Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
COMPANY Contract No.: LTC/C/NFP/5129/20
CONTRACTOR Project No.: 033764
ASSET
: NFPS
Document Title
:
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
COMPANY Document No.
:
200-20-CE-SPC-00027
CONTRACTOR Document No.
:
033764-E-D-18-SPM-MA-S-00004
Discipline
: CORROSION ENGINEERING
Document Type
: SPECIFICATION
Document Category/Class
:
1
Document Classification
:
Internal
A
21-FEB-2025
Issued for Review
Luca Stefani
Ajitpal Sekhon
Reetesh Kumar
Painting Engineer
Lead M&C Engineer
Eng. Manager
REV.
DATE
DESCRIPTION OF REVISION
PREPARED BY
REVIEWED BY
APPROVED BY
Saipem S.p.A
THIS DOCUMENT IS PROPERTY OF QatarEnergy LNG. THIS DRAWING OR MATERIAL DESCRIBED THEREON MAY NOT BE COPIED OR DISCLOSED IN ANY FORM OR MEDIUM TO THIRD PARTIES, OR USED FOR OTHER THAN THE PURPOSE FOR WHICH IT HAS BEEN PROVIDED, IN WHOLE OR IN PART IN ANY MANNER EXCEPT AS EXPRESSLY PERMITTED BY QatarEnergy LNG.
200-20-CE-SPC-00027_A
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Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
REVISION HISTORY
Revision
Date
Revision Description
A1
09-DEC-2024
Issued for Inter Discipline Check
A
21-FEB-2025
Issued for Review
HOLDS LIST
Hold No
Hold Description
HOLD1
Doc number: Specification for Passive Fire Protection
HOLD2
Coating of fasteners within this spec battery limits
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Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
TABLE OF CONTENTS
1
1.1
1.2
2
2.1
2.2
3
3.1
3.2
3.3
4
5
6
6.1
6.2
INTRODUCTION … 6
Project Objective … 6
Project Scope … 6
DEFINITIONS AND ABBREVIATIONS … 9
Definitions … 9
Abbreviations … 10
REGULATIONS, CODES AND STANDARDS … 11
Company References … 11
Project Documents … 12
Standards … 12
PURPOSE … 16
SCOPE … 16
GENERAL … 17
CONTRACTOR’s Procedure … 17
Pre-Production Meeting … 18
6.3 Manufacturer’s Standard … 18
6.4
CONTRACTOR’s Work Scope … 18
7
8
SAFETY AND ENVIROMENTAL REQUIREMENT … 20
QUALIFICATION … 20
8.1 Written Coating Procedure (WCP) … 20
8.2
8.3
9
9.1
9.2
Coating Procedure Qualification Test (CPT) … 21
Coating Applicator Qualification … 21
MATERIALS … 22
Coating Materials … 22
Abrasive Materials … 22
9.2.1 Applicable Standards … 22
9.2.2 Material Test Certification … 22
9.3
9.4
10
Thinners, Solvents and Cleaners … 23
Touch-up Materials … 23
SHIPPING, HANDLING, AND STORAGE … 23
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NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
10.1 Delivery and Storage … 23
10.2 Date of Materials … 23
10.3 Handling of Coated Items … 23
11
12
AMBIENT CONDITIONS AND APPLICATION EQUIPMENT … 24
SURFACE PREPARATION … 24
12.1 General … 24
12.2 Pre-blasting Preparation … 25
12.3 Abrasive Blast Cleaning … 26
12.3.1 Compressed Air … 26
12.3.2 Protecting Other Equipment … 26
12.3.3 Repairs … 27
12.3.4 Cleaning … 27
12.4 Shop Primed Steel … 27
12.5 Power Tool Cleaning … 27
12.6 Galvanized Steel … 28
12.7 Fiberglass Reinforced Plastic (FRP) Surfaces … 28
13
COATING APPLICATION … 28
13.1 Mixing … 28
13.2 Preparation … 28
13.3 Application – General … 29
13.3.1 Inter-coat Considerations … 29
13.3.2 Dry Film Thickness … 30
13.3.3 Surface Damage / Imperfections … 30
13.3.4 Color … 30
13.3.5 Stainless Steels and Corrosion Resistant Alloys … 30
13.3.6 Stripe Coats … 31
13.3.7 Over-coating Inorganic Zinc Primer … 31
13.4 Application - Immersion Service … 31
13.4.1 Weld Joints … 31
13.4.2 Interfaces … 31
13.4.3 Testing … 31
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NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
14
INSPECTION AND TESTING … 32
14.1 CONTRACTOR’s Responsibilities … 32
14.2 Personnel Qualification … 32
14.3 Compressed Air Quality Test … 33
14.4 Non-conformance Report … 33
15
REMEDIAL WORK … 33
15.1 General Repair … 33
15.2 Repair of Immersion Coatings and Linings … 34
15.3 Repair of Hot-dipped Galvanizing … 34
15.4 Touch-up … 35
16
17
COATING DURABILITY (TBD) … 35
APPENDICES … 36
APPENDIX A – PAINT SYSTEM AND PRODUCTS … 36
Paint Systems … 36
Approved Paint Vendors and Products … 58
APPENDIX B – INSPECTION AND TESTING REQUIREMENTS … 60
APPENDIX C – TYPICAL PAINTING/COATING INSPECTION AND TEST PLAN CHECKLIST (ITP)
… 62
APPENDIX D : PAINTING DAILY INSPECTION REPORT … 64
APPENDIX E : COATING FOR FASTENER … 66
200-20-CE-SPC-00027_A
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NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
1
INTRODUCTION
The North Field is the world’s largest natural gas field and accounts for nearly all the State of Qatar’s gas production. The principal objective of the NFPS projects is to sustain plateau from existing QatarEnergy LNG Operation – S1, S2, S3, N1 and N2, production areas by implementing an integrated and optimum investment program consisting of subsurface development, pressure drop reduction steps and compression.
NFPS projects comprise 3 main investment programs:
- Investment #1: Drilling and Associated Facilities [WHP12S/ WHP13S/ WHP14S/
WHP12N/ WHP13N]
- Investment #2: Trunk line Looping and Intra-field pipeline looping [32” PL1LN, 32”
PL1LS, 38”PL610LS]
- Investment #3: Compression Complexes and associated facilities [Phase 1 CP6S & CP7S; Phase 2: CP8S & CP4N; Phase 3: CP4S & CP6N Phase 4: CP1S & CP1N]
Drilling and Looping, Investments #1 and #2, projects are in execution phase and are being executed as I1P1, EPCOL Projects except for WHP13N, which will be part of NFPS Compression Projects execution which compromises total up to 9 COMPs.
1.1 Project Objective
The objective of this Project includes:
• Achieve standards of global excellence in Safety, Health, Environment, Security and
Quality performance.
• Sustain the Qatarenergy LNG North Field Production Plateau by installing new RPs and one WHPs to support new Compression Complex facilities CP6S & CP7S and pre-installed facilities for future Compression Complex facilities including but not limited to CP4N & CP8S tie-in with integration to the existing facilities under Investment #3 program.
• Facility development shall be safe, high quality, reliable, maintainable, accessible,
operable, and efficient throughout their required life.
1.2 Project Scope
The Project Scope includes detailed engineering, procurement, construction, brownfield modifications, transportation & installation, hook-up and commissioning, tie-in to EXISTING PROPERTY and provide support for start-up activities of the following facilities and provisions for future development. The WORK shall be following the specified regulations, codes, specifications and standards, achieves the specified performance, and is safe and fit purpose in all respects.
for
‐
‐
Facilities - 1A
• RP5S RP with 2 x 28” CRA clad pipelines to RP7S and 2 subsea composite Cables
and associated J tubes from RP7S to RP5S & from CP7S to WHP13S.
• New Fuel Gas 8” CRA Spur-lines and flanged risers from Subsea skid to RP7S
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NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
• Hook-up and brownfield modification at WHP5S/RP5S bridge connection & WHP13S/CP7S Composite cable tie-in and E&I integration including RGA Control modification
• Pipeline decommissioning of 28” CS PL5 including associated demolition work at
WHP5S
Facilities - 2A
• RP6N RP with 1x28” CRA clad pipeline to WHP13N, 2 Subsea composite cables and
associated J tubes from WHP12N to RP4N and RP6N to WHP13N. • New fuel gas spur-line and flanged riser from subsea skid to RP6N • WHP13N Topside • Hook-up and brownfield modification at WHP6N/RP6N, RP4N- HPU-Umbilical and tie- in, WHP12N-new J tube installation, E&I migration, WHP6N/RP4N/WHP4N-E&I migration (Pre-CP4N), WHP13N and RP6N interconnection to NFB.
Facilities - 3A
• RP9S RP with 1x28” CRA clad pipeline to RP4S, • Hook-up and brownfield modification at RP4S/WHP9S, Modifications to integrate
RP9S to the RGA control network.
• Pipeline decommissioning of 28” PL9 to WYE on existing 38” trunkline PL49including
associated demolition work at WHP9S.
Facilities - 1B
• New fuel gas spur-line and flanged riser from subsea skid to RP4N • Fiber Optic Cable from RP6N to onshore LFP East, RP6N to RP4N and RP6N to LQ6S. • Hook-up and brownfield modification at RP6N Composite and FO Tie-ins NFB-PU (East)- FO Tie-in
(East)/BVS
Power & Control modifications, LQ6S/LFP Controls/Telecoms Integration
Facilities - 2B
• RP5N RP with 2 x 28” CRA clad pipelines to RP4N, 1 x 28” CRA clad pipeline to RP6N and 2 subsea composite Cables and associated J tubes from WHP12N to RP5N & from RP6N to RP5N.
• Hook-up and brownfield modification at WHP5N- RP5N Bridge connection, WHP12N Composite cable tie-in, RP4N Intrafield pipeline Hook up PL54 N/LN and E&I integration including NFB-PU Power & Control modifications
• Pipeline decommissioning of 2 x 16” PL56/PL54 Subsea Spur line from WHP5N to
reducing barred tee in subsea tie-in skid on PL6 / PL4.
Facilities - 3B
• 2 subsea composite Cables from RP4S to RP9S & from RP4S to WHP12S (with J-
tube)
• New Fuel Gas 8” CRA Spur-lines and flanged risers from Subsea skid to RP4S • Hook-up and brownfield modification at WHP12S/ RP9S/ RP4S Composite cable tie-
in, Spurline riser installation at RP4S RGA Power & Control modifications.
Facilities - 4B
• 1 subsea composite Cable from CP8S to RP11S (or from RP8S to RP11S as Option).
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NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
• New Fuel Gas 8” CRA Spur-line and flanged riser from Subsea skid to RP8S. • Hook-up and brownfield modification at WHP8S/ WHP11S for Test separator Internal Upgrade and MEG system modification, Spur lines, Power & Control Tie-ins on RP8S, RP11S/WHP11S-Tie-in (Power and Control), RGA Power & Control modifications.
Facilities - 5B
• 2 subsea composite Cables from RT2 to WHP3S & from RT2 to WHP2S (with J-tube)
and FO Cable from RT2 to Barzan WHP1.
• New Fuel Gas 8” CRA Spur-line and flanged riser from Subsea skid to RT2 • Hook-up and brownfield modification at BRZ-WHP1 - FO cable tie-in, WHP2S/ WHP3S/ RT&RT2 Composite cable tie-in and associated modification, RGA Power & Control modifications.
Facilities - 6B
• RP3S RP with 1x24” CRA clad pipeline to RT2 with Stalk on risers, • Hook-up and brownfield modification at RT2 for 24” Intrafield pipeline and Composite/FO cable Hook-up, WHP3S for Production diversion and Utilities, Power and ICSS Hook-up, WHP2S for Composite Cable Tie-ins and Power & Control Integration RGA Power & Control modifications. topside existing and
In-situ abandonment of existing Topside/subsea Composite Cables RT-WHP2S, RT-WHP3S, Topside/Subsea FO cable RT-BRXWHP1.
• Decommissioning at
Figure 1.2.1: NFPS Compression Project COMP3 Scope
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NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
2 DEFINITIONS AND ABBREVIATIONS
2.1 Definitions
Definition
Description
COMPANY
QatarEnergy LNG.
CONTRACTOR
Saipem S.p.A.
DELIVERABLES
FACILITIES
MILESTONE
PROJECT
SITE
All products (drawings, equipment, services) which must be submitted by CONTRACTOR to COMPANY at times specified in the contract. All machinery, apparatus, materials, articles, components, systems and items of all kinds to be designed, engineered, procured, manufactured, constructed, supplied, tested and permanently installed by CONTRACTOR at SITE in connection with the NFPS Project as further described in Exhibit 6.
fabricated,
A reference event splitting a PROJECT activity for progress measurement purpose.
COMP3 - NFPS Offshore Riser/Wellhead Platform & Intrafield Pipelines Project
(i) any area where Engineering, Procurement, Fabrication of the FACILITIES are being carried out and (ii) the area offshore required for installation of the FACILITIES in the State of Qatar
SUBCONTRACT
Contract signed by SUBCONTRACTOR and CONTRACTOR for the performance of a certain portion of the WORK within the Project.
SUBCONTRACTOR
Any organization selected and awarded by CONTRACTOR to supply a certain Project materials or equipment or whom a part of the WORK has been Subcontracted.
WORK
Refer to article 2 of CONTRACT AGREEMENT.
WORK PACKAGE
The lowest manageable and convenient level in each WBS subdivision.
