PVGAS FAST FAST TRACK LNG TERMINAL PROJECT PROJ ECT
FRONT END ENGINEERING DESIGN AND COST ESTIMATION
Applicable Codes and Standards
FEED-OR-RPT-08-004
A 10-FEB-12 Rev. Date
For Review Description
YBN BY
Tokyo Gas Engineering Co., Ltd.
SKG CH’K
MTM REV. REV.
HRT APPR.
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Terminal Project
FEED-OR-RPT-08-004-Rev.. A FEED-OR-RPT-08-004-Rev
Contents 1.
Introduction I ntroduction
2.
Definition D efinition
3.
General General
4.
Ap pl ic abl e Laws, Law s, Rules Ru les & Regu lat ions io ns
5.
Ap pl ic abl e Codes & St andard and ard s
U
U
U
U
U
5.1
General
5.2
Equipment (except (except for LNG Storage Tank)
5.3
LNG Stor age Tank
5.4
Machinery
5.5
Piping
5.6
Layout
5.7
System
5.8
Material Material Control
5.9
Heat Heat Insulation and Anti -corrosi on
5.10 5.10
Air Compressio n Station
5.11
Instrumentation
5.12
Electrical
5.13 5.13
Telecommu Telecommu nicatio n design
5.14 5.14
Fire Fightin g and Safety
5.15 5.15
Archi tectural design
5.16 5.16
Civil & Structu ral
5.17 5.17
Environ mental protect ion design
5.18
HVAC
5.19
Marine
5.20
LNG Special Standar ds
Page 2 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Terminal Project
1.
FEED-OR-RPT-08-004-Rev.. A FEED-OR-RPT-08-004-Rev
Introduction This document lists and classifies Applicable Codes and Standards to be complied for the design of PVGAS Fast Track LNG Terminal (hereafter, referred to as “Terminal”). LNG terminal stores large amounts of LNG which is flammable and cryogenic. The LNG would be given kinetic energy to be transferred and vaporized to send out. Because of this process, LNG terminal has some items to be considered to prevent the creation of possible hazardous condition such as fire and accidents caused by pressure, cryogenic temperature, etc. To operate the terminal as mentioned in the previous paragraph, a lot of research and study have been conducted to ensure the safety of the LNG terminal across the globe. Thus, in the LNG industry, the proud history has been achieved on safety aspects compared with other industries such as petrochemical plant. Most of the precious results from these studies for LNG have been organized as a number of laws, codes, regulations or standards to be complied with or referred to. Hereinafter, not only the applicable codes and standards in Vietnam but also other country’s codes and standards are listed, so that those codes and standards to be compared and applied to the design of Terminal. In case of conflict between the requirements of Vietnamese Codes and International Codes, order of precedence shall be as below: 1) Vietnamese Codes 2) International Codes In case of conflict exits among the codes and/or standards, PVGAS ask TGE to present the difference for resolution. Relevant safety, fire fighting, environmental protection of design should first satisfy Vietnamese codes, regulations and standards.
2.
Definition Unless the context otherwise requires, the following words and expression appearing in this document shall have the meaning assigned to them as follows;
“FEED” means Front End Engineering Design
Page 3 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
FEED-OR-RPT-08-004-Rev. A
“Project” means Front End Engineering Design & Cost Estimation for PVGAS Fast Track LNG Terminal Project “Terminal” means PVGAS Fast Track LNG Terminal “EPC” means Engineering, Procurement and Construction 3.
General The design shall be conducted based on Vietnamese National Laws, rules, regulation, with priority. However, since LNG business is new in Vietnam, applicable codes and standards for LNG industry have NOT yet been established including codes and standards for the design of Terminal. In this context, codes and standards established around the world for the LNG industry would be referential to the design of Terminal. Major process part of Terminal to be designed mainly based on international codes such as LNG tank design etc. And others such as fire fighting etc, to be designed mainly based on Vietnamese codes, and recognized international code and standards is referred in cases any applicable contents has been included. In case of conflict exits among the codes or standards, EPC Contractor should take responsibility to present the difference to PVGAS as resolution. Generally, the more stringent requirement should be selected unless PVGAS has special comment or disapproval on it Based on this philosophy, applicable and referential codes and standards for the design of Terminal are listed in the following section. Except where otherwise stated, the applicable codes & standards shall be the latest edition.
