0018: Addendum to KOC specification for pipeline construction (015-IH-1001, rev.1). It shall be in line with company standards 015-IH-1008, 015-IH-1001 and 015-IH-1002. For sour service pipeline welding, a project specific welding specification is developed and followed. Refer Document No: Weld key plan / Weld table: 14050642-700-QA-PRO0045.
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EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 CONTRACT NO. 14050642 PIPELINE DESIGN BASIS Doc. No. : 14050642-100-PL-DBM-0001
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TESTING AND PRE-COMISSIONING
During the detail engineering phase of the project the optimum method of pipeline testing and pre-commissioning shall be developed which shall take into account method(s) of test water supply and disposal, dewatering, required level of dryness, method of pipeline drying and introduction of product into the pipeline. Reference shall be as per the Philosophy for cleaning, Gauging, Hydro testing, Dewatering, Drying and Purging of Flow lines/ Pipelines. The cleaning, gauging, testing, drying and pre-commissioning activities shall be performed generally in accordance with the above philosophy and Company specifications 015-IH-1004 and 015-IH-1005 with Project Addendums EWTIP-20-PL-SPC-0015 and EWTIP-20-PL-SPC-0016. 17.
CORROSION PROTECTION
17.1. CATHODIC PROTECTION The underground pipelines shall be protected by the application of highintegrity
coating
systems supplemented with impressed current cathodic
protection (ICCP). Temporary CP utilizing sacrificial anodes shall be used to protect the pipelines during construction, and prior to commissioning of the permanent ICCP systems. CONTRACTOR shall carry out a detailed corrosion study to confirm the requirements for corrosion fittings, corrosion monitoring sample pits and locations along the various pipelines. Reference shall be made to
company
specification
KOC-MP-035:
Internal
Corrosion
Monitoring
Equipment for Facilities and Pipelines. Insulating flange joints shall be provided at the location of underground to aboveground transition of pipelines and wherever applicable as per clause 7.11 of KOC-L-015 for cathodically protected pipelines. All carbon steel pipelines will be electrically isolated from pigging facilities by a properly designed cathodic isolation device downstream of the bypass tee. Pipeline/piping portions including valves and flanges in valve pits shall be protected against corrosion to KOC standards and ensure integrity of cathodic
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 Class 1
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protection system. All pipe supports shall ensure integrity of cathodic protection system. Cathodic protection shall be installed to provide the level of protection required by the KOC standard KOC-L-015.
17.2. EXTERNAL CORROSION
17.2.1. COATING The carbon steel pipes shall be externally coated with a shop applied dual-layer fusion bonded epoxy corrosion coating as per company specification KOC-P-004 part 4 rev.2 and field joint external coating for girth welds, pipeline fitting and flanges shall be protected with fusion bonded epoxy coating as per company specification KOC-P-004 part 7, rev.2. Above ground installations shall be in accordance to Company standard KOC-P-001. Coating thickness DFT and other characteristics shall comply to Table1 and Table-3 of KOC-P-004 part 4 rev.2
EFFLUENT WATER TREATMENT AND INJECTION PLANT (NK) Project No. EF/1761 Class 1
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ATTACHMENT-1: PIPELINE SCHEMATIC DIAGRAM
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