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NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
2.2 Abbreviations
Code
ASTM
CPT
CRA
CS
DFT
DOP
ESV
Definition
American Society for Testing and Material
Coating Procedure Testing
Corrosion Resistance Alloy
Carbon Steel
Dry Film Thickness
Drop-Off Protection
Emergency Shutdown Valve
FEED
Front End Engineering Design
FRP
FTP
GRP
HDG
HSE
ID
ITP
Fiberglass Reinforced Plastic
Fire Test Procedure
Glass Reinforced Plastic
Hot Dip Galvanizing
Health, Safety, Environment
Internal Diameter
Inspection and Test Plan
MSDS
Material Safety Data Sheet
NACE
NFPS
OD
PDS
PFP
PMI
National Association of Corrosion Engineers
North Field Production Sustainability
Outer Diameter
Product Data Sheets
Passive Fire Protection
Positive Material Identification
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NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
PPE
Personal Protective Equipment
PU
OT
Polyurethane
Operating Temperature
QA/QC
Quality Assurance / Quality Control
RA
SS
Risk Assessment
Stainless Steel
SSPC
Society for Protective Coatings
TDS
TSA
UV
VOC
WCP
Technical Data Sheet
Thermal Sprayed Aluminium
Ultraviolet
Volatile Organic Compounds
Written Coating Procedure
3 REGULATIONS, CODES AND STANDARDS
3.1 Company References
S. No
Document Number
Title
LTC/C/NFP/5129/20
Contract Agreement
EXHIBIT 5
Project Instructions
PRJ-PJL-PRC-004
PRJ-PJL-PRC-005
Facilities Engineering and Vendor Document Numbering Procedure
Facilities, System and Unit Number Codes and Descriptions Procedure
PRJ-PJL-PRC-006
Project Information Handover Procedure
PRJ-PJL-PRC-048
PRJ-PJL-PRC-049
Facilities Documentation Metadata Requirements Procedure
Project Information Handover, Verification and Acceptance Procedure
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NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
3.2 Project Documents
S. No
Document Number
200-20-CE-DEC-00006
Material Selection Philosophy for COMP3 Project
200-20-CE-SPC-00028
Specification For Thermally Sprayed Aluminium Coating for COMP3 Project
200-20-CE-SPC-00030
Specification for Hot Dip Galvanizing ff Structural Steel Work for COMP3 Project
200-20-PL-SPC-00032
TECHNICAL SPECIFICATION FOR SUBSEA FLANGES, GASKETS, BOLTS AND NUTS FOR COMP3 PROJECT
200-20-PL-SPC-00040
TECHNICAL SPECIFICATION FOR POLYCHLOROPRENE (PCP) COATING FOR SPLASH ZONE FOR COMP3 PROJECT
200-20-AB-SPC-00004
ARCHITECTURAL SPECIFICATION - OFFSHORE FOR COMP3 PROJECT
HOLD1
Doc. number – Specification for Passive Fire Protection
200-20-PL-SPC-00038
TECHNICAL SPECIFICATION FOR LINE PIPE THERMAL INSULATION COATING FOR COMP3 PROJECT
200-20-PL-SPC-00037
TECHNICAL SPECIFICATION FOR LINE PIPE FUSION BONDED EPOXY (FBE) ANTI-CORROSION COATING FOR COMP3 PROJECT
200-20-PE-DEC-00004
PROJECT BASIS OF DESIGN FOR COMP3
3.3 Standards
S. No Document Number
Title
ASTM A123/123M
Standard Specification for Zinc (Hot-Dip Galvanized) Coatings on Iron and Steel Products, Year 2017
ASTM A193/193M
Standard Specification for Alloy-Steel and Stainless Steel Bolting for High Temperature or High Pressure Service and Other Special Purpose Applications, Year 2022
ASTM A194
Standard Specification for Carbon Steel, Alloy Steel, and Stainless Steel Nuts for Bolts for High Pressure or High Temperature Service, or Both, Year 2020
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COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
ASTM A453
ASTM D520
ASTM D3359
ASTM D4285
ASTM D4417
ASTM D4541
ASTM D4752
ASTM D5162
ASTM E11
ASTM E337
ASTM F844
Standard Specification for High Temperature Bolting, with Expansion Coefficients Comparable to Austenitic Stainless Steels, Year 2017
Standard Specification for Zinc Dust Pigment, Year 2019
Test Methods for Rating Adhesion by Tape Test, Year 2022
Standard Test Method for Indicating Oil or Water in Compressed Air, Year 2018
Standard Test Methods for Field Measurement of Surface Profile of Blast Cleaned Steel, Year 2021
Standard Test Method for Pull-Off Strength of Coatings Using Portable Adhesion Testers, Year 2022
Standard Practice for Measuring MEK Resistance of Ethyl Silicate (Inorganic) Zinc-Rich Primers by Solvent Rub, Year 2020
Standard Practice (Holiday) Testing of Nonconductive Protective Coating on Metallic Substrates, Year 2021
for Discontinuity
Standard Specification for Woven Wire Test Sieve Cloth and Test Sieve, Year 2022
Standard Test Method for Measuring Humidity with a Psychrometer (the Measurement of Wet- and Dry-Bulb Temperatures), Year 2015
Standard Specification for Washers, Steel, Plain (Flat), Unhardened for General Use, Year 2022
ISO 4624
Paints and Varnishes - Pull-Off Test for Adhesion, Year 2016
ISO 8501-1
ISO 8502-3
ISO 8502-6
ISO 8502-9
Preparation of Steel Substrates Before Application of Paints and Related Products – Visual Assessment of Surface Cleanliness – Part 1: Rust Grades and Preparation Grades of Uncoated Steel Substrates and of Steel Substrates after Removal of Previous Coatings, Year 2007
Preparation of Steel Substrates Before Application of Paint and Related Products - Tests for the Assessment of Surface Cleanliness
- Part 3: Assessment of Dust on Steel Surfaces Prepared for Painting (Pressure- Sensitive Tape Method), Year 2017
Preparation of Steel Substrates Before Application of Paints and Related Products - Tests for the Assessment of Surface Cleanliness
- Part 6: Extraction of Soluble Contaminants for Analysis – (Bresle Method), Year 2020
Preparation of Steel Substrates Before Application of Paints and Related Products - Tests for the Assessment of Surface Cleanliness
- Part 9: Field Method for the Conductometric Determination of Water- Soluble Salts, Year 2020
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SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
ISO 8503
ISO 8504-2
ISO 11124
ISO 11125
ISO 11126
ISO 11127
ISO 11127-6
Preparation of Steel Substrates Before Application of Paints and Related Products - Surface Roughness Characteristics of Blast Cleaned Steel Substrates, Year 2012
Preparation of Steel Substrates Before Application of Paints and Related Products – Surface Preparation Methods – Part 2: Abrasive Blast-Cleaning, Year 2019
Preparation of Steel Substrates Before Application of Paints and Related Products - Specifications for Metallic Blast Cleaning Abrasives, Year 2018
Preparation of Steel Substrates Before Application of Paints and Related Products – Test Methods for Metallic Blast Cleaning Abrasives, Year 2018
Preparation of Steel Substrates Before Application of Paints and Related Products – Specifications for Non-Metallic Blast Cleaning Abrasives, Year 2018
Preparation of Steel Substrates Before Application of Paints and Related Products - Test Methods for Non-Metallic Blast-Cleaning Abrasives, Year 2020
Preparation of Steel Substrates Before Application of Paints and Related Products - Test Methods for Non-Metallic Blast-Cleaning Abrasives - Part 6: Determination of Water-Soluble Contaminants by Conductivity Measurement., Year 2022
ISO 19840, Ed. 2012
Paints and Varnishes – Corrosion Protection of Steel Structures by Protective Paint Systems – Measurement of, and Acceptance Criteria for, the Thickness of Dry Films on Rough Surfaces, Year 2012
NACE 6G198 / SSPC-TR 2
Wet Abrasives Blast Cleaning, Year 1998
NACE SP0178, Ed. 2007
Design, Fabrication, and Surface Finish Practices for Tanks and Vessels to Be Lined for Immersion Service, Year 2007
NACE SP0188
Discontinuity (Holiday) Testing of New Protective Coatings on Conductive Substrates, Year 1999
NORSOK M-501
Surface Preparation and Protective Coating, Rev 6 Year 2012 and Rev 7 Year 2022
SN NS 476
Paints and Coatings – Approval and Certification of Surface Treatment Inspectors, Year 2004
SSPC-AB 1
SSPC-AB 2
SSPC-AB 3
SSPC-QP 5
Mineral and Slag Abrasives, Year 2015
Cleanliness of Recycled Ferrous Metallic Abrasives, Year 2015
Ferrous Metallic Abrasive, Year 2017
Standard Procedure for Evaluating Qualifications of Coating and Lining Inspection Companies, Year 2022
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SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
SSPC-PA 1
SSPC-PA 2
SSPC-SP 1
SSPC-SP 3
Shop, Field, and Maintenance Coating of Metal, Year 2016
Procedure for Determining Conformance to Dry Coating Thickness Requirements, Year 2022
Solvent Cleaning, Year 2017
Power Tool Cleaning, Year 2018
SSPC-SP 5 / NACE NO. 1
White Metal Blast Cleaning, Year 2007
SSPC-SP 7 / NACE NO. 4
Brush Off Blast Cleaning, Year 2007
SSPC-SP 10 / NACE NO. 2
Near-White Metal Blast Cleaning, Year 2007
SSPC-SP 11
Power Tool Cleaning to Bare Metal, Year 2012
SSPC-SP 12 / NACE NO. 5
Surface Preparation and Cleaning of Metals by Water Jetting Prior to Recoating, Year 2002
SSPC-VIS 1
ASTM B 183
ASME B1.1
ASTM B 117
Guide and Reference Photographs for Steel Surfaces Prepared by Dry Abrasive Blast Cleaning, Year 2002
Standard Practice Electroplating, Year 2022
for Preparation of Low-Carbon Steel
for
Unified Inch Screw Threads (UN, UNR, and UNJ Tread Forms), Year 2019
Standard Practice for Operating Salt Spray (Fog) Apparatus, Year 2019
ASTM D 4587
Standard Practice for Fluorescent UV-Condensation Exposures of Paint and Related Coatings, Year 2019
ASTM D 610
ASTM B 841
Standard Practice for Evaluating Degree of Rusting on Painted Steel Surfaces, Year 2017
Standard Specification for Electrodeposited Coatings of Zinc Nickel Alloy Deposits, Year 2018
ASTM F 1941
Standard Specification for Electrodeposited Coatings on Mechanical Fasteners, Inch and Metric, Year 2010
ISO 4042
ISO 10576
ASTM B 633
Fasteners – Electroplated Coating Systems, Year 2022
Statistical Methods – Guidelines for the Evaluation of Conformity with Specified Requirements, Year 2022
Standard Specification for Electrodeposited Coatings of Zinc on Iron and Steel, Year 2019
ASTM D 6677
Standard Test Method for Evaluating Adhesion by Knife, Year 2018
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SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
ASTM D 3363
Standard Test Method for Film Hardness by Pencil Test, Year 2022
ASTM F 1470
Standard Practice for Fastener Sampling for Specified Mechanical Properties and Performance Inspection, Year 2019
SSPC-SP16
CAP 437
Brush-Off Blast Cleaning of Coated and Uncoated Galvanized Steel, Stainless Steels, and Non-Ferrous Metals, Year 2020
Standards for offshore helicopter landing areas, Version 8.2, Year 2021
ICAO Annex 14
International Civil Aviation Organization
ISO 12944 Part 1,2,5 and 9
Paints and varnishes — Corrosion protection of steel structures by protective paint systems
4 PURPOSE
This specification defines the minimum requirements of materials, surface preparation, application, testing and inspection of protective coatings for this PROJECT.
5 SCOPE
The coating requirements apply to the production facilities including equipment, piping, structural, vendor packages etc.
This Specification does not cover the following:
Buried and submerged pipelines and risers (battery limit is above splash zone) Storage tanks (in case preceding requirements are indicated in technical data sheet of specific item)
i. ii. iii. Maintenance coating program
This specification shall be read in conjunction with Architectural Specification, Ref.13, which defines requirements for living quarter modules (internal & external walls, floor, false-floor, ceiling).
This specification shall be read in conjunction with Hot Dip galvanizing spec., doc. ‘200-20-CE-SPC- 00030’, for HDG surfaces (considered as a substrate within this document purposes)
The following surfaces does not require additional anti-corrosion painting:
• Concrete and concrete- and ceramic-masonry units and glass • Metal jacketing and weatherproofing on insulation • Plastic, rubber, and plastic-coated materials • FRP/GRP, Plastic, rubber, and plastic-coated materials, unless coating is required for UV protection and/or color-coding Stainless steel (or CRA) tubing, fitting and small manifolds Stainless steel panel, junction and terminal boxes
• •
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SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
SS316 air ducting Lighting fixtures, switches, and receptacles Pilot valves
• • • • Glass components, sensitive parts of instrumentations and gauges •
Valve stems & positioner, movable linkages, pump shafts
Moreover, unless otherwise noted on item functional specification or assembly drawing (which is having priority), the following surfaces shall be left unpainted:
Friction grip surfaces Threaded connections Electrical / instrument wire and cable
• • • • Gasket contact surfaces and exposed seals, bearings and glands • Metal surfaces machined for metal-to-metal contact • Greased fittings and lubricated surfaces • Nameplate tags • Door and building hardware • Cathodic protective anodes • • • Controllers, recorders, transmitters switches, and relays • •
Security cameras Transducers, solenoid valves
Sensors and alarms Filter regulators
6 GENERAL
Procedures to be followed in the painting of production facilities shall be in accordance with this Specification.
The method of surface preparation, paint film thickness, and type of paint used shall be in accordance with APPENDIX A.
Unless indicated otherwise in procurement documents, shop fabricated structural steel and piping shall be coated after assembly and testing; permanent paint system shall be in accordance with this specification, any deviation from this must be approved by COMPANY. Process equipment and machinery shall be primed and finish-coated in the shop.
CONTRACTOR shall control the quality of materials and services to meet the requirements of this Specification, applicable codes and standards, and other procurement documents. Documentation shall be prepared and maintained to provide evidence of compliance with approved procedures and this Specification. A copy of all coating’s inspection documentation shall be provided to COMPANY at the conclusion of the project.
6.1 CONTRACTOR’s Procedure
All coating work shall be performed in accordance with procurement documents, this Specification, and COMPANY approved CONTRACTOR ’S procedures.
SUB-CONTRACTOR procedures shall be included in the CONTRACTOR ’S approved procedures.
As a minimum the procedures shall cover
(1) Surface preparation;
(2) Application of specific coating products;
(3) Personnel training and applicator qualification records in accordance with this Specification;
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(4) A quality plan in accordance with this Specification;
(5) Safety, health, and environmental rules;
(6) Protection of adjacent surfaces.
The CONTRACTOR is responsible for obtaining COMPANY approvals for all procedures prior to the Pre-production Meeting.
All work done by the CONTRACTOR shall be subject to inspection by COMPANY or its designated inspector. The CONTRACTOR shall correct, at no cost to COMPANY, all work not conforming to this Specification.
6.2 Pre-Production Meeting
Before work commences, a pre-job conference shall be conducted to introduce contacts for CONTRACTOR and COMPANY and their project management and inspection representatives. The purpose of the meeting will be to finalize any outstanding clarifications / issues following approval of documentation, verification of responsibilities, special job requirements, contacts, safety of work areas and schedule as a minimum.
6.3 Manufacturer’s Standard
Materials and painting systems that are supplied and applied as part of Vendor package (typically for skid mounted equipment or off-the-shelf items like actuators, pumps, compressors, motors, electrical and control cabinets and panels, switchgear) may receive a Coating Manufacturer’s standard coating system instead of as specified in APPENDIX A if all of the following provisions are met, as a minimum and as applicable:
• Marine Atmosphere: Corrosivity category of coating systems shall be category CX or C5, as
defined in ISO 12944-5.
• Splash zone and submerged zone: Corrosivity category of coating systems shall be Im4 as
per ISO 12944-9.
• Indoor Environments:
• With climatic control (permanently operated HVAC system) – Corrosivity category of
coating systems shall be C2, low corrosivity as per ISO 12944-5.
• Without climatic control, high humidity, and some air pollution - Corrosivity category
of coating systems shall be C3, medium corrosivity as per ISO 12944-5
• Durability of the coating system shall be as indicated in Section 16;
• Suitable qualification to demonstrate performance of the proposed coating system for the
intended application
• Complete details of the Coating Manufacturer’s system shall be provided for review and
approval by COMPANY
• Finish coat color shall be in compliance with APPENDIX A of this Specification.
6.4 CONTRACTOR’s Work Scope
The following is a synopsis of work tasks to be executed by the CONTRACTOR. All work shall be documented with written procedures.
• Preparation of the surfaces and the application of protective coatings to all surfaces as defined in
APPENDIX A of this Specification.
• Establishing and maintaining an inventory log for materials, such as paint, thinners, abrasives, etc.
to ensure correct use of materials with regards to date and batch (First In First Out).
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COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT • Preparing the coating repair procedures for each system used in compliance with applicable
•
COMPANY specifications In order to assure compliance with this specification, the painting / coating SUBCONTRACTOR or VENDOR shall perform the inspections and tests specified in APPENDIX B.
• Protecting applied coating from over-blast or overspray performed in adjacent areas, by suitable
masking and shielding materials or barriers.
• Providing environmental control equipment to achieve and maintain the required application and
curing conditions required. • Applying erection marking. • Performing touch-up and repair of defective or damaged coated surfaces in accordance with
Section 15 of this Specification.
• Applying equipment and piping labeling or identification numbering in compliance with
applicable COMPANY specifications.
• Disposing of waste as per applicable regulations or COMPANY requirements where
appropriate regulations do not exist.
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7 SAFETY AND ENVIROMENTAL REQUIREMENT
All surface preparation, coatings work, and waste disposal shall be in accordance with local regulations. CONTRACTOR / Package VENDOR shall propose alternative coatings and solvents for COMPANY approval during detail engineering if the coatings specified herein do not comply with local volatile organic compound (VOC) limits.
Material Safety Data Sheets (MSDS) shall be available for review at sites and shops where coating is applied. All Personal Protection Equipment (PPE) requirements stated in the MSDS shall be met when working with coatings, solvents, abrasives, or any expendable products used in performing the coating work.
Excess or used solvents, paint, waste materials, and cleaning materials shall be handled in strict accordance with MSDS requirements and applicable local regulations. Such materials shall not be dumped on the ground or emptied into sewers or adjacent waters.
CONTRACTOR are required to perform Risk Assessment (RA) before surface preparation and coating activities.
CONTRACTOR coating activities including coating consumable storage, execution of surface preparation and coating activities shall be subject ed to regular inspection by CONTRACTOR authorized HSE representatives.
CONTRACTOR shall not start daily work until he has obtained a work permit from COMPANY, where applicable.
CONTRACTOR shall recognize COMPANY’s commitment in preserving the environment and shall comply with local codes and standards for transporting, storing, and disposing of hazardous materials and hazardous wastes.
8 QUALIFICATION
8.1 Written Coating Procedure (WCP)
Written coating procedure (WCP) for each paint system shall be subjected to COMPANY review and approval. Any conflicts between Coating Manufacturer recommendations, the WCP and this Specification shall be submitted in writing to COMPANY for approval.
The WCP shall contain the following:
•
Identification of the structures, systems and components to be coated, the coating system and finish coat color to be applied, and the specific coating products to be used for each coat of each system. • Product data sheets. • MSDS for each product. • Personal protective equipment to be used. • A list of all calibrated inspection equipment.
The WCP shall describe the following processes / procedures:
• Coating material handling and storage and inventory controls. • Salt contamination control. • Metal preparation at welds and edges, both prior to blast cleaning and, to the extent that
surfaces anomalies are revealed during blasting, following the blast cleaning.
• Surface preparation - Description of the degree of cleanliness and profile to be achieved. • Stipulate the abrasive to be used. Where different types of surfaces comprising the item(s)
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to be coated will be prepared to different criteria, define the criteria applicable for each. • Description of the specific type/configuration of tools to be used for any alternative surface
preparation techniques other than abrasive blasting.
• Within the ambient or habitat where surface preparation and paint application are performed, indications of environmental controls (temperature, humidity) and involved equipment.
• Reference to scaffolding method statement. • Reference to illumination guidelines and involved equipment . • Application, touch-up, and curing. • Techniques to correct out-of-spec film thickness and surface treatment processes for
“freshening/roughening” coatings that have exceeded their recoat windows/intervals. Inspection.
• • Reference to rules and guidelines for disposal of waste, debris, and unconsumed coating
materials.