4.
Appl icable Laws, Rules & Regulations 1)
No.03/2002/ND-CP: Security and Safety protection for Petroleum buildings
2)
No. 209-2004/ND-CP: Quality management of Construction works
3)
No. 04-2008/TT-BLDTBXH: Procedure instruction for Registration and Verification for machines, equipments, materials which is strictly requirement on labor safety
4)
No. 3733-2002/ QD-BYT: Standard of labor hygiene
5)
The Cost Estimation shall be based on Government's Decree No.112/2009/ND-CP, Circular No. 04/2010/TT-BXD
6)
No.13/2011/NĐ-CP dated 11 February 2011: Safety for onshore oil
and gas facilities
Page 4 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Comment [A1]: Add: Decree 49/2008/NĐ-CP
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
7)
FEED-OR-RPT-08-004-Rev. A
No. 49/2008/NĐ-CP: Quality management of Construction works
(attached to No. Construction works)
209-2004/ND-CP:
Quality
management
of
5)8) 5.
Comment [A2]: Please insert the
Appl icable Codes & Standards
version/edi tion of
5.1
General
code& standards
1)
TCVN 8610:2010 Liquefied Natural Gas (LNG) – Equipment system and Installation – General properties of LNG
2)
TCVN 8611:2010 Liquefied Natural Gas (LNG) – Equipment system and Installation – Design of onshore s ystem
3)
TCVN 8612:2010 Liquefied Natural Gas (LNG) – Equipment system and Installation – Design and test of import/export derrick
4)
TCVN 8613:2010 Liquefied Natural Gas (LNG) – Equipment system and Installation – Product receiving and delivery procedure
5)
EN1473-2007: Installation and equipment for liquefied natural gas – Design of onshore installations
6)
NFPA 59A-2009: Standard for the Production, Storage and Handling of Liquefied Natural Gas(LNG)
7)
TCXDVN 371:2006 – Acceptance of constructional quality of building works
6)8) 5.2 5.2.1
Equipm ent (except for LNG Storage Tank) Local Codes & Standards 1)
TCVN 5346-91(ST SEV 5307-85): Boilers. General requirements for calculation of stability.
2)
TCVN 6004-1995: Boilers. Safety engineering requirements of design, construction, manufacture.
3)
TCVN 6005-95: Boilers. Safety engineering requirements of design, construction, manufacture. Testing methods.
4)
TCVN 6006-95: Boilers. Safety engineering requirements of erection, use, repair.
5)
TCVN 6007-1995: Boilers. Safety engineering requirements of erection, use, repair. Testing methods.
6)
TCVN 6008-1995: Pressure requirements. Control methods.
7)
TCVN 6153-1996: Pressure vessels – Safety requirements of design, construction, manufacture.
equipment’s.
Welds.
Technical engineering
Page 5 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
all applicable
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
5.2.2
FEED-OR-RPT-08-004-Rev. A
8)
TCVN 6154-1996: Pressure vessels – Safety engineering requirements of design, construction, manufacture – Testing methods.
9)
TCVN 6155-1996: Pressure vessels requirements of erection, use, repair.
Safety
engineering
10)
TCVN 6156-1996: Pressure vessels – Safety requirements of erection, use, repair. Testing methods.
engineering
11)
TCVN 6008-1995: Pressure equipment. Welded points. Technical requirements and control methods.
–
International Codes & Standards 1)
ASME Sec VIII Div 1: Rules for Construction of Pressure Vessels
2)
ASME Sec VIII Div 2: Alternative Rules for Construction of Pressure Vessels
3)
ASME Sec V: NDT to Pressure Vessels
4)
ASME Sec II: Material of Pressure Vessels
5)
ASME Sec IX: Welding and Brazing Qualifications
6)
ANSI/AWS: American Welding Society D1.1/D1.1M 2010
7)
TEMA: Tubular Exchanger Manufacturers Association
8)
API 650: Welded Steel Tanks for Oil Storage (11 th Edition 2009)
9)
WRC Bulletin 537: Precision Equations and Enhanced Diagrams For Local Stresses In Spherical and Cylindrical Shells Due to External Loading For Implementation of WRC Bulletin 107
10)
WRC Bulletin 297: Local Stresses In Cylindrical Shells Due to External Loadings on Nozzles – Supplement to WRC Bulletin No 107
5.3
LNG Storage Tank
5.3.1
International codes & standards 1)
BS EN 14620: Design and manufacture of site built, vertical, cylindrical, flat-bottomed steel tanks for the storage of refrigerated, liquefied gases with operating temperatures between 0 and -165 degrees centigrade.