The COMPANY approved WCP shall be followed during all coating work. COMPANY’S approval does not relieve the CONTRACTOR /VENDOR of its obligation to perform the coating work in accordance with the requirements of this specification. Any change of coating material, methods, or equipment for surface preparation and coating application shall require that the WCP be revised and re-approved.
8.2 Coating Procedure Qualification Test (CPT)
A CPT shall be performed for the coating systems as required by COMPANY. Environmental conditions, surface preparation, coating application equipment and procedures shall be similar to those anticipated for the actual coating work. All coating application shall be as required in this Specification. Coating application shall include the following:
• Repairs, including ‘step’ masking (see Figure 15-1) •
Inter-coat techniques, including mist coating for silicate-type inorganic zinc and recoat window refresher sweep blasting for epoxies.
• Curing • • Testing requirements for the CPT, including acceptance criteria
Inspection
CPT shall be used to qualify all coating procedures using a test panel. The test panel to be utilized is referenced in Section 10.3.2 of NORSOK M-501 Revision 6, or a comparable type and size of panel approved in advance by COMPANY, may be used. Alternatively, the CPT may be performed in a suitable location on the component to be coated.
8.3 Coating Applicator Qualification
Coating applicator and blaster qualifications shall be reviewed by COMPANY Inspectors to ensure that to support a determination of proficiency. sufficient documented records are available CONTRACTOR shall submit an applicator qualification procedure. Trade test shall be carried out as per agreed competency evaluation check list before starting any surface preparation and coating activities for the project.
Qualified applicators (blasters and painters) shall demonstrate prerequisites as per the applicable specifications. This pre-qualification test shall be witnessed by COMPANY Inspectors and Coating Manufacturer’s representative, as required.
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9 MATERIALS
9.1 Coating Materials
All coating material shall be as specified in this specification. Exceptions require written COMPANY approval and shall be qualified in the CPT.
The coatings specified in APPENDIX B are intended to be available worldwide. CONTRACTOR and
Equipment/Package VENDOR are responsible for preparation of procedures based on products of one
Coating Manufacturer for each paint system, selected in accordance to Vendors systems and products
indicated in Appendix B; if product from multiple paint Manufacturers are considered on adjacent surfaces areas,
dedicated recommendation of compatibility and application shall be submitted to COMPANY for approval.
CONTRACTOR shall purchase coating materials in a timely manner.
All materials applied to any one surface or piece of equipment shall be products of a single Coating Manufacturer. Any deviation from this requirement shall be subject to COMPANY approval.
The CONTRACTOR is responsible for maintaining the paint product batch certificates.
CONTRACTOR shall obtain and furnish COMPANY with certifications from the Coating Manufacturer of each coating material applied showing that materials used contain no elements or compounds of lead, chrome, cadmium, tin, or other hazardous metals. Only ASTM D520 Type II zinc shall be used in the manufacture of zinc-rich primers.
9.2 Abrasive Materials
Abrasives for the preparation of carbon steel shall meet the requirements of sub-section 9.2.1 and 9.2.2 below. Non-metallic abrasives such as aluminium oxide or garnet shall be used for preparing corrosion resistant alloy (CRA) and shall not be recycled.
9.2.1 Applicable Standards
Abrasives for blast cleaning shall be clean and dry, furnished either in bulk or packaged, and shall be free of clay, oil, silica or other contaminants.
The abrasive grade shall be capable of producing the specified surface profile without contaminating the surface.
Mineral and slag abrasives shall additionally meet the requirements of SSPC-AB 1, Class A. Ferrous metal abrasives shall comply with SSPC-AB 3 and if recycled, to SSPC-AB 2.
9.2.2 Material Test Certification
The following testing is to be performed and certified by the abrasives supplier.
As defined in SSPC-AB 1, “qualification tests” are those tests initially run to show conformance with the standard while “conformance tests” verify that production run material provided under a given abrasive order meets the original material qualification test criteria. The supplier of mineral and slag types of abrasive shall certify that the abrasive supplied conforms to the qualification and conformance test criteria stipulated in SSPC-AB 1, ISO 11126 & ISO 11127.
For ferrous metallic abrasive, qualification testing shall consist of all of the testing set forth in SSPC-AB 3, ISO 11124 and 11125 while conformance testing may be limited to size, conductivity and cleanliness.
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SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
An inspection lot for conformance testing shall constitute each 15,000 kg or each manufacturing batch, whichever lesser.
CONTRACTOR is responsible for ensuring that the abrasive materials testing and documentation required by the applicable SSPC and / or ISO abrasive specifications are obtained from the abrasive supplier and is available to the COMPANY’S site representative.
9.3 Thinners, Solvents and Cleaners
Thinners, solvents, and cleaners shall be as manufactured or specified by the Coating Manufacturer and shall be identified by the product number or generic description and accompanied by a latest MSDS.
9.4 Touch-up Materials
Materials for touch-up of damaged areas of surfaces shall be as per the approved procedure or the same as those that were originally applied.
Touch-up materials shall be applied by CONTRACTOR and Equipment/Package VENDOR as per the Coating Manufacturer’s recommendations by following the mixing ratio and thinner quantity.
10 SHIPPING, HANDLING, AND STORAGE
10.1 Delivery and Storage
Coating materials shall be delivered to the place of application in unopened, original containers as provided by Coating Manufacturer. Each container shall bear a legible product designation, batch number, expiration date, shelf life, date of manufacture, and color code. Damaged containers shall remain unopened, and are to be removed from the work site, not to be used.
Material shall be handled and stored in accordance with the Coating Manufacturer’s latest published instructions and shall be protected from damage, moisture, direct sunlight, and temperatures below 5°C or above 32 °C. Storage facility shall be well ventilated and free from open f lame or other sources of ignition.
10.2 Date of Materials
Coating material shall not be used beyond their expiration date.
Containers of coatings or components shall not be opened except for immediate use.
10.3 Handling of Coated Items
Additional precautions and measures shall be taken into consideration to avoid coating damages during transit and handling of shop coated materials. During transportation, coated materials shall be stacked and secured to prevent movement, abrasion and / or peening.
Coated items shall not be handled before the Coating Manufacturer’s published handle time has elapsed.
Coated items shall be isolated from metal or concrete supports during application, storage or transit to prevent coating damage.
Metal equipment used for handling coated parts, including forks and chokers, shall be encased with compressible materials proven to be slip-safe.
Adequate protection is provided for the Shop coated materials during storage, to ensure that the coated materials is not damaged.
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Bare metal cables, chains, hooks, tongs, metal bars or narrow skids shall not be considered to be in direct contact with the coated materials. Wide non-metallic belt slings made of nylon, leather or suitable material shall be used.
11 AMBIENT CONDITIONS AND APPLICATION EQUIPMENT
CONTRACTOR shall not conduct f final surface preparation or apply coatings unless the temperature of the substrate is expected to remain 3°C minimum above the dew point. Relative humidity shall be below 85% during final surface preparation and coating application. The Coating Manufacturer’s recommendations shall be used as the definitive guide but no paint shall be applied at surface when ambient temperatures below 10°C or above 50°C without Coating Manufacturer’s recommendation.
Application equipment shall be as recommended by the Coating Manufacturer and shall be suitable for applying the coating as specified.
Equipment air supply lines shall be equipped with after coolers, knockout pots, or traps to remove moisture and oil.
Compressed air shall be tested to ensure that it is clean and dry. Prior to using compressed air, the quality of the air downstream of the separator shall be tested in accordance with ASTM D4285.
12 SURFACE PREPARATION
12.1 General
Prior to the start of painting, all surfaces shall be thoroughly cleaned of any material. The method of surface preparation used shall be compatible with the priming coat of paint.
Areas that may become inaccessible or difficult to paint after erection shall be painted prior to assembly or erection.
In order to ensure that surfaces can be painted as per minimum requirements, it is recommended that fabrication sequence is planned to allow easy access to surfaces for proper surface preparation, in particular for weld joints in closely spaced pipes and congested areas.
Unless specified otherwise, assembled mechanical rotating equipment such as turbines, etc. shall not be blast cleaned as part of painting operations and shall be suitably protected from abrasive damage. Turbine intakes shall be sealed during abrasive blast cleaning and abrasive removal.
All rotating/packaged equipment and valves shall be sealed and protected during blasting to prevent from blasting material ingress and/or blasting damage.
Abrasive blast cleaning is the preferred method of surface preparation except in hazardous areas where blast cleaning is not permitted. Abrasives for use in blast cleaning carbon steel and low-alloy steel are specified in ISO 8504-2. Suitable abrasives are:
• Chilled iron grit or shot. • Cast-steel grit or shot. • Non-metallic abrasive (aluminium oxide, garnet, etc.).
If stainless steel, galvanized steel, high-alloy steel or aluminium surfaces are to be painted, aluminium oxide or garnet abrasives (as per ISO 8504-2) shall be used for the blast cleaning.
Silica sand shall not be used due to the possibility of personnel health hazard from ingested silica dust.
All carbon steel and low-alloy steel materials shall be abrasive blast cleaned in accordance with SSPC- SP 10 or equivalent surface finish grade as indicated in Table 12.1.
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Stainless steel, high-alloy steel and aluminium surfaces requiring painting shall be abrasive blast cleaned per SSPC-SP 7 or equivalent surface finish grade as indicated in Table 12.1.
Abrasive blast cleaning shall not be used on items which could be damaged by abrasive blasting.
Power tool cleaning per SSPC-SP 11 to produce an anchor profile of 25 μm or greater may be used for spot area surface preparation.
Spent abrasive shall not be re-used without specific permission from COMPANY. This may be considered only on a case by case basis.
Table 12-1 : Surface Finish Grades
SURFACE FINISH GRADE
ISO 8501-1
SSPC
NACE
Solvent Cleaning
Power tool cleaning
Brush-off blast cleaning
St 3
Sa 1
SP 1
SP 3
SP 7
Near-white metal blast cleaning
Sa 21/2
SP 10
White metal blast cleaning
Sa 3
Power too cleaning to bare metal
Water jet cleaning
Wet abrasive blast cleaning
SP 5
SP 11
SP 12
TR 2
No. 4
No. 2
No. 1
No. 5
6G198
12.2 Pre-blasting Preparation
Oil and grease contaminated surfaces shall be cleaned as per SSPC-SP 1 prior to abrasive blast cleaning.
Flame cut edges shall be ground to remove the hard surface layer and to achieve at least a 2 mm radius.
All sharp edges shall be processed to achieve at least a 2 mm radius, except that surfaces subject to immersion shall have a radius of 3 mm. Welds shall be processed as required to result in smooth ripples free of spatter, sharp edges, and undercutting. Welds in immersion service surfaces shall be processed as required to conform, as a minimum, to NACE SP0178.
If grinding of welds is required, such grinding shall be performed in accordance with procedures, including appropriate precautions, approved by the fabricator of the weld.
Before abrasive blast cleaning, all steel shall be water-washed to remove soluble salt contamination.
The soluble salt test shall be conducted during qualification activities and throughout production, prior to blast cleaning. For qualification, a representative sample of each different item to be coated shall be individually tested for soluble salt level determined in accordance with ISO 8502-6 and ISO 8502-9 using the Elcometer 130 /SCM 400 Salt Contamination Meter or COMPANY approval equivalent.
The proposed method shall be indicated in WCP and submitted to COMPANY for approval.
The maximum of total allowable soluble salt level shall not exceed the following limits:
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• CS material at atmospheric exposure: 30 mg/m2
• CS materials at splash zone, immersion zone and internal lining: 20 mg/m2
• SS and non-ferrous alloys material: 20 mg/m2
One further test shall be conducted following blasting during pre-qualification as indicated in Appendix B, to ensure the blasting medium does not introduce unacceptable levels of soluble salts.
12.3 Abrasive Blast Cleaning
Steel surfaces shall be blasted when the surface temperature is at least 3 °C above the dew point and the relative humidity is less than 85 %. Blasting shall not be performed if there is a possibility that the blasted surface will be subjected to wetting before the first coat of primer can be applied. In any case, surfaces shall be air blown wiped or vacuum cleaned to remove blasting abrasive and dust before they are primed.
Unless otherwise approved by COMPANY, surfaces to be coated shall be abrasive blast cleaned as per the requirements of APPENDIX A.
For coating systems with DFT exceeding 500μ, angular profile range of 75μ to 100μ is required.
For coating systems with DFT range 100μ to 500μ, the surface profile of the blast cleaned steel shall be between 50μ to 85μ.
For coating systems with DFT less than100μ, the surface profile of the blast cleaned steel shall be between 25μ to 50μ.
The profile shall be measured using the devices defined in the ISO 8503 or ASTM D4417.
12.3.1 Compressed Air
Compressed air shall be for abrasive blast cleaning and shall be clean, dry, and oil-free.
Traps (in addition to oil and water extractors mounted on the compressor) shall be used in compressed air lines to remove oil and moisture from air close to the point of use.
The presence of oil water shall be determined in accordance with ASTM D4285, test requirements as indicated in Appendix B.
On detection of contamination with oil or water, all activities requiring compressed air shall be suspended until system is cleaned and source of problem is rectified. ECP CONTRACTOR / SUBCONTRACTOR / VENDOR responsible for painting shall advise and shall have agreement from COMPANY regarding rectification prior to recommencing production.
12.3.2 Protecting Other Equipment
Blast cleaning shall not be performed in the immediate area where coating or curing of coated surfaces is in progress.
All surfaces and equipment not to be coated shall be suitably protected from blast cleaning, including factory-coated fasteners.
Machined surfaces shall be protected from damage due to cleaning and coating operations.
The machined portion of pipe flange mating faces shall be masked with fire retardant plywood or plastic to protect the gasket surface and internal components. The remaining part of the flange face (including bolt holes) shall then be blast cleaned and coated.
Equipment shall have all openings temporarily plugged, masked, and / or blinded before abrasive blasting. Protection shall be removed by the CONTRACTOR / SUBCONTRACTOR after the coating application is completed.
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Blasting nozzles shall be discarded and replaced when the nozzle diameter has increased through wear by more than 50 % of the original diameter and when the specified minimum pressure, surface cleanliness and surface profile can no longer be achieved.
12.3.3 Repairs
Burrs, slivers, scabs, sharp edges, and weld spatter, which become visible after blasting, shall be removed.
All sharp edges shall be processed to achieve at least a 2 mm radius, except that surfaces subject to immersion shall have a radius of 3 mm. Welds in immersion service shall be processed as required to conform, as a minimum, to NACE SP0178.
If grinding of welds is required, such grinding shall be performed in accordance with procedures, including appropriate precautions, approved by the fabricator of the weld.
Repaired areas shall have the surface profile suitably restored.
12.3.4 Cleaning
If visible rusting occurs or if the cleaned surface become wet or otherwise contaminated, these surfaces shall be re-cleaned to the degree specified.
After cleaning and immediately before coating, dust shall be removed with dry, oil-free compressed air. Vacuuming shall be used if the surface is not dust free, as determined by COMPANY Inspector.
Machined surfaces shall be cleaned in accordance with SSPC-SP 1 before the application of temporary protective coating.
12.4 Shop Primed Steel
All oil and grease shall first be removed in accordance with SSPC-SP 1.
Following solvent cleaning, all loose dirt, chalk, salt, and other contaminants shall be removed by water wash. The salt concentration on surfaces shall be measured in accordance with requirements in section 12.2.
After erection and / or installation but before painting, the following requirements shall be met:
Items previously primed shall be examined for damage and un-primed areas.
• • For topsides systems, prior to application of finish coat(s), rusty spots (including white rust on zinc- rich shop primers, and un-primed and uncoated areas) shall be removed by spot abrasive blast cleaning. Traces of pre-existing primer may remain. Overlap zones between pre-existing primer and repair primer shall be thoroughly and uniformly abraded and feathered.
• Any equipment such as valves, fittings etc. supplied by VENDOR with shop primer shall be
completely removed and relevant coating system shall be applied as per this specification. • Adjacent areas shall be shielded to prevent over blast damage during spot blast cleaning.
For splash zone and submerged zone, prior to application of the specified coating system, all traces of previously applied primer / shop primer shall be removed by abrasive blast cleaning in order to achieve surface preparation as requested in Appendix A for the specific paint system.
12.5 Power Tool Cleaning
Only those surface preparation tools and materials identified in the approved WCP will be allowed.
The only power tool alternative to abrasive blast cleaning is SSPC-SP 11.
Hand or power tools used to clean carbon steel shall not be used to clean stainless steel.
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Metals contacting stainless steel substrate within the process of hand or power tool cleaning shall be CRA, not carbon steel.
Polishing / burnishing of the prepared surface shall be avoided in order to secure optimum adhesion.
12.6 Galvanized Steel
Requirements for hot dip galvanizing shall be as per ASTM A123 and 200-20-CE-SPC-00030 Galvanized surfaces shall be painted as detailed in APPENDIX A of this Specification.
Before coating, galvanized surfaces shall be:
• Solvent cleaned as per SSPC-SP 1 and • Brush-off blasted to SSPC-SP 7 in order to achieve uniform key roughness without damaging
the protective galvanized layer using fine abrasives.
Repair of galvanized steel before top coating is covered in Section 15.3 of this Specification.
Hollow components shall be designed to provide proper venting, requirements as indicated in project specification ‘200-20-CE-SPC-00030’.
12.7 Fiberglass Reinforced Plastic (FRP) Surfaces
Selected FRP material can include fire retardant, UV protection characteristics and finishing as per COMPANY color code; otherwise FRP exterior surfaces shall be painted for the purpose of ultraviolet ray protection and / or color coding requirement.
In case painting is considered, FRP surfaces shall be solvent cleaned and prepared as recommended by FRP Manufacturer.
13 COATING APPLICATION
13.1 Mixing
Mixing, thinning, applying, and curing of the coating material shall be in accordance with the Coating Manufacturer’s latest published instruction, SSPC-PA 1, and the requirements specified herein.
Paint shall be thinned in accordance with the Coating Manufacturer’s instructions. Improper thinning can result in poor paint or application, which will cause inadequate paint performance. Improper thinning also results in increased emissions of Volatile Organic Compounds (VOC).
Coatings prepared in their original containers shall not be transferred until all settled solids are incorporated.
Coating materials shall be thoroughly mixed until they are smooth and free from lumps.
Coating materials shall be agitated as necessary to keep the solids in suspension during application. Zinc-rich coatings shall be mechanically agitated at all times.
The pot lif e of any paint shall be carefully noted, and any mixed paint that has exceeded pot life shall be discarded regardless of apparent condition.
13.2 Preparation
No coating material shall be applied closer than 100 mm from adjacent non-cleaned surfaces.
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SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
The application of the coating shall be performed only when the environmental conditions meet the parameters specified in this Specification.
Immediately prior to coating, the prepared surface shall be in compliance with the surface cleanliness criteria defined in this Specification. Visible rust is not permitted. If rusting occurs after completion of surface preparation, the surface shall be re-cleaned in accordance with the original method to specified cleanliness.
The time period between surface preparation and primer application shall not exceed 4 hours.
Enclosures to permit coating of surfaces during inclement weather may be used, provided the environmental restrictions specified are maintained throughout the coating and curing periods.
13.3 Application – General
Coating shall be applied using clean equipment recommended by the Coating Manufacturer.
Paint brushes and rollers shall be compatible with the coating material. Application shall be interrupted if there is visual evidence of bristles or roller lint contaminating freshly applied coating.
Heating, air-conditioning, or dehumidification equipment may be required to meet the requirements of this Specification and to achieve the agreed upon schedule.
Paints generally shall not be applied to exterior surfaces in damp, humid weather, when the air temperature is below 10°C, or when relative humidity is above 85 % or when the surface temperature is less than 3°C above the dew point. For using winter cured version of multi component paints, prior written Company approval shall be taken.
Water-based paints may be applied to damp surfaces, but wetting of exterior surfaces is recommended during hot-weather application. The water-based paints shall be applied at air temperatures above 10°C.
Solvent free chemically cured paints generally shall not be applied at air or surface temperatures below 10°C or when relative humidity is above 80%. No paints shall be applied to such a surface temperature / humidity condition that may cause blistering, porosity or other detrimental effects to the life of the paint.
Any solvent free coating suitable for application below 10°C shall be subject to COMPANY prior approval with Coating Manufacturer’s documentations confirming such applications.
Newly painted surfaces shall be protected from rain, condensation, contamination, snow, and freezing until the coating has dried.
13.3.1 Inter-coat Considerations
Overcoats and topcoats shall be applied within the Coating Manufacturer’s minimum and maximum recoat times. Surfaces shall not be recoated until the preceding coat has properly dried or cured.
Inorganic zinc coatings shall be cured and demonstrate an average resistance rating of not less than 4 when evaluated per ASTM D4752. Additional cure time and increased humidity shall be required for inorganic zinc primer applied in dry weather.
Prior application of subsequent coats, surfaces shall be free of any contaminations such as dust, dirt, oil, grease or any foreign material detrimental to performance of the coating system. Any coated surfaces exceeding recoating intervals shall be abraded to provide inter-coat adhesion.
Successive coats of paint should be of different colors.
Substrate and prior coat surfaces are suitably dust free by assessing per ISO 8502-3. Rating shall be 2 or better. For immersion service, Rating 1 is required.
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SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
Items approved by COMPANY for coating with the equipment VENDOR’s standard factory coating (primer only) shall be over-coated as set forth in APPENDIX A. Prior to and as a condition for over- coating, compatibility shall be established by means of the patch test.
13.3.2 Dry Film Thickness
Dry film thickness of each coating shall be within the minimum and maximum specified in APPENDIX A of this Specification and as per paint Manufacturer recommendation. If additional coats are required to achieve the specified DFT, they shall be applied in accordance with the Coating Manufacturer’s recoating instructions and the restrictions above.
The following requirements apply for inorganic zinc primer applied outside the thickness range indicated in APPENDIX A:
• •
•
thickness shall be within paint manufacturer recommendation
insufficient thickness shall be treated as described in Section 15 (in case of low thickness areas) and considering paint Manufacturer recommendations;
upon completion surfaces DFT shall be checked to confirm acceptability (criteria as per Appendix B)
No single spot reading shall be less than 80% of the minimum specified DFT. Average of spot readings shall be above minimum specified DFT.
13.3.3 Surface Damage / Imperfections
The finish application shall be uniform in color, texture and appearance.
Runs, sags, voids, drips, over spray, loss of adhesion, blistering, peeling, mud cracking, inadequate cure, or rusting of the substrate shall not be permitted.
Damaged coatings shall be retouched before succeeding coats are applied.
Where shop coating has been damaged in transit or where damage has occurred to field coats, the following shall apply.
• All damaged and loosely adhering coating shall be removed and the surface thoroughly
cleaned.
• Edges of the breaks shall be feathered and the designated number of prime, intermediate, and finish coats applied. The requirements of this Specification shall apply when making repairs.
• The finish coat for repairs shall match the original color and gloss.
13.3.4 Color
The specific topcoat color for a given surface shall be as indicated in APPENDIX A of this Specification.
The color of successive coats shall vary slightly from the color of preceding coats to permit easy identification without affecting finish color.
Pipe identification marking shall comply with COMPANY’s pipe labeling procedure.
13.3.5 Stainless Steels and Corrosion Resistant Alloys
Paints containing low melting point metal pigments such as lead, cadmium, or zinc shall not be used to overcoat stainless steel materials. Such paints shall not be applied in proximity to stainless steel which contamination of stainless steel is possible.
Overspray protection shall be provided as required.
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Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
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SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
Special care shall be taken for the protection of stainless steel and high-alloy materials from blasting, overspray and coatings intended for carbon steel and low-alloy steel materials. Only stainless steel wire brushes which have not been previously used on carbon steel surfaces may be used for hand or power tool cleaning.
In general, at interfaces between stainless steel and carbon steel materials the coating of the stainless steel is carried out prior to painting of the adjacent carbon steel. The actual method to be used at these interfaces is to be reviewed and approved by COMPANY.
Color coding materials for use on stainless steel and high-alloy materials shall be low chloride markers.
13.3.6 Stripe Coats
All rough welds, threads, nuts, crevices, and sharp edges shall receive at least one stripe coat applied by brush. If the stripe coat manifests visible holidays, a second stripe coat shall be applied.
Welds, edges, crevices, nuts, and threads in lined tanks shall receive two brush-applied stripe coats.
13.3.7 Over-coating Inorganic Zinc Primer
Application process variables such as the applied thickness and relative humidity will influence the thoroughness of the cure. Special techniques may be needed to promote cure under adverse conditions.
Inorganic zinc coatings shall be cured and demonstrate an average resistance rating of not less than 4 when evaluated as per ASTM D4752. Additional cure time and increased humidity or wetting shall be required for inorganic zinc primer applied in dry weather.
13.4 Application - Immersion Service
The following requirements apply to fully immersed and splash zone exposures, interior of lined storage tanks.
13.4.1 Weld Joints
Protective coverings shall be installed to all coated horizontal surfaces and removed after construction is completed.
Closing welds in lined tanks and coated immersion surfaces, including welds in pipe that will be coated and insulated, shall be vacuum blast cleaned to SSP-SP 5 before stripe and touchup coating. Adjacent sound coating must be protected against over blast and overspray.
13.4.2 Interfaces
Successive coats of multi-coat systems shall be “stepped” back from the uncoated termination at weld joint hold-backs.
When performing weld joint “tie-ins,” adjacent sound coating must be protected against over blast. Masking before the final step application should be performed in such a way that a “fringe” of abraded original coating 10 ± 5 mm is visible when the masking is removed (refer to Figure 15-1 below).
At interfaces between splash zone and immersion systems, the splash zone system shall overlap the immersion system at least 25 cm. At interfaces between splash zone and topsides systems, the topside system shall overlap the splash zone system at least 25 cm.
13.4.3 Testing
Inspection and testing shall be carried out in accordance with Section14 and APPENDIX B.
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Classification: Internal
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SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
Splash zone surfaces and the entirety of internal lined tank surfaces shall be holiday tested and any holidays found shall be repaired and retested for entire area to be 100% holiday free. Holiday testing shall be carried out over fully cured coating as per Coating Manufacturer’s requirements of curing.
When high voltage is used for holiday retesting, it is essential that the repair coating be cured to the extent required by the Coating Manufacturer before probe contact for follow-up testing. Note that premature or prolonged contact between the holiday test probe and the pre-existing coating can degrade that coating. Probe contact shall be confined to the repair area.
14 INSPECTION AND TESTING
14.1 CONTRACTOR’s Responsibilities
CONTRACTOR shall control the quality of items and services to meet the requirements of the applicable codes and standards and other requirements of this Specification.
All surface preparation, painting work carried out shall be subjected to systematic stage-wise inspection by the Coating Inspector. The inspection requirements shall be detailed in Inspection and Test Plan (ITP). A typical ITP is given in APPENDIX C. Additionally the work shall be subjected to random inspection as and when required COMPANY. All coating and coating repair works shall be inspected and approved by COMPANY appointed QA/QC.
CONTRACTOR shall grant COMPANY Inspectors unimpeded access to inspect all work performed.
CONTRACTOR shall follow APPENDIX B to carry out any preparatory and painting / coating activities subject to the inspections. Typical painting inspection report is given in APPENDIX D.
Upon completion, the work shall be subject to final inspection, review and sign-off, in accordance with the PROJECT requirements.
CONTRACTOR shall furnish the necessary testing and inspection instruments. Inspection instruments shall be properly calibrated and maintained. Such equipment shall be available for use by COMPANY in conducting surveillance of the work.
Documentation shall be prepared and maintained to provide evidence of compliance with COMPANY - approved procedures and this specification.
14.2 Personnel Qualification
Personnel performing inspection or verification shall have a minimum of 5 years’ experience in similar projects. A minimum of one Site Inspector shall hold current certification in accordance with one of the following:
• SN NS 476 (Inspector Level), • NACE Coating Inspector , Level 3,
• Level II qualification requirements described in SSPC QP 5, Section 6, “Personnel”,
• FROSIO Level III,
•
ICorr Level III,
• AMPP Senior Certified Coatings Inspector,
• An equivalent qualification recognized by COMPANY.
Any other coating inspector on site shall have a minimum of 5 years experience in similar projects and hold at least a NACE Level 1 (or COMPANY-approved equivalent) coating inspector certification.
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SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
14.3 Compressed Air Quality Test
Prior to using compressed air, the quality of the air downstream of the separator shall be tested in accordance with ASTM D4285.
This test shall be performed at the frequency indicated in APPENDIX B.
This test also shall be made after any interruption of the air compressor operation or as required by COMPANY.
The air shall be used only if the test indicates no visible contamination, oil, or moisture. If contaminants are evident, the equipment deficiencies shall be corrected, and the air stream shall be retested.
Separators shall be bled continuously.
All compressed air lines shall be tested individually prior to use.
Surfaces determined to have been blasted or blown down with contaminated air shall be cleaned of that contamination per SSPC-SP 1 and re-blasted with clean air and abrasive.
14.4 Non-conformance Report
Work found unacceptable by COMPANY shall be promptly corrected in accordance with this Specification.
For any discovered non-conformance to this Specification, CONTRACTOR /VENDOR shall submit a non- conformance report to COMPANY identifying any defect and detailing the repair procedure.
Unless otherwise specified, any defects disclosed by inspection shall be re-inspected after rectification.
15 REMEDIAL WORK
15.1 General Repair
Coated surfaces within the scope of the Specification that are damaged during assembly or handling shall be repaired in accordance with procedures accepted by COMPANY using the same system as that being repaired.
The surface shall be restored to meet the specified surface preparation requirements for cleanliness and profile.
Repair of multi-coat system shall be performed as shown in Figure 15-1. Successive coats of multi-coat systems shall be “stepped” outward onto the pre-existing coating from the bare metal. The repair area may be rectangular or square depending on the dimensions of the exposed metal and shall be accomplished in no fewer than two masking steps. The coating to be overlapped shall be abraded and edge-feathered into the adjacent bare spot.
Feathering shall be accomplished with #80 grit abrasive cloth / paper. Surface abrasion shall be accomplished by hand sanding or by abrasive blasting using reduced nozzle pressure (275KPa) with a fine grit.
A fringe of abraded original coating will be visible when the masking is removed. The top coat, while abraded, shall be intact.
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SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
Figure 15-1 Repair Sketch
15.2 Repair of Immersion Coatings and Linings
In addition to the general repair requirements listed in the preceding section, the following repair criteria apply:
• Where holiday testing of linings reveal pinholes, the lining at the affected spots shall be
removed with a power tool cleaning to expose the substrate.
• Damage to the adjacent coated areas shall be avoided. Vacuum blast-type equipment and masking shall be used to prevent damage to adjacent coated areas. Profile needs to be restored after the coating is removed.
15.3 Repair of Hot-dipped Galvanizing
For weld repair and minor damage:
• Clean the damaged area per SSPC-SP 11 / ISO 8501-1 St3 with minimum surface profile of 25μ. • Touch-up with 2 coats of zinc rich epoxy by brush application to achieve a Total DFT of 75 μ to 100μ. • Apply the specified topcoat.
For major damage (repair area larger than 0.1 m2):
• Abrasive blast clean damaged area to SSPC-SP 10 with profile of 50-85 μ.
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SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
• Sand intact galvanized surface to a feathered edge. • Spray-apply a coat of zinc rich epoxy to achieve a Total DFT of 75 μ to 100 μ. • Apply the specified topcoat Apply the specified painting system if the galvanized component needs to be painted, or polyurethane topcoat for galvanized item not to be painted, if any.
15.4 Touch-up
Prior to application of any coat, all welded portions and / or all damage to the previous coat(s) shall be touched-up. The surface preparation of damaged surfaces and field welded parts shall be abrasive blasted or power tool cleaned in accordance with SSPC-SP 11 to achieve an original surface cleanliness and minimum 25 microns anchor profile. For abrasive blast cleaning, the small blasting devices such as vacuum blasters or pencil type blasters may be used.
Touch-up of damaged inorganic zinc coating shall be with zinc rich epoxy.
Items supplied with the approved VENDOR’s standard coating system shall be touched-up with the same generic coating materials or as per APPENDIX A of this specification.
Top coat touch-up areas shall match the color of the original paint for uninsulated surfaces. Damaged galvanizing shall be repaired as per Section 15.3.
A strip coat shall be applied to all welds, corners and edges after application of the prime coat and before the next full coat. The strip coat shall be brushed or rolled.
16 COATING DURABILITY (TBD)
Paint system and products indicated in Appendix A shall be applied in order to ensure durability and minimum lifetimes (as per definition specified in ISO 12944-2) given below:
• 5 years life for atmospheric exposure;
• 10 years life for internal coating of tanks, vessels and equipment.
The performance requirements for the above specified durability:
• The maximum degree of rusting shall be Ri2 according to ISO4628, • The maximum degree of cracking, blistering or flaking shall be 3S3 according to ISO 4628.
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SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
17 APPENDICES
APPENDIX A – PAINT SYSTEM AND PRODUCTS
- Paint Systems
No.
Description
Paint System Code
Surface Preparation
Paint Generic Type / Colour Shade
Primer
st
1
nd
2
Intermediate
Intermediate
Finish Coat
Total DFT (µ)
Finish Coat Colour (Note 1)
Remarks
1
STRUCTURAL STEEL - TOPSIDE SURFACE ABOVE SPLASH ZONE El. +5.0m (Note 7)
1.1
Flare boom and radio towers
D
SSPC-SP-5 (Profile: 75- 125µ)
Thermal Spray Aluminium (250µ- 375µ)
—
—
—
250-375µ
—
1.2
Heliport Surface
• Note 3 & 17 • For < 110°C, sealer coat shall be Epoxy sealer (40µ max) + PU topcoat (40µ max) – Colour shade as per safety requirements.
• For 110°C and above, Silicone ( 25-30µ) shall be
Aluminium applied.
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SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
No.