2)
API STD 620: Design and Construction of Large, Welded, Low
Page 6 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
FEED-OR-RPT-08-004-Rev. A
Pressure Storage Tanks (11TH Edition 2008) 3)
API STD 2000: Venting Atmospheric and Low-Pressure Storage Tanks(6TH Edition 2009)
4)
NFPA 59A-2009: Standard for the Production, Storage and Handling of Liquefied Natural Gas(LNG)
5.4
Machinery
5.4.1
Local codes & standards
5.4.2
1)
TCVN 4244-2005: Liftings appliances. Design, construction and technical survey.
2)
TCVN 4755-1989: Cranes. Safety equipments.
3)
TCVN 5206-1990: Loading counter-weights and balances.
4)
TCVN 4707-1990: Loading cranes. requirements.
5)
TCVN 5209-1990: Loading cranes. Safety requirements for electical equipments.
6)
TCVN 5179-1990: Hoisting cranes. Test requirements of hydraulic equipments for safety.
requirements
cranes.
Safety
on hydraulic
requirements
for
Container cranes. Safety
International codes & standards 1)
API STD 610: Centrifugal Pumps for Petroleum, Petrochemical and Natural Gas Industries(11th Edition 2010)
2)
API STD 614: Lubrication, Shaft-sealing and Control Oil Systems and Auxiliaries (5th Edition 2008)
3)
API STD 618: Reciprocating Compressors for Petroleum, Chemical, and Gas Industry Services (5 th Edition 2010)
4)
API STD 670: Machinery Protection Systems (4 th Edition 2000)
5)
API STD 671: Special Purpose Couplings for Petroleum, Chemical and Gas Industry Services (4 th Edition 2007)
Page 7 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
6)
FEED-OR-RPT-08-004-Rev. A
API STD 674: Positive Displacement Pumps-Reciprocating (3 th Edition 2010)
7)
API STD 675: Positive Displacement Pumps-Controlled Volume (2nd Edition 1994)
8)
API STD 676: Positive Displacement Pumps-Rotary (3rd Edition 2009)
9)
ISO5199:2002: Technical specifications for centrifugal Pump-Class II
10)
API STD 682 Pumps-Shaft Sealing Systems for Centrifugal and Rotary Pumps (3rd Edition 2004)
11)
OCIMF: Design and Construction Specification for Marine Loading Arms
12)
OCIMF: Recommendation for Manifolds for Refrigerated Liquefied Natural Gas Carriers (LNG)
13)
NFPA 20 Standard for the Installation of Stationary Pumps for Fire Protection
5.5
Piping
5.5.1
Local codes & standards
5.5.2
1)
TCVN 4090-1985: Main Pipelines for Transporting of Oil and Oil Product - Design Standard.
2)
TCVN 7441-2004: Liquefied Petroleum Gas (LPG) Compounds at Consumption Ends - Requirements in Design, Installation and Operation.