Description
Paint System Code
Surface Preparation
Paint Generic Type / Colour Shade
Primer
st
1
nd
2
Intermediate
Intermediate
Finish Coat
Total DFT (µ)
Finish Coat Colour (Note 1)
Remarks
1.2.1
Heliport surfaces (conventional carbon steel)
R
SSPC-SP-10 (Profile: 75- 100µ)
Abrasion Resistant Glass Flake Epoxy (300µ-350µ)
Abrasion Resistant Glass Flake Epoxy (300µ-350µ)
Apply anti-skid silica particles on wet surface
660-775µ
Polyurethane for safety colour coding (60-75µ)
1.2.2 Heliport
Surfaces (aluminum structure)
Vendor Standard
Shot blasting (profile 35- 70 µ)
Polyamide- cured epoxy primer (40-80 µ)
High solid polyamine epoxy (75-100 µ)
Polyamide- cured epoxy primer (75- 100µ)
240-340 µ
Polyurethane (50-60 microns)
As per aviation authority requirement • Red – BS4800 04 E
53 (Poppy)
• Yellow – BS4800 10 E
53 (Sunflower Yellow)
• Dark Green – BS
4800 14 E 39 (Holly Green)
• White – RAL 9010 (Pure White) & RAL 9003 (Signal White)
• See Note 13 for broadcast type non-
skid.
• Helipad border: colour shade as
per aviation authority requirement. • The application of anti-skid particle distribution should be as per recommendation. Manufacturer’s to be Excess un-bonded particles removed.
• Refer Appendix-A: CAP
437 Standards for Offshore Helicopter Landing Areas.
As per aviation authority requirement: • Red – BS4800 04 E
53 (Poppy)
• Yellow – BS4800 10 E 53 (Sunflower Yellow)
• The paint system and anti-skid
size shall follow Vendor’s standard painting system for aluminum helideck and shall meet the requirement of friction test CAP 437.
• The application of anti-skid
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• Dark Green –
BS4800 14 E 39 (Holly Green) White – RAL 9010 (Pure White) & RAL 9003 (Signal White)
particle distribution should be as per Manufacturer’s recommendation. Excess unbonded particles to be removed. • Refer and comply with Appendix A in CAP 437 (Standards for Offshore Helicopter Landing
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SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
No.
Description
Paint System Code
Surface Preparation
Paint Generic Type / Colour Shade
Primer
st
1
nd
2
Intermediate
Intermediate
Finish Coat
Total DFT (µ)
Finish Coat Colour (Note 1)
Remarks
Areas)
D
A
1.3
1.4
Crane structure, deck crane external with the exception of the crane pedestal Columns, beams, girders, trusses, channels, bulk heads, deck bottoms or other structural members
SSPC-SP-5 (Profile: 75- 125µ)
Thermal Spray Aluminium (250µ- 375µ)
—
—
—
250-375µ
—
• Sealer coat shall be Epoxy sealer (40µ max) + PU topcoat (40µ) – Colour shade as per safety requirements.
SSPC-SP-10 (Profile: 50- 85µ)
Zinc Rich Epoxy (75µ-100µ)
HB Epoxy MIO (125µ-150µ)
HB Epoxy MIO (125µ-150µ)
Polyurethane ( 50µ-75µ)
375µ-450µ Beige RAL 1019
• Note 2, 3 & 6 •
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SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
No.
Description
Paint System Code
Surface Preparation
Paint Generic Type / Colour Shade
Primer
st
1
nd
2
Intermediate
Intermediate
Finish Coat
Total DFT (µ)
Finish Coat Colour (Note 1)
Remarks
1.5
Deck, top surface (+Deck hatches)
O
SSPC-SP-10 (Profile: 75- 100µ)
Abrasion Resistant Glass Flake Epoxy (350-450µ)
Abrasion Resistant Glass Flake Epoxy (350-450µ)
Apply anti-skid silica / Aluminium oxide particles on wet surface
Polyurethane (60-75µ)
760-975µ
Beige RAL 1019
• Note 13 •
1.6
Escape walk ways
O
SSPC-SP-10 (Profile: 75- 100µ)
Abrasion Resistant Glass Flake Epoxy (350-450µ)
Abrasion Resistant Glass Flake Epoxy (350-450µ)
Apply anti-skid silica / Aluminium oxide particles on wet surface
Polyurethane ( 60-75µ)
760-975µ
Traffic Yellow RAL 1023
1.7
Laydown decks
Q
1.8
1.9
Assembled galvanized structures, including bolts Galvanized grating, stair treads
H
S
Abrasion Resistant Epoxy Glass Flake ( 500-600µ)
Epoxy Mastic (100-200µ)
Epoxy Mastic (200-300µ)
SSPC-SP-10 (Profile: 75- 100µ)
Washing and sweep blast clean as per SSPC-SP-7 Washing and sweep blast clean as per SSPC-SP-7
—
—
—
—
Abrasion Resistant Epoxy Glass Flake (500-600µ )
Polyurethane (40-75µ)
1000-1200µ Beige RAL 1019
140-275µ
Beige RAL 1019
• Note 2 & 6 • Refer Clause 15.3
Polyurethane (60-75µ)
260-375µ
Beige RAL 1019 or applicable in case of safety color codes
Apply anti-skid graded silica / Aluminium oxide particles on wet surface
• Finishing top coat as per safety color
code.
• HDG coating based on ASTM
A123/A123M; requirements as per project spec doc.’200-20-CE-SPC- 00030’
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SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
No.
Description
Paint System Code
Surface Preparation
1.10
Galvanized deck plate and ladder rung
S
1.11 Galvanized
H
ladders, cages, platforms and handrail assemblies all surface Beneath cementitious fireproofing Structural steel
1.12
1.12.1
—
B
1.12.2
Galvanized steel
H
Primer
Epoxy Mastic ( 200-300µ)
Epoxy Mastic (100-200µ)
Washing and sweep blast clean as per SSPC-SP-7
Washing and sweep blast clean as per SSPC-SP-7
—
—
SSPC-SP-10 (Profile: 50- 85µ)
Zinc Rich Epoxy (60-100µ)
Epoxy Mastic (100-200µ)
Washing and sweep blast clean as per SSPC-SP-7
1.13
Beneath intumescent fireproofing
—
—
—
Paint Generic Type / Colour Shade
st
1
nd
2
Intermediate
Intermediate
Finish Coat
Total DFT (µ)
Finish Coat Colour (Note 1)
Remarks
—
—
—
—
—
—
Polyurethane ( 60-75µ)
Apply anti-skid graded silica / Aluminium oxide particles on wet surface
260-375µ
Beige RAL 1019
• For ladder rung nonskid particles
can be pre-blended with topcoat, if required.
—
—
—
—
—
Polyurethane (40-75µ)
140-275µ
Traffic Yellow RAL 1023
—
—
—
• Refer
to specification for PFP
HB Epoxy (130- 200µ)
190-300µ
No colour requirements
Polyurethane (40-75µ)
140-275µ
No colour requirements
—
—
—
Ref.14
• Note 2 • VENDOR’s standard finish, s ince it is
concealed under PFP.
• PFP Manufacturer must be consulted
for compatibility.
• Note 2 • VENDOR’s standard finish, since it is
concealed under PFP. • PFP Manufacturer must be consulted for compatibility.
• Note 3, 6 • Refer to specification for PFP
Ref.14
• PFP Manufacturer’s
recommended
primer.
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SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
No.
Description
Paint System Code
Surface Preparation
Paint Generic Type / Colour Shade
Primer
st
1
nd
2
Intermediate
Intermediate
Finish Coat
Total DFT (µ)
Finish Coat Colour (Note 1)
Remarks
1.13.1 Structural steel
B
SSPC-SP-10 (Profile: 50- 85µ)
Zinc Rich Epoxy (60-100µ)
1.13.2 Galvanized steel
H
1.14
Galvanized cable trays
H
Epoxy Mastic (100-200µ)
Epoxy Mastic (100-200µ)
Washing and sweep blast clean as per SSPC-SP-7
Washing and sweep blast clean as per SSPC-SP-7
1.15
Stainless steel supports
I
SSPC-SP-7 (Profile: 25- 50µ)
Temperature Resistant Phenolic Epoxy (75-125µ)
2.0
2.1
STRUCTURAL STEEL - SPLASH ZONE (From +5M to -5M)
Columns, beams, girders, struts or other structural members
D
SSPC-SP-5 (Profile: 75- 125µ)
Thermal Spray Aluminium ( 250-375µ)
—
—
—
—
—
—
—
—
—
—
HB Epoxy (130-200µ)
190-300µ
No colour requirements
Polyurethane (40-75µ)
140-275µ
No colour requirements
• Finish color on top of PFP coating • VENDOR’s standard finish, since it is
concealed under PFP. • PFP Manufacturer must be consulted for compatibility.
• Finish color on top of PFP coating • VENDOR’s standard finish, since it is
concealed under PFP. • PFP Manufacturer must be consulted for compatibility.
Polyurethane (40-75µ)
140-275µ
Beige RAL 1019
Temperature Resistant Phenolic Epoxy (75-125µ)
150-250µ
Manufacturer’s Standard Grey
• Polyurethane top coat 50-75µ shall be applied for UV protection for uninsulated components.
•
—
250-375µ
—
• Note 14 • Sealer coat shall be Epoxy sealer (40µ max) + PU top coat (40µ) – Colour shade as per safety requirements.
200-20-CE-SPC-00027_A
Page 41 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
No.
Description
Paint System Code
Surface Preparation
Paint Generic Type / Colour Shade
Primer
st
1
nd
2
Intermediate
Intermediate
Finish Coat
Total DFT (µ)
Finish Coat Colour (Note 1)
Remarks
2.2
2.3
boat landing components, riser guard
Galvanized grating stair treads
G
G
SSPC-SP-10 (Profile: 75- 100µ)
Washing and sweep blast clean as per SSPC-SP-7
Abrasion Resistant Glass Flake Epoxy (400-500µ) Abrasion Resistant Glass Flake Epoxy (250- 300µ)
—
—
—
400-500µ
No colour requirements
• in case surfaces are exposed to external environment (atmospheric & seawater corrosion)
• Manufacturer’s standard finish.
Polyurethane (60- 75µ)
Apply anti-skid graded silica / Aluminium oxide particles on wet surface and allow to dry
310-375µ
Beige RAL 1019
• Finishing top coat as per safety color
code.
• HDG coating based on ASTM A123 requirements as per /A123M; project specification doc.’200-20- CE-SPC-00030’
3.0
STRUCTURAL STEEL - SUBMERGED ZONE (All surfaces below splash zone)
3.1
Columns, beams, girders, struts or other structural members
K
SSPC-SP-5 (Profile: 75- 100µ)
100% Solids Epoxy (300-400µ)
—
—
100% Solids Epoxy (300-400µ)
600-800µ
No colour requirements
• Note 6, 7 • Immersion grade shall be used.
200-20-CE-SPC-00027_A
Page 42 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
No.
Description
Paint System Code
Surface Preparation
Paint Generic Type / Colour Shade
Primer
st
1
nd
2
Intermediate
Intermediate
Finish Coat
Total DFT (µ)
Finish Coat Colour (Note 1)
Remarks
3.2
Carbon steel, structural for subsea pipelines, DOP, supports, crossings,
K
SSPC-SP-5 (Profile: 75- 100µ)
100% Solids Epoxy (300-400µ)
—
—
100% Solids Epoxy (300-400µ)
600-800µ
Hight visibility, as per ISO 13628-1 Annex B
• Note 6, 7 • Immersion grade shall be used.
4.0
FABRICATED PIPING, SUPPORTS, VALVES AND OTHER ASSOCIATED IN-LINE EQUIPMENT: EXTERNAL SURFACES
4.1
Carbon Steel (Note 7)
4.1.1
Supports, including shoes
4.1.2
Uninsulated up to 110°C
4.1.3
Fire water lines
4.1.4 Well heads up to 110°C
A
A
A
A
SSPC-SP-10 (Profile: 50- 85µ)
SSPC-SP-10 (Profile: 50- 85µ)
SSPC-SP-10 (Profile: 50- 85µ)
SSPC-SP-10 (Profile: 50- 85µ)
Zinc Rich Epoxy (75µ-100µ)
HB Epoxy MIO (125µ-150µ)
HB Epoxy MIO (125µ-150µ)
Polyurethane (50µ-75µ)
375µ-475µ Beige RAL 1019
Zinc Rich Epoxy ( 75µ-100µ)
HB Epoxy MIO (125µ-150µ)
HB Epoxy MIO ( 125µ-150µ)
Polyurethane ( 50µ-75µ)
375µ-475µ Beige RAL 1019
Zinc Rich Epoxy (75µ-100µ)
HB Epoxy MIO (125µ-150µ)
HB Epoxy MIO ( 125µ-150µ)
Polyurethane ( 50µ-75µ)
375µ-475µ Safety Red RAL3000
Zinc Rich Epoxy (75µ-100µ)
HB Epoxy MIO (125µ-150µ)
HB Epoxy MIO ( 125µ-150µ)
Polyurethane ( 50µ-75µ)
375µ-475µ Black RAL9017
• Note 2 •
• Note 8 •
• Note 8 •
• Note 8 •
200-20-CE-SPC-00027_A
Page 43 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
No.
Description
Paint System Code
Surface Preparation
Paint Generic Type / Colour Shade
Primer
st
1
nd
2
Intermediate
Intermediate
Finish Coat
Total DFT (µ)
Finish Coat Colour (Note 1)
Remarks
4.1.5
Uninsulated, 110°C to 150°C
D (or)
I
4.1.6 Well heads up to 200°C
D (or)
4.1.7
Uninsulated 150°C to 400°C
I
D (or)
E
SSPC-SP-5 (Profile: 75- 125µ)
Thermal Spray Aluminium ( 250-375µ)
SSPC-SP-10 (Profile: 50- 85µ)
SSPC-SP-5 (Profile: 75- 125µ)
SSPC-SP-10 (Profile: 50- 85µ)
SSPC-SP-5 (Profile: 75- 125µ)
SSPC-SP-10 (Profile: 50- 85µ)
Temperature Resistant Phenolic Epoxy (75-125µ) Thermal Spray Aluminium ( 250-375µ)
Temperature Resistant Phenolic Epoxy (75-125µ) Thermal Spray Aluminium ( 250-375µ)
Inorganic Zinc (60-100µ)
4.1.8
Risers in Splash zone
See Remarks
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Silicone Aluminium (25µ- 30µ)
Temperature Resistant Phenolic Epoxy (75-125µ) Silicone Aluminium ( 25µ- 30µ)
Temperature Resistant Phenolic Epoxy (75-125µ) Silicone Aluminium ( 25µ- 30µ)
250-375µ
Aluminium
• Note 8, 14
150-250µ
Manufacturer’s Standard Grey
• Note 8 • System “I” to be used up to 150°C,
short term exposure to 175°C.
250-375µ
Aluminium
• • Note 8, 14
150-250µ
Manufacturer’s Standard Black
• Note 8 • System “I” to be used up to 150°C, short term exposure to 175°C.
250-375µ
Aluminium
•
• Note 8, 14
Silicone Aluminium (25- 30µ)
Silicone Aluminium (25- 30µ)
110-160µ
Aluminium
• Note 8
—
—
—
—
• Note 10
200-20-CE-SPC-00027_A
Page 44 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
No.
Description
Paint System Code
Surface Preparation
4.1.9
Risers above splash zone up to ESDV
4.1.10
Insulated up to 150°C
4.1.11
Insulated, 150°C to 400°C
4.1.12
Insulated, cyclic service
4.1.13
Galvanized pipe (if any)
A (or)
D
I (or)
D
J
D
H
SSPC-SP-10 (Profile: 50- 85µ)
SSPC-SP-5 (Profile: 75- 125µ)
SSPC-SP-10 (Profile: 50- 85µ)
SSPC-SP-5 (Profile: 75- 125µ)
SSPC-SP-10 (Profile: 50- 85µ)
Thermal Spray Aluminium ( 250-375µ)
Temperature Resistant Phenolic Epoxy (75-125µ) Thermal Spray Aluminium (250- 375µ)
Inorganic Zinc (60-100µ)
SSPC-SP-5 (Profile: 75- 125µ)
Thermal Spray Aluminium ( 250-375µ)
Washing and sweep blast clean as per SSPC-SP-16
Epoxy Mastic
(100µ – 200µ)
Paint Generic Type / Colour Shade
Primer
st
1
nd
2
Intermediate
Intermediate
Finish Coat
Total DFT (µ)
Finish Coat Colour (Note 1)
Remarks
Zinc Rich Epoxy (75µ-100µ)
HB Epoxy MIO (125µ-150µ)
HB Epoxy MIO (125µ-150µ)
Polyurethane ( 50µ-75µ)
375µ-475µ Beige RAL 1019
•
—
—
—
—
—
—
—
—
—
Silicone Aluminium (25µ- 30µ)
Temperature Resistant Phenolic Epoxy (75-125µ)
Silicone Aluminium (25µ- 30µ)
250-375µ
Aluminium
• Note 14
150-250µ
Manufacturer’s Standard Grey
• • System “I” to be used up to 150°C, short term exposure to 175°C.
250-375µ
Aluminium
• Note 14
Silicone Aluminium (25- 30µ)
Silicone Aluminium (25- 30µ)
110-160µ
Aluminium
—
—
250-375µ
Aluminium
• Note 14
Silicone Aluminium ( 25µ- 30µ)
Polyurethane
(40µ – 75µ)
140µ – 275µ
Beige RAL 1019
•
200-20-CE-SPC-00027_A
Page 45 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
No.
Description
Paint System Code
Surface Preparation
Paint Generic Type / Colour Shade
Primer
st
1
nd
2
Intermediate
Intermediate
Finish Coat
Total DFT (µ)
Finish Coat Colour (Note 1)
Remarks
4.2
Stainless Steel, Duplex, Superduplex, Superausteniticand Nickel Alloys (Note 7)
4.2.1 Uninsulated: Austenitic , Duplex, Super Duplex and Super Austenitic SS to 150°C
I (or)
SSPC-SP-7 (Profile: 25- 50µ)
Temperature Resistant Phenolic Epoxy (75-125µ)
—
—
D
SSPC-SP-5 (Profile: 75- 125µ)
Thermal Spray Aluminium ( 250-375µ)
I (or)
SSPC-SP-7 (Profile: 25- 50µ)
Temperature Resistant Phenolic Epoxy (75- 125µ)
—
—
—
—
4.2.2
Insulated: Austenitic, Duplex, Super Duplex and Super Austenitic SS to 150°C and Nickel alloy
Temperature Resistant Phenolic Epoxy (75-125µ)
Silicone Aluminium ( 25µ- 30µ)
Temperature Resistant Phenolic Epoxy (75- 125µ)
200-20-CE-SPC-00027_A
Page 46 of 71
150-250µ
Manufacturer’s Standard Grey
• To be used where application of system “D” is impractical or not permitted.
• Note 8 • System “I” to be used up to 150°C, short term exposure to 175°C. supports for
/ accessories and other components not accessible for TSA.
• Applicable
250-375µ
Aluminium
150-250µ
Manufacturer’s Standard Grey
•
•
Applicable to equipment and piping (e.g. utilities system, hydraulic oil, fuel gas, heli fuel, lube oil).
• • To be used where application of system “D” is impractical or not permitted.
• VENDOR’s standard finish • System I to be used up to 150°C, short term exposure to 175°C.
• Applicable for supports /
accessories and other components not accessible for TSA.
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
No.
Description
piping (Inconel 625 or Incoloy 825)
Paint System Code
D
Surface Preparation
SSPC-SP-7 (Profile: 25- 50µ)
Primer
Thermal Spray Aluminium ( 250-375µ)
Paint Generic Type / Colour Shade
st
1
nd
2
Intermediate
Intermediate
Finish Coat
Total DFT (µ)
Finish Coat Colour (Note 1)
Remarks
—
—
Silicone Aluminium (25-30µ)
250-375µ
Aluminum
• Applicable to equipment and piping (e.g. utilities system, hydraulic oil, fuel gas, Heli fuel, lube oil).
• Not applicable to hydrocarbon or
flammable service.
5.0
VESSELS AND HEAT EXCHANGERS: EXTERNAL SURFACES
5.1 5.1.1
Carbon steel (Note 7) Uninsulated up to 110°C, including support and skirts
A
SSPC-SP-10 (Profile: 50- 85µ)
Zinc Rich Epoxy (75-100µ)
HB Epoxy MIO (125-150µ)
HB Epoxy MIO (125-150µ)
Polyurethane ( 50-75µ)
375-475µ
Beige RAL 1019
• Note 2, 3, 6 • Finish coat color to be confirmed.
5.1.2 Uninsulated,
110°C to 150°C
D (or)
I
SSPC-SP-5 (Profile: 75- 125µ)
Thermal Spray Aluminium (250- 375µ)
SSPC-SP-10 (Profile: 50- 85µ)
Temperature Resistant Phenolic Epoxy (75- 125µ)
—
—
—
—
200-20-CE-SPC-00027_A
250-375µ
Aluminium
• Note 4, 8, 14
150-250µ Manufacturer’s Standard Grey
• Note 4 & 8 • System “I” to be used up to 150°C, short term exposure to 175°C. • Finish coat color to be confirmed.
Silicone Aluminium (25- 30µ)
Temperature Resistant Phenolic Epoxy (75-125µ)
Page 47 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
No.
Description
Paint System Code
Surface Preparation
5.1.3 Uninsulated,
150°C to 400°C
5.1.4
Insulated, up to 150°C
5.1.5
Insulated, 150°C to 400°C
D (or)
E
I (or)
D
J
SSPC-SP-5 (Profile: 75- 125µ) SSPC-SP-10 (Profile: 50- 85µ) SSPC-SP-10 (Profile: 50- 85µ)
SSPC-SP-5 (Profile: 75- 125µ)
SSPC-SP-10 (Profile: 50- 85µ)
Primer
Thermal Spray Aluminium ( 250-375µ) Inorganic Zinc (60-100µ)
Temperature Resistant Phenolic Epoxy ( 75-125µ) Thermal Spray Aluminium ( 250-375µ)
Inorganic Zinc (60-100µ)
5.2 5.2.1 Uninsulated
Stainless Steel, Duplex, Superduplex, Superaustenitic(Note 7,) Temperature Resistant Phenolic Epoxy (75-125µ)
SSPC-SP-7 (Profile: 25- 50µ)
I (or)
Austenitic, Duplex, Super Duplex and Super Austenitic SS to 150°C
Paint Generic Type / Colour Shade
st
1
nd
2
Intermediate
Intermediate
Finish Coat
Total DFT (µ)
Finish Coat Colour (Note 1)
Remarks
—
—
—
—
—
—
—
Silicone Aluminium (25- 30µ)
—
—
Silicone Aluminium (25- 30µ) Silicone Aluminium (25- 30µ) Temperature Resistant Phenolic Epoxy ( 75-125µ) Silicone Aluminium (25- 30µ)
250-375µ
Aluminium
• Note 4, 8, 14
110-160µ Aluminium
• Note 8
150-250µ Manufacturer’s Standard Grey
• • System “I” to be used up to 150°C, short term exposure to 175°C.
250-375µ
Aluminium
• Note 4, 14
Silicone Aluminium (25- 30µ)
Silicone Aluminium (25- 30µ)
110-160µ
Aluminium
—
Temperature Resistant Phenolic Epoxy (75-125µ)
150-250µ
Manufacturer’s Standard Grey
• To be used where application of impractical or not
is
system “D” permitted.
• Note 4, 8 • System “I” to be used up to 150°C, short term exposure to 175°C. supports for
/ accessories and other components not accessible for TSA..
• Applicable
200-20-CE-SPC-00027_A
Page 48 of 71
• Finish coat colour to be confirmed.
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
No.
Description
Paint System Code
Surface Preparation
Paint Generic Type / Colour Shade
Primer
st
1
nd
2
Intermediate
Intermediate
Finish Coat
Total DFT (µ)
Finish Coat Colour (Note 1)
Remarks
D
SSPC-SP-7 (Profile: 25- 50µ)
Thermal Spray Aluminium ( 250-375µ)
I (or)
SSPC-SP-7 (Profile: 25- 50µ)
Temperature Resistant Phenolic Epoxy (75- 125µ)
—
—
—
—
Silicone Aluminium (25- 30µ)
Temperature Resistant Phenolic Epoxy (75-125µ)
5.2.2
Insulated: Austenitic, Duplex, Super Duplex and Super Austenitic SS to 150°C
250-375µ Aluminum
• Applicable for equipment. • Not applicable
to hydrocarbon or
flammable service.
150-250µ Manufacturer’s Standard Grey
• To be used where application of is impractical or not
system “D” permitted.
• Note 4 • VENDOR’s standard finish • System “I” to be used up to 150°C, short term exposure to 175°C. supports for
/ accessories and other components not accessible for TSA..
• Applicable
D
SSPC-SP-7 (Profile: 25- 50µ)
Thermal spray Aluminium ( 250-375µ)
250-375µ Aluminium
Silicone Aluminium (25- 30µ)
• Applicable for equipment. • Not applicable
to hydrocarbon or
flammable service.
6.0
PUMPS, COMPRESSORS AND ROTATING EQUIPMENT: EXTERNAL SURFACES (UNLESS NOTED OTHERWISE)
6.1
Carbon steel (Note 7)
6.1.1
Uninsulated to 110°C
A
SSPC-SP-10 (Profile: 50- 85µ)
Zinc Rich Epoxy ( 75µ-100µ)
HB Epoxy MIO (125µ-150µ)
HB Epoxy MIO (125µ-150µ)
Polyurethane ( 50µ-75µ)
375µ-475µ Traffic Orange RAL2009
• Note 5 & 8 • Finish coat colour to be confirmed.
200-20-CE-SPC-00027_A
Page 49 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
No.
Description
Paint System Code
Surface Preparation
SSPC-SP-10 (Profile: 50- 85µ)
Paint Generic Type / Colour Shade
Primer
st
1
nd
2
Intermediate
Intermediate
Finish Coat
Total DFT (µ)
Finish Coat Colour (Note 1)
Remarks
Zinc Rich Epoxy (75µ-100µ)
HB Epoxy MIO (125µ-150µ)
HB Epoxy MIO (125µ-150µ)
Polyurethane ( 50µ-75µ)
375µ-475µ Safety Red RAL3000
• Note 8 • Finish coat colour to be confirmed.
6.1.2
Firefighting equipment
6.1.3
6.1.4
Vertical pump, ID and rotating parts, including alloy Pump caisson OD
6.1.5
Splash zone portion of pump caisson OD
6.1.6 Uninsulated,
110°C to 150°C
A
K
K
K (or)
D
D (or)
I
200-20-CE-SPC-00027_A
SSPC-SP-5 (Profile: 75- 100µ)
100% Solids Epoxy (300-400µ)
SSPC-SP-5 (Profile: 75- 100µ)
100% Solids Epoxy (300-400µ)
SSPC-SP-5 (Profile: 75- 100µ)
100% Solids Epoxy (300-400µ)
SSPC-SP-5 (Profile: 75- 125µ)
Thermal Spray Aluminium ( 250-375µ)
SSPC-SP-5 (Profile: 75- 125µ)
SSPC-SP-10 (Profile: 50- 85µ)
Thermal Spray Aluminium (250- 375µ)
Temperature Resistant Phenolic Epoxy (75-125µ)
—
—
—
—
—
—
600-800µ
Traffic Orange RAL2009
600-800µ
Traffic Orange RAL2009
600-800µ
No colour requirements
250-375µ
Aluminium
• Note 14
250-375µ
Aluminium
• Note 8,14
150-250µ
Manufacturer’s Standard Grey
• Note 8 • System “I” to be used up to 150°C, short term exposure to 175°C.
—
—
—
—
—
—
100% Solids Epoxy (300-400µ)
100% Solids Epoxy (300-400µ)
100% Solids Epoxy (300-400µ)
Silicone Aluminium ( 25µ- 30µ)
Silicone Aluminium ( 25µ- 30µ)
Temperature Resistant Phenolic Epoxy (75-125µ)
Page 50 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
No.
Description
Paint System Code
Surface Preparation
6.1.7 Uninsulated,
150°C to 400°C
6.1.8
Insulated up to 200°C
6.1.9
Insulated, 200°C to 400°C
6.1.10
Insulated, cyclic service
D (or)
E
I (or)
D
J
D
Primer
Thermal Spray Aluminium ( 250-375µ)
Inorganic Zinc (60-100µ)
Temperature Resistant Phenolic Epoxy (75-125µ) Thermal Spray Aluminium ( 250-375µ) Inorganic Zinc (60-100µ)
SSPC-SP-5 (Profile: 75- 125µ)
SSPC-SP-1 0 (Profile: 50- 85µ)
SSPC-SP-10 (Profile: 50- 85µ)
SSPC-SP-5 (Profile: 75- 125µ) SSPC-SP-10 (Profile: 50- 85µ)
SSPC-SP-5 (Profile: 75- 125µ)
Thermal Spray Aluminium ( 250-375µ)
6.2.
Stainless Steel, Duplex, Superduplex, Superaustenitic (Note 7)
6.2.1 Uninsulated:
I
Austenitic, Duplex, Super Duplex and Super Austenitic SS to 150°C
SSPC-SP-7 (Profile: 25- 50µ)
Temperature Resistant Phenolic Epoxy (75-125µ)
Paint Generic Type / Colour Shade
st
1
nd
2
Intermediate
Intermediate
Finish Coat
Total DFT (µ)
Finish Coat Colour (Note 1)
Remarks
—
—
—
—
—
—
—
—
Silicone Aluminium (25µ- 30µ)
Silicone Aluminium (25- 30µ)
Silicone Aluminium (25- 30µ)
—
Temperature Resistant Phenolic Epoxy (75-125µ)
250-375µ
Aluminium
• Note 8, 14
110-160µ
Aluminium
• Note 8
150-250µ Manufacturer’s Standard Grey
• Note 8 • System “I” to be used up to 150°C, short term exposure to 175°C.
— Silicone
250-375µ
Aluminium
• Note 8,14
Silicone Aluminium (25- 30µ)
—
Aluminium (25µ- 30µ) Silicone Aluminium (25- 30µ)
Silicone Aluminium ( 25µ- 30µ)
— Temperature Resistant Phenolic Epoxy (75-125µ)
110-160µ
Aluminium
250-375µ
Aluminium
• Note 14
150-250µ Manufacturer’s Standard Grey
• Note 8 •
200-20-CE-SPC-00027_A
Page 51 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
No.
Description
Paint System Code
Surface Preparation
Paint Generic Type / Colour Shade
Primer
st
1
nd
2
Intermediate
Intermediate
Finish Coat
Total DFT (µ)
Finish Coat Colour (Note 1)
Remarks
6.2.2
Insulated: Austenitic , Duplex, Super Duplex and Super Austenitic SS to 150°C
I
SSPC-SP-7 (Profile: 25- 50µ)
Temperature resistant Phenolic Epoxy (75-125µ)
—
— Temperature resistant Phenolic Epoxy (75-125µ)
150-250µ Manufacturer’s Standard Grey
• Note 8 • VENDOR’s standard finish
7.0
8.0
ELECTRIC MOTORS AND EQUIPMENT
See Remarks
INSTRUMENT AND CONTROL PANEL
See Remarks
9.0
TANKS (Note 17)
Beige RAL1019 (unless noted otherwise)
• Note 17 • Coating manufacturer’s 3 coat system
(Total DFT 250µ)
Beige RAL1019 (unless noted otherwise) Firefighting item RAL 3000
• Coating manufacturer’s 3 coat system (Total DFT 250µ)
9.1
9.1.1
Carbon Steel External Surface (Note 7)
Uninsulated: Non volatile products
A
SSPC-SP-10 (Profile: 50- 85µ)
Zinc Rich Epoxy (75µ-125µ)
HB Epoxy MIO (125µ- 150µ)
HB Epoxy MIO (125µ- 150µ)
Polyuretha ne ( 50µ- 75µ)
375µ-475µ
Beige RAL1019
• Note 2, 8, 9, 16 • Finish coat colour to be confirmed.
200-20-CE-SPC-00027_A
Page 52 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
No.
Description
9.1.3
Insulated to 150°C
Paint System Code
Surface Preparation
I (or)
SSPC-SP-10 (Profile: 50- 85µ)
9.1.4
Insulated, 150°C to 400°C
9.1.5
Insulated, Cyclic service
D
J
D
SSPC-SP-5 (Profile: 75- 125µ)
SSPC-SP-10 (Profile: 50- 85µ)
SSPC-SP-5 (Profile: 75- 125µ)
Primer
Temperature Resistant Phenolic Epoxy (75-125µ)
Thermal Spray Aluminium ( 250-375µ)
Inorganic Zinc (60-100µ)
Thermal Spray Aluminium ( 250-375µ)
Paint Generic Type / Colour Shade
st
1
nd
2
Intermediate
Intermediate
Finish Coat
Total DFT (µ)
Finish Coat Colour (Note 1)
Remarks
150-250µ
Temperature Resistant Phenolic Epoxy (75-125µ)
250-375µ
Aluminium
110-160µ
Aluminium
—
—
—
—
—
—
Silicone Aluminium (25- 30µ)
—
• Note 8 • System “I” to be used up to 150°C, short term exposure to 175°C.
• VENDOR’s standard finish. • Note 14
Silicone Aluminiu m (25µ- 30µ) Silicone Aluminiu m (25- 30µ) Silicone Aluminiu m (25µ- 30µ)
Temperature Resistant Phenolic Epoxy (75-125µ)
250-375µ
Aluminium
• Note 14
150-250µ
Manufacturer’s Standard Grey
• To be used where application of system “D” is impractical or not permitted.
• Note 8 • System “I” to be used up to 150°C,
short term exposure to 175°C.
for
• Applicable
/ accessories and other components not accessible for TSA.
supports
9.2 9.2.1 Uninsulated
Stainless Steel External Surfaces (Note 7, ) I (or)
SSPC-SP-7 (Profile:25- 50µ)
Austenitic, Duplex, Super Duplex and Super Austenitic SS to 150°C
Temperature Resistant Phenolic Epoxy (75- 125µ)
—
—
200-20-CE-SPC-00027_A
Page 53 of 71
•
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
No.