International codes & standards 1)
ANSI/ASME B1.20.1: Pipe Threads, General Purpose (inch)
2)
ANSI/ASME B16.3-2011: Malleable Iron Threaded Fittings, Class 150and 300
3)
ANSI/ASME B16.5-2009: Pipe Flanges and Flanged Fittings: NPS 1/2 through NPS 24 Metric/Inch Standard
4)
ANSI/ASME B16.9-2007: Factory Made Wrought Steel Butt-welding Fittings
Page 8 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
5)
FEED-OR-RPT-08-004-Rev. A
ANSI/ASME B16.10-2009: Face-to-Face and End-to-End Dimensions of Valves
6)
ANSI/ASME B16.11-2009: Forged Fittings, Socket-welding and Threaded
7)
ANSI/ASME B16.20-2007: Metallic Gaskets for Pipe Flanges: Ring-Joint, Spiral-Wound and Jacketed
8)
ANSI/ASME B16.21-2001: Nonmetallic Flat Gaskets for Pipe Flanges
9)
ANSI/ASME B16.25-2007: Butt-welding Ends
10)
ANSI/ASME B16.34-2009: Valves-Flanged, Threaded and Welding End, Includes Supplement
11)
ASME/ANSI B16.47-2011: Large Diameter Steel Flanges : NPS 26 Through NPS 60
12)
ANSI /ASME B36.10M-2004: Welded and Seamless Wrought Steel Pipe
13)
ANSI /ASME B36.19-2004: Stainless Steel Pipe
14)
ANSI /ASME B31.1-2010: Power Piping
15)
ANSI /ASME B31.3-2010: Process Piping
16)
ANSI /ASME B31.4-2009: Liquid Transportation System for, Liquid Hydrocarbons and Other Liquids
17)
ANSI /ASME B31.5-2010: Refrigeration Piping and Heat Transfer Components
18)
ANSI /ASME B31.8-2010: Gas Transmission and Distribution Piping Systems
19)
API STD598-2009: Valve Inspection and Test
20)
API STD600-2009: Steel Gate Valves, Flanged or Butt-welding Ends, Bolted and Pressure Seal Bonnet
21)
API STD602-2005: Steel Gate, Globe and Check Valves for Sizes DN 100 and Smaller for the Petroleum and Natural Gas Industries
22)
API STD605-1998: Large-diameter Carbon Steel Flanges
23)
API 5L 44th edition: Specification for Line Pipe
Page 9 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
FEED-OR-RPT-08-004-Rev. A
24)
MSS SP79-2004: Socket-Welding Reducer Inserts
25)
MSS SP97-2006: Integrally Reinforced Forged Branch Outlet Fitting, Socket-welding, Threaded and Butt-welding Ends
26)
MSS SP95-2006: Swage Nipples and Bull Plugs
27)
MSS SP44-2010: Steel Pipe Line Flanges
28)
ASTM A105/A105M-11a: Standard Specification for Carbon Steel Forgings for Piping Applications
29)
ASTM A106 /A106M-11: Standard Specification for Seamless Carbon Steel Pipe for High Temperature Service
30)
ASTM A123/A123M-09: Standard Specification for Zinc (Hot Dip Galvanized) Coatings on Iron and Steel Products.
31)
ASTM A182/A182M-11a: Standard Specification for Forged or Rolled Alloy and Stainless Steel Pipes Flanges, Forged Fittings, and Valves and Parts for High-Temperature Service
32)
ASTM A193/A193M-11a: Standard Specification for Alloy Steel and Stainless Steel Bolting for High-temperature or High Pressure Service and Other Special Purpose Applications
33)
ASTM A194/A194M-11: Standard Specification for Carbon Steel and Alloy Steel Nuts for Bolts for High Pressure or High Temperature Service , or Both
34)
ASTM A216/A216M-08: Standard Specification for Steel Castings, Carbon, Suitable for Fusion Welding, for High-Temperature Service
35)
ASTM A234/A234M-11a: Standard Specification for Piping Fittings of Wrought Carbon Steel and Alloy Steel for Moderate and High Temperature Service
36)
ASTM A312/A312M-11: Standard Specification for Seamless, Welded, and Heavily Cold W orked Austenitic Stainless Steel Pipes
37)
ASTM A320/A320M-11a: Standard Specification for Alloy Steel and Stainless Steel Bolting for Low-Temperature Service
38)
ASTM A350/A350M-10: Standard Specification for Carbon and Low-Ally Steel Forgings, Requiring Notch Toughness Testing for
Page 10 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
FEED-OR-RPT-08-004-Rev. A
Piping Components 39)
ASTM A351/A351M-10: Standard
Specification for Castings,
Austenitic, for Pressure Containing Parts
5.6
Layout
5.6.1
Local codes & standards
5.6.2
1)
TCVN 5307-2009: Petroleum and Petroleum Products Terminal _ Design requirement.
2)
TCVN 7441-2004: Liquefied Petroleum Gas (LPG) Compounds at Consumption Ends - Requirements in Design, Installation and Operation.
3)
TCVN 5307:2002: Stock for petroleum products – Specification for design
4)
TCVN 6486:1999: Liquid petroleum gas – Pressurised storage – Location, design, capacity and installation
International codes & standards 1)
EN1473-2007: Installation and Equipment for Liquefied Natural Gas – Design of Onshore Installations
2)
NFPA 59A-2009: Standard for the Production, Storage and Handling of Liquefied Natural Gas
5.7
System
5.7.1
Local codes & standards
5.7.2
1)
TCVN 5949-1998: Acoustics. Noise in public and residential areas Maximum permitted noise level
2)
TCVN 5760-1993: Fire-extinguishing system. General requirements of design, installation and utilize
3)
TCVN 5738-2001: Fire detection and alarm system - Technical requirements
International codes & standards 1)
OSHA 1926.52: Occupational Noise Exposure
2)
API STD/ RP 520: Sizing Selection and Installation of Pressure Relieving Devices in Refineries (8 th edition 2008)
3)
ANSI/ API STD 521: Guide for Pressure Relieving and Depressing
Page 11 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
FEED-OR-RPT-08-004-Rev. A
Systems (5 th edition 2007) 4)
API STD 526: Flanged Steel Pressure Relief Valves (6 th edition 2009)
5.8
Material Control
5.8.1
Local codes & standards
Comment [A3]: Please insert the list of applicable code & standards.
1)
5.8.2
Standard BS EN 10204 is requested to
TCVN: Vietnam National standard
International codes & standards 1)
ASTM: American Society for Testing Materials
2)
ASME: American Society Mechanical Engineers
3)
API: American Petroleum Institute
5.9
Heat Insulation and Anti -corrosi on
5.9.1
Local codes & standards
5.9.2
add in the list
1)
TCVN 4090-1985: Main Pipelines for Transporting of Oil and Oil Product Design Standard.
2)
TCVN 5066-1990: Main Underground Pipelines for Transporting Gases, Petroleum and Petroleum Products _ General Requirements for Anti Corrosion.
International codes & standards 1)
ISO 4628-3-2003 : Paints and varnishes - Evaluation of paint coatings - Designation of quantity and size of defects and of intensity of ,
uniform changes in appearance--- Part 3 ‘ Assessment of degree of rusting 2)
ISO 8501-1-2007: 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 overall removal of previous coatings
3)
SSPC-PA1-2000:
Paint
Application
Guide,
Shop,
Field,
and
Page 12 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
FEED-OR-RPT-08-004-Rev. A
Maintenance Painting of Steel 4)
SSPC-SP1-2004: Surface Preparation Specification No.1, - Solvent Cleaning
5)
SSPC-SP2-2004: Surface Preparation Specification no.2, - Hand Tool Cleaning
6)
SSPC-SP3-2004: Surface Preparation Specification No.3, - Power Tool Cleaning
7)
SSPC-SP5: Surface Preparation Specification, - White Metal Blast Cleaning
8)
SSPC-SP6: Joint Surface Preparation Standard, - Commercial Blast Cleaning
9)
SSPC-SP7-2000: Joint Surface Preparation Standard, - Brush-off Blast Cleaning
10)
SSPC-SP8-2000 : Surface Preparation Specification No.8, - Pickling
11)
SSPC-SP10-2000:Surface Preparation Specification no.10, - Near White Blast Cleaning
12)
SSPC-SP11-2000: Surface Preparation Specification No.11, - Power Tool Cleaning to Bare Metal
13)
SSPC-PS 8.01: SSPC Paint System Specifications, Rust Preventive Compounds
14)
SSPC-PS 12.00: SSPC Paint System Specification, Guide to Zinc-Rich Coating Systems
15)
ASTM A123/A123M-09: Standard Specification for Zinc (Hot-Dip Galvanized) Coatings on Iron and Steel Products.
16)
ASTM A167-99(2009): Standard Specification for Stainless and Heat-Resisting Chromium-Nickel Steel Sheet and Strip
17)
ASTM A463/A463M-10 : Standard and Specification for Steel sheet, Aluminium-Coated, by the Hot-Dip Process
18)
ASTM C165-07:
Standard and Test Method
for Measuring
Compressive Properties of Thermal Insulations 19)
ASTM