Description
Paint System Code
Surface Preparation
Paint Generic Type / Colour Shade
Primer
st
1
nd
2
Intermediate
Intermediate
Finish Coat
Total DFT (µ)
Finish Coat Colour (Note 1)
Remarks
D
I (or)
SSPC-SP-7 (Profile: 25- 50µ) SSPC-SP-7 (Profile: 25- 50µ)
Thermal Spray Aluminium ( 250-375µ)
Temperature resistant Phenolic Epoxy (75- 125µ)
9.2.2
Insulated: Austenitic, Duplex, Super Duplex and Super Austenitic SS to 150°C
D
SSPC-SP-7 (Profile: 25- 50µ)
Thermal Spray Aluminium ( 250-375µ)
—
—
—
9.3
Carbon Steel Internal Surfaces and Incidental Stainless Steel Internal Parts
9.3.1
Potable Water, Slops, Ballast water
T
9.3.2
Diesel oil, Base oil
I
SSPC-SP-5 (Profile: 50- 85µ)
SSPC-SP-5 (Profile: 50- 85µ)
100% Solids Epoxy (250-350µ)
Temperature Resistant Phenolic Epoxy (75- 125µ)
—
—
10.0
SKID-MOUNTED EQUIPMENT
11.0 LIVING QUARTERS
—
—
—
—
—
250-375µ
Aluminium
150-250µ
Manufacturer’s Standard Grey
250-375µ
Aluminium
Silicone Aluminium (25µ-30µ) Temperature resistant Phenolic Epoxy (75-125µ)
Silicone Aluminium ( 25µ-30µ)
100% Solids Epoxy (250-350µ)
Temperature resistant Phenolic Epoxy (75-125µ)
500-700µ
Manufacturer’s Standard Light Grey or Offwhite
150-250µ Manufacturer’s
Standard Light Grey or Offwhite
200-20-CE-SPC-00027_A
Page 54 of 71
• Applicable for equipment. • Not applicable
to hydrocarbon or
flammable service.
• To be used where application of impractical or not
is
system “D” permitted.
• VENDOR’s standard finish. • System “I” to be used up to 150°C,
short term exposure to 175°C.
for
supports
• Applicable
/ accessories and other components not accessible for TSA. • Applicable for equipment. • Not applicable
to hydrocarbon or
flammable service
• Note 16 • VENDOR’s standard finish.
• Note 5,8
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
No.
Description
Paint System Code
Surface Preparation
Paint Generic Type / Colour Shade
Primer
st
1
nd
2
Intermediate
Intermediate
Finish Coat
Total DFT (µ)
Finish Coat Colour (Note 1)
Remarks
11.1
Exterior
11.1
Interior
12.0 Hazard
Identification
A
B
SSPC-SP-10 (Profile: 50- 85µ)
SSPC-SP-10 (Profile: 50- 85µ)
Zinc Rich Epoxy (75µ-125µ)
Zinc Rich Epoxy (60µ-100µ)
13.0
Fire water piping system
V
14.0
Bolts / Nuts / Washers (HOLD 5)
See Remarks
HB Epoxy MIO
(125µ-150µ)
HB Epoxy MIO (125µ-150µ)
Polyurethane ( 50µ-75µ)
375µ-475µ
Pure White RAL 9010
—
—
HB Epoxy (130µ-200µ)
190µ-300µ
Pure White RAL 9010
• Note 2 • Requirements accordance Architectural, Ref.13
to
and
coverage specification
• Requirements accordance Architectural Ref.13
to
and
coverage specification
in for
in for
Polyurethane (50-75µ)
50µ-75µ
Lemon Yellow RAL9017 & Black RAL 1004 Stripes
• In the appropriate top coat at an angle of 45° from the vertical applied in 10mm wide alternatively strips covering the hazard. • Abrade preceding coat
to provide
optimum inter-coat adhesion.
Polyurethane (50-75µ)
50µ-75µ
Safety Red RAL3000
•
• Note 20
Light Blue: A193 B7M / A194 2HM / F844 and other Carbon and Low Alloy steel bolts
Grey: A453 660 Green: Structural Bolts / Nuts / Washers for atmospheric zone.
Yellow: Structural Bolts / Nuts / Washers for splash zone.
200-20-CE-SPC-00027_A
Page 55 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
Notes:
(1) As per RAL Color Designation System unless otherwise indicated. All finish colors shall be considering the following
– surfaces within Greenfield scope: as per finish colors indicate in hereabove table – surfaces within Brownfield scope: as per OFGN-CE-SPC-00001, Table 1
(2) Polyurethane topcoat may be deleted for surfaces under fireproofing. (3) Surfaces to be coated with an intumescent epoxy shall be primed, fireproofed, and top coated as recommended by the intumescent fireproofing
Manufacturer. TSA shall not be used under fireproofing.
Individual components of skid-mounted units shall be coated as noted for each item listed in this schedule.
(4) The lower of the inlet or outlet temperature shall be used to select the coating system for each side of heat exchangers. (5) (6) Faying surfaces of painted steel members designed for high -strength bolting in friction-type joints shall be primed only. The primer shall be certified by the Coating Manufacturer to have been rated by testing to provide the slip class required by the structural design (Class A or B). Do not paint galvanized faying surfaces.
(7) Paint used for shop marking and materials identification shall be compatible with subsequent finish coats. (8)
Identification numbers shall be placed on all plant equipment (pipe, vessels, pumps, exchangers, etc.) and shall correspond to the P&ID numbers. Lettering or stenciling shall be a minimum of 50 mm high and shall be of a contrasting color. Incoming and existing line service shall be identified in a similar manner; 25 mm o r smaller lettering is acceptable. Stencil color shall be distinctly different color from background paint.
(9) Unless noted otherwise on specific tank data sheet or general arrangement drawing, the following requirements apply to the exterior of storage tanks: on tank roofs that are painted white, an area 1.6 m in diameter surrounding gauging hatches shall be painted black with the urethane finish for the system listed in above table. a. Storage tanks shall be inscribed with the date of painting and/or cleaning. Letters 25 mm high, with 3 mm stroke characters and numerals
shall be painted on the tank with the red polyurethane finish for the system listed in above.
b. Inscriptions shall be as follows:
“SHELL PAINT (date) ” shall be painted on the shell 200 mm above the edge of the manhole cover closest to the product inlet and outlet nozzles. The inscription shall straddle the vertical centerline of the manhole. “ROOF PAINTED (date) ” shall be painted 25 mm above the inscription given in item (i.). “CLEANED (date) ” shall be painted on the manhole cover 150 mm above the centerline. “INTERIOR LINED (date) ” shall be painted 25 mm above the inscription given in Item (ii.) The date in each inscription shall consist of the month and year only, in that order, and both shall be indicated in numbers (e.g., “7-02” for July 2002).
c. See Note 8. An identification number shall be painted on each tank in a location readily visible to plant operators.
200-20-CE-SPC-00027_A
Page 56 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
(10) Refer to relevant technical specification for external P C P coating of risers, Ref.12. (11) Surface preparation SSPC-SP 1 and SSPC-SP 7 using garnet abrasive. (12) The application of anti-skid particle distribution should be as per Coating Manufacturer’s recommendation. Excess un-bonded particles to be
removed.
(13) 30-40 Graded Silica / Al2O3 @ 0.2 ± 0.05 kg/m². Sweep up excess when dry enough to walk on, then seal with Finish Coat. (14) Apply TSA in accordance with Specification For Thermally Sprayed Aluminium, doc.‘200-20-CE-SPC-00028’ (15) Upstream stainless steels used include 304/316/300 Series Austenitic Stainless Steel, 22Cr Duplex, 25Cr Super Duplex, and 6 Mo Super
(16) Stencil “Lined Vessel - No Hot Work” in characters at least 8 cm high on side of tank or, for ballast tanks, on deck. This caution should be
Austenitic.
within 1 meter of each personnel entry hatch.
(17) Commence blasting and coating work only after completion of all “hot work,” both within the tank and on exterior surfaces of substrates that
will be coated on their interiors.
(18) Coat entire tank bottom and lowest 1 meter of sides. (19) Not used. (20) Fasteners shall be coated as per Appendix E (21) Precaution: Coating system / finish colour shade for all VENDOR supplied components shall be in accordance with COMPANY coating
procedure.
(22) In addition, bolts and nuts shall be painted as per COMPANY’s painting specification after final torque and integrity test.
200-20-CE-SPC-00027_A
Page 57 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
- Approved Paint Vendors and Products
Product Description
Inorganic Zinc Silicate Primer SSPC Paint 20 Type I, Level 1 (ASTM D 520 Type II) Zinc Rich Epoxy SSPC Paint 20 Type II, Level 2 (ASTM D 520 Type II) Phenolic Epoxy (Internal Lining - suitable for Diesel, Instrument air and Nitrogen application) Temperature Resistant Phenolic Epoxy (External)
Carboline
Hempel
International
Jotun
Sigma / PPG
Coating Material Vendors
Carbozinc 11
Galvosil 15700 / Galvosil 15703
Interzinc 22 / Interzinc 2280
Resist 86
Sigmazinc158 / Dimetcote 9
Carbozinc 858 / 859
Hempadur Zinc 17360 / Avantguard 750
Interzinc 52 / Interzinc 52E
Barrier 80 / Barrier 80X
Sigmazinc 68 GP / Sigmazinc 109 ME
Phenoline Tank Shield / Phenolic 4550 HT
Hempadur 85671
Interline 850
Tankguard Storage
Phenguard 985
Thermaline 400 / Thermaline 450EP
Hempadur 85671
Intertherm 228HS / Intertherm 228
Epoxy HR
Sigmaphenguard 930/940 / Sigmatherm 230
HB Epoxy MIO (High Build Epoxy – MIO)
Carboguard 893 SG MIO
Abrasion Resistant Glass Flake Epoxy
Carboguard 1209
Polyurethane
Epoxy Mastic (Aluminium Pigmented)
Carbothane 834ME / Carbothane 134 HP
Carbomastic 15
100% Solids Epoxy
Plasite 4550S
Silicone Aluminium
Thermaline 4700
Hempadur Mastic 45880/45881 - 12430(MIO) / Hempaprime Multi 500 -12430(MIO) Hempadur Multi- Strength GF 35870 / Hempadur Multi- Strength 35840 / 35842
Hempathane TC 55100 / Hempathane HS 55610
Hempadur Mastic 45880 (Aluminium) / Hempaprime Multi 500- (Aluminium)
Hempadur Multi- Strength 35530 / Hempadur Multi- Strength 35560 Silicone Aluminium 56914 / Silicone Aluminium 56910
Intergard 475HS MIO
Penguard Midcoat MIO / Penguard Express MIO
Sigmacover 435 MIO / Sigmacover 410 MIO
Interzone 1000 / Interzone 954GF
Marathon XHB / Penguard Pro GF
Sigmashield 880GF / Sigmashield 905
Interthane 990 / Interthane 990SG
Hardtop XP
Sigmadur Gloss 7528 / Sigmadur 550H
Interseal 670 HS / Interseal 1052
Primastic universal / Jotamastic 80 AL
Sigmacover 630 / Sigmacover 620
Interline 925 / Interline 925P
Tank Guard 412
Sigmaguard CSF 650
Intertherm 50
Solvalitt
Sigmatherm 540
Epoxy Sealer for TSA Application
Carboline 60 (7)
Hempadur 15570
Intershield 300
CUI Resistant Multi Polymeric Coating for Cyclic Service
—
Versiline CUI 56990
Interbond 1202UPC
Penguard Primer (3) Jotatemp 1000 (for CS) / Jotatemp 1000HT (for SS)
SigmaCover 280
Hi-Temp 1027 HD
200-20-CE-SPC-00027_A
Page 58 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
Coating Material Vendors
Product Description
Epoxy Novolac (External Surface – Chemical Resistance Coating)
Silicone Acrylic
Carboline
Hempel
International
Jotun
Sigma / PPG
Tankguard SF
Phenguard 985
Ceilcote 2000
Silicone Acrylic 56940
Intertherm 891/ Intertherm 875
Solvalitt Midtherm
Sigmatherm 540
200-20-CE-SPC-00027_A
Page 59 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
APPENDIX B – INSPECTION AND TESTING REQUIREMENTS
Test Type
Method
Environmental Condition
-Ambient and steel temperature -Relative humidity -Dew point
Abrasive Materials Particle size and
sharpness check by visual at all work sites.
Frequency
Reference Standard • ASTM E337 Before start of each work activity + Every 2 hours during surface preparation and coating operations.
• SSPC-AB 1 • SSPC-AB 2 • SSPC-AB 3
• Every new batch and
spot checks.
• Certificate checks.
Acceptance Criteria
In accordance with specified requirements and Coating Manufacturer’s TDS In accordance with specified requirements, as per relevant standards. Test plates shall be blasted abrasive as use for reference of visual appearance / anchor profile No visible contamination
Consequence
No blasting or coating application or rejection of prepared or coated surface
No blasting
Service, clean and replace.
No blasting or coating application until defect is repaired.
Compressed Air Cleanliness
Visual Examination of Pre-Cleaned Metal
Surface Cleanliness (Visual)
Soluble Salts
Standard test method for indicating oil or water in compressed air Visual inspection for sharp edges, weld splatter, slivers, lamination, structurally deleterious defects, rust grade etc. -Visual assessment of surface cleanliness -Dust test
Extraction: ISO 8502-6 (Bresle) Assessment: ISO 8502-9 (Conductometric)
• ASTM D4285
Before start of each shift or change in air system.
—
100% of all surfaces.
No defects
• SSPC-VIS 1 or ISO 8501
• ISO 8502-3
(a) 100% visual of all
surfaces (b) Spot checks
In accordance with specified requirements.
-Re-blasting -Re-cleaning and
retesting until
acceptable. Steam or clean water washing and retesting until entire test area is acceptable
• ISO 8502-6 • ISO 8502-9
Immersion service: 6 samples / 2000 m2 but not less than 2 samples / pieces of equipment or structure
Atmospheric surfaces: 2 samples / 2000 m2 but not less than 2 samples / pieces of equipment or structure
Average conductivity corresponding to max:
-
20 mg/m² (CS materials at splash zone, immersion zone and internal lining
-
30 mg/m2 (CS material at atmospheric exposure)
-
20 mg/m² ( SS and non-ferrous alloys material
200-20-CE-SPC-00027_A
Page 60 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
Roughness
Visual Examination of Coating
Comparator, replica tape or stylus instrument Visual to determine curing, contamination, solvent retention, pinholes/popping, sagging, surface defects
• ISO 8503
Each component or once per 10 m2.
—
100% of surface after each coat.
In accordance with specified requirements None observed
Re-blasting
Repair of defects.
As per requirements No single spot
Dry Film Thickness Measurement by
DFT gauge calibration on smooth surface.
• SSPC-PA2 / • ISO 19840
reading shall be less than 80% of the min. specified DFT. Average of spot readings shall be above min. specified DFT. For maximum acceptance criteria manufacturers product data sheet to be followed. No holidays
Repair, additional coats, or recoating as appropriate.
Repair and retesting.
NACE SP0188
• NACE
SP0188
• ASTM D5162
As per system specification / 100% surface of each coat
Holiday Test (Supplementary Test) Holiday Detection only for Internal Lining or Immersion Adhesion (Supplementary Test)
Standard test method for pull-off strength of coatings using portable adhesion testers
• ASTM D4541 • ISO 4624
Spot check – not to be used for coatings to be placed in immersion
For coating types other than PFP minimum 5MPa
Repair and retesting.
200-20-CE-SPC-00027_A
Page 61 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
APPENDIX C – TYPICAL PAINTING/COATING INSPECTION AND TEST PLAN CHECKLIST (ITP)
TYPICAL PAINTING / COATING INSPECTION AND TEST PLAN CHECKLIST (ITP)
(SUB) CONTRACTOR WORK LOCATION PROJECT TITLE
CONTRACT NO.
COATING SCHEDULE DOCUMENT REF. NO. EQUIPMENT
DATE
ITEM
DESCRIPTION OF ITEM
INSPECTION REQ’D
ACTIONS BY
REMARKS
Contractor
T.P.I.
Company
A 1 2 3 4 B 1
2 3 4 5 6 7 8 9 10 11 12 C 1 2 3 4 5
6 7 8
9
10 D
1
2
3
4
5
Record inspection
Visual inspection Visual inspection Psychrometer and Tables Contact thermometer
Record inspection Visual/record inspection Visual inspection Visual inspection Visual inspection Visual inspection Visual inspection Water spray test Salt test Visual inspection Visual inspection
THROUGHOUT WORKING DAY Safety/condition of equipment/machinery Correct PPE is worn by all personnel Atmospheric relative humidity/dew point Metal surface temperature BEFORE PREPARATORY CLEANING Work methods/QC system/safety measures Permit to work in order and authorized Control/inspection instruments calibrated Presence of surface-breaking defects Defects found are satisfactorily removed Presence of gross surface contamination Rust grade/degree of coating breakdown Type of water/brand of degreasing agent Presence of residual oil or grease Presence of residual salts* Type, brand and grade of abrasive used Acceptance of power/hand tool cleaning DURING PREPARATORY CLEANING Batch number and date of abrasive used Presence of oil/water in compressed air Air pressure used for blast cleaning Cleanliness of blast cleaned surface Profile assessment of blast cleaned surface Visual inspection Residual dust and matter on surfaces Type/condition of power/hand tools used Visual inspection Assessment of power/hand tool cleanliness Visual inspection Presence of residual millscale (only if applicable) Presence of salts DURING PAINTING / COATING & WRAPPING APPLICATION Types, brands, dates, condition of paints/coatings/wrapping material Paints/coatings/wrapping material storage conditions Paints/coatings material mixing procedure and control Rust present on blast cleaned surfaces Time between blast cleaning and priming / 1sat coat
Visual inspection Visual inspection Visual inspection Visual inspection Visual inspection
Copper sulphate test
Record inspection
Visual inspection
Visual inspection
Visual inspection
Visual inspection
Salt Test
H H I I
I
H H I I I I I I I I I
I I I I I
I I I
I
I
I
I
I
I
I
H H W W
H
H H H H H H R H H R W
R H W H H
H R H
R
R
R
R
W
H
W
H H R R
H
H R R R R H R R R R W
R W W W/H W/H
W R W/H
R
R
R
R
W
W
R
200-20-CE-SPC-00027_A
Page 62 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
6
7 8 9 10 11 12
13
14
15 16
17
18
19
20
21 22 23 24
Paints/coatings/wrapping material application technique and quality Stripe coat of edges, corners, crevices Full primer / 1st Coat thickness Primer appearance Time between primer and first mid coat First midcoat and stripe thickness First midcoat and stripe appearance
Visual inspection
Visual inspection WFT / DFT Check Visual inspection Record inspection WFT / DFT Check Visual inspection
Record inspection
Time between first and second midcoat (only if applicable) Second midcoat and stripe thickness (only if applicable) Second midcoat (only if applicable) Time between second midcoat and topcoat Complete paint system / coating system WFT / DFT Check Complete paint / coating / wrapping appearance Final curing time for coating system
Visual inspection Record inspection
WFT / DFT Check
Record inspection
Visual inspection
Presence of holidays in coating (where applicable) Adhesion of coating (where applicable) Dolly pull-off test Visual inspection Identification of areas for repair Coating/wrapping appearance after repair Visual inspection Complete QC activities reports.
Record inspection
Low or high voltage test
I
I I I I I I
I
I
I I
I
I
I
I
I I I I
W
R H H R W W
R
W
W R
H
H
R
H
H H H H
W
R H W R W W
R
W
W R
H
H
R
H
W W W H
KEY: * Subsidiary inspection test to be carried out at discretion of COMPANY Engineer
•
Inspection item to be carried out where operation involved forms part of Contract work scope R Inspection reports and records to be fully reviewed and approved Inspection activity to be witnessed and approved
W H Mandatory Hold Point in schedule beyond which work shall not proceed without formal
approval
CONTRACTOR
T.P.I.
Company
Signature Name Position Date
200-20-CE-SPC-00027_A
Page 63 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
APPENDIX D : PAINTING DAILY INSPECTION REPORT
PAINTING DAILY INSPECTION REPORT
CONTRACTOR WORK LOCATION PROJECT/ITEM TITLE CONTRACT NO.
WEATHER CONDITIONS
Time / Date
Rel. Humidity (%)
Dewpoint (°C)
Metal Temp. (°C)
COATING SYSTEM NO. REPORT REF. NO. ITEMS COATED DATE
SURFACE CONDITION AND DEGREASING (Circle/Highlight as necessary)
Original Status
Metal Condition
Coated
Defect-free
Wrapped
Laminated/Pitted
Metal Rust Grade ^^
A
Ri 0 / 10
Contamination
Degreasing Agent
Heavy …………………….
B
Ri 3 / 6
Light
Swabbed
Bare
Ground
C
Ri 4 / 4
Rejected
D
Ri 5 / 1
Sprayed
Water Tested
SURFACE PREPARATION (Circle/Highlight as necessary) *= ISO 8501 -1 Method
Sweep Blasting Wet Blasting
Dry Blasting
Power Tool
Hand Tool
Abrasive Used Type……………….
Brand……………….
Batch No……………
Size Range………..
Prep. Standard SSPC SP 5/*Sa 3
SSPC SP 10/*Sa 2.5 SSPC SP 7/*Sa 1 SSPC SP 3/*St 3
Other………….
Profile Ht. (um) 35-50
50-75
75-100
Range…………
Using………….
Other Tests
Salts … Yes/No
PAINT APPLICATION (Circle/Highlight as necessary)
Method
Airless Spray
Air Spray
Brush
Trowel
Other………….
When Priming
Time Since Cleaning…………………..
Visible Surface Rusting … Yes/No
Product Details
Product
Base Batch No.
Additive Batch No.
Thinner # and percentage
Over coating Period
WFT Range (um)
DFT Range (um)
Stripe Coat
Primer
First Midcoat Second Midcoat Topcoat
FINAL TESTING AND REPAIR (Circle/Highlight as necessary)
Thickness/Appearance
DFT - Accept/Reject
Appearance - Accept/Reject
Holiday Detection Test
LV/HV Tester …………
Test Voltage……………..
Pass/Fail
200-20-CE-SPC-00027_A
Page 64 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
Coating Adhesion Test
Adhesion Tester………
Pull Off Stress……………
Accept/Reject
Repaired Areas
% of Total Area………..
Primary Locations……….
Rejected Because……….
GENERAL COMMENTS:
Signature Name Position Date
CONTRACTOR
T.P.I. ( If Applicable)
Company
200-20-CE-SPC-00027_A
Page 65 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
APPENDIX E : COATING FOR FASTENER
E.1. SCOPE (HOLD2)
This section specifies the requirements for fluoropolymer coating of bolting for topside piping, equipment and structures which includes the following:
• Pressure Bolting
• Studs, nuts, and washers
• Subsea items
The plating used as the base coating for the fluoropolymer coating shall not be applied on carbon steel bolts and externally threaded fasteners having a minimum UTS in excess of 862 MPa or Stainless Steel/Corrosion Resistant fastener materials.
Stainless steel and other Corrosion Resistant Alloy (CRA) fasteners do not require a coating, provided the bolting is properly lubricated prior to installation or Stainless Steel/Corrosion Resistant fastener materials.
This section is not intended for use on:
• Subsea equipment and bolts in submerged zone (painted only with temporary coating)
• Fasteners with operating temperature in excess of 180°C
• High strength fasteners (with a minimum UTS more than 862 MPa)
• Any component or systems governed by design codes that prohibit over tapping of nuts.
• Galvanized bolts to be installed on galvanized structure (these are coated after installation
as per item 1.8 of table in Appendix 1).
E.2. COATING SYSTEM
Low alloy bolting shall have a pre-treatment (cleaning) in accordance with ASTM B 183 to improve the adherence and corrosion resistance of the coating system. CRA bolting shall not have a pretreatment.
The coating system shall include a zinc/nickel plating/zinc pretreatment basecoat, which provides corrosion resistance, and a fluoropolymer topcoat, which is intended to reduce torque-up friction, important for uniform gasket compression and sealing.
The topcoat layer shall be of the baked-on fluoropolymer particle in binder type.
The main coating layer shall be resistant to UV lights or shall have a UV light resistant topcoat.
Procedures which have the potential to cause a deleterious effect, e.g. hydrogen embrittlement, and procedures for their mitigation shall be indicated to COMPANY/CONTRACTOR and their use subject to COMPANY approval.
Bolting shall not be heated such that the mechanical properties of the bolting are changed.
200-20-CE-SPC-00027_A
Page 66 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
External threads, e.g. studs, shall not have their thread diameters reduced below the minimum diameters including negative tolerances allowed by ASME B1.1 Class 2A in order to accommodate the thickness of the coating.
Internal threads, e.g. nuts, may have their thread diameters increased beyond the maximum diameters including positive tolerances allowed by ASME B1.1 Class 2B, but the thread diameters including positive tolerances shall still be such that the stud will fall in tension before the nut and/or stud threads strip. Thread sizes and tolerances shall be provided by the coating applicator and, if requested by COMPANY/CONTRACTOR, the coating applicator shall provide calculations or tension test results to verify that the stud fails before the threads strip for COMPANY APPROVAL.
E.3. WORKING PROCEDURES
E.3.1. COATING APPLICATOR
The coating applicator shall have detailed written working procedures addressing, as applicable:
-
Review of customer Purchase Orders.
-
The qualification of the coating applicator’s SUPPLIERS and the preparation and issue of
purchase orders on the coating applicator’s SUPPLIERS.
- The qualification of the coating applicator’s SUBCONTRACTORS and the preparation and
issue of contracts on coating applicator’s SUBCONTRACTORS.
-
Receipt, inspection, identification, PMI when a requirement, storage and issue of bolting and coating materials including verification that coating materials are used within their specified shelf life.
-
The preparation and issue of internal work orders.
-
Bolting coating application including, surface preparation, pre-treatment, priming, applying the main coating, top-coating, maximum and minimum dry film thickness for each layer and the total coating system, curing temperatures and times, etc. Unless COMPANY APPROVES otherwise, all aspects of the coating process shall comply with the requirements of the coating materials SUPPLIER.
-
The mitigation of deleterious effects, e.g. hydrogen embrittlement.
-
The maintenance of coating equipment and solutions.
-
Packaging
E.3.2. PERSONNEL
All personnel required to work to these procedures shall be trained in their use and the training shall be documented.
E.3.3. DOCUMENTATION
At the requirement of the COMPANY/CONTRACTOR, uncontrolled copies of the working procedures shall be provided to COMPANY/CONTRACTOR and shall be subject to COMPANY APPROVAL.
200-20-CE-SPC-00027_A
Page 67 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
E.4. QUALITY CONTROL
E.4.1. COATING APPLICATOR
The coating applicator shall have a documented quality control program. The program shall:
•
•
•
•
•
Identify personnel with responsibilities maintenance of the quality control program and state those responsibilities
the development,
for
implementation and
Identify personnel with responsibilities for production quality control and state those responsibilities
Include quality control procedures for verifying that working procedures are compiled with
Include coating system qualification requirements and methods
Include documented production, inspection and testing requirements; acceptance criteria and method of controlling non-conformances. At a minimum the following shall apply.
o Visual inspection at all stages of coating o Equipment calibration / certification o Environmental controls o Substrate preparation methods o Application techniques o Coating cure verification o Dry film thickness verification for each coat
The coating APPLICATOR shall be qualified by the Coating MANUFACTURER to apply the coating materials.
E.4.2. DOCUMENTATION
At the request of COMPANY/CONTRACTOR uncontrolled copies of quality control manual and associated procedures etc. shall be provided to COMPANY /CONTRACTOR and shall be subject to COMPANY APPROVAL.
E.5. QUALIFICATION REQUIREMENTS
The bolt coating material for use on low alloy steel bolting shall be qualified by salt spray testing per ASTM B 117 and UV light resistance per ASTM D 4587. A copy of the test reports shall be provided to COMPANY with the coating applicator’s quotation.
After a minimum of 3000 hours exposure to the salt spray, the stud/nut assemblies shall be removed from the salt spray cabinet and washed and dried per ASTM B 117.
The area of red rust on each dry stud/nut assembly shall be measured and shall not exceed 15% of any test assembly.
It shall then be verified that the nuts can be removed from the studs with hand torque alone. A hand wrench may be used for the first one complete turn.
UV light resistance testing to the requirements of ASTM D4587 shall be per Cycle #2 i.e. 4 hours UV / 4 hours condensing at 60 °C and rusting shall not exceed RG 4 per ASTM D 610.
200-20-CE-SPC-00027_A
Page 68 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
E.6. COATING SYSTEM APPLICATION
E.6.1. GENERAL
Coating material shall be shipped, stored, mixed, and applied in accordance with the printed instructions indicated on the applicable coating manufacturer’s Product Data Sheets (PDSs).
Each coating container shall bear a batch number. If the expiration date is not evident on the container but is encoded in the batch number, then coating applicator SUPPLIER shall obtain this information from coating manufacturer, transcribing the expiration date onto the container. Coating material shall be applied before its expiration date. The batch number, expiration date, and label must be fully legible when the coating is mixed.
Coatings shall be applied when the surface of the parts being coated is at least 3 ̊C (5 ̊F) warmer than the ambient dew point temperature and the ambient air temperature is between 13̊C (55 ̊F) and 32 ̊C (90 ̊F), unless documented approval of less strict criteria has been specified by coating manufacturer and approved by COMPANY. The parts shall be visibly dry and at a surface temperature of not more than 52 ̊C (125 ̊F) prior to coating.
E.6.2. BASECOAT
For low alloy steel in atmospheric location, the basecoat shall be carried out by Zinc/nickel plating or Zinc pre-treatment) based ASTM B841/F1941 or ISO 4042/10576 with DFT requirement refer to table 1 of Appendix D. For low alloy steel, zinc electroplated per ASTM B633 class 25 with Type II or IV colored chromate or zinc phosphate conversion coating minimum 15 microns are acceptable.
For subsea and splash zone location alumunium cermet Xylar 1 or Xylar 2 or equivalent product shall be used.
E.6.3. TOPCOAT
The topcoat shall be a product containing a Polytetrafluoroethylene (PTFE) resin bound within a polymeric organic matrix. Acceptable topcoat materials include the following:
• Xylan #1424
• Xylan #1427
• SermaGard #1280
Other proprietary coating systems equal in performance and thickness of coats may be approved by COMPANY based on experience and data submittal.
The Xylan and SermaGard topcoats shall be spray-applied.
For the spray-applied topcoats, mix and apply in accordance with coating material manufacturer’s printed instructions to sufficient Wet Film Thickness (WFT) to produce the post-topcoat bake Dry Film Thickness (DFT) indicated in Table D1.
The topcoat shall be baked in accordance with Manufacturer’s printed instructions.
Following the bake, the parts shall be allowed to cool to < 38 ̊C (100 °F) prior to handling.
200-20-CE-SPC-00027_A
Page 69 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
E.7. TESTING
E.7.1. PRODUCTION TESTING
The following subsections describe the required testing that shall be completed prior to shipping. Failure to comply with the acceptance criteria of any test shall be cause for rejection of the lot. Testing of washer coatings is not required. Method ASTM D 6677 may be modified to allow smaller X-cut to fit part.
E.7.2. COATING CURE
Manufacturer’s standard photographs shall be labeled “Acceptable Discoloration/Cure” and “Unacceptable Discoloration/Cure.” To be considered adequately cured, the color transfer shall replicate the “Acceptable Discoloration/Cure” photo.
E.7.3. COATING ADHESION
Assess coating adhesion per ASTM D 6677 (smaller X-cut to fit part). The adhesion shall evaluate both the basecoat-to-substrate and topcoat-to-basecoat adhesion. The acceptance criteria for coating adhesion is that the coatings shall have a rating of not less than 8.
E.7.4. HARDNESS TESTING
Perform hardness testing per ASTM D 3363. The acceptance criteria shall be as provided in Coating Manufacturer’s Datasheet.
E.7.5. COATING THICKNESS
The DFT of each coat and the overall DFT achieved on the sample parts shall be assessed and shall be in line with Table D1.
Location
Coating System
Basecoat (min) Topcoat (min) Total (min
Table D1 - Bolt Coating DFT Requirements
Athmospheric
(Zinc/nickel plating or Zinc pre-treatment) + Xylan 1424
(Zinc/nickel plating or Zinc pre-treatment) + SermaGard 1280
15 microns
25 microns
40 microns
15 microns
25 microns
40 microns
Splash Zone
Alumunium Cermet (Xylar 2) +PTFE Coating (Xylan 1424)
25 microns
15 microns
40 microns
E.7.6. SAMPLE SIZE AND FREQUENCY
Testing shall be performed per the guidance presented in ASTM F 1470, Sections 6 through 8 for Sample Level “C” using detection process, except as otherwise allowed in ASTM F 1470, Section 6, “Selection of Sampling Plans.”
200-20-CE-SPC-00027_A
Page 70 of 71
Classification: Internal
NORTH FIELD PRODUCTION SUSTAINABILITY (NFPS) PROJECT
COMP3 - NFPS OFFSHORE RISER/WELLHEAD PLATFORM & INTRAFIELD PIPELINES PROJECT
SPECIFICATION FOR FIXED FACILITIES PROTECTIVE COATING FOR COMP3 PROJECT
E.7.7. PACKAGING
• All externally threaded fasteners shall be prepared for shipping by assembly, with matching pairs of coated nuts. Washers may be packaged separately. Nuts shall be run-up onto the exterior threaded part to the extent that a minimum of two threads protrude.
• Each assembly shall be protected from damage during shipment.
• Assemblies shall be cushioned and stabilized against motion within the box or drum by
means of plastic bubble wrap, dividers, or cellular plastic packing.
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Project: Q-32705 - Saipem COMP3 Folder: RFQ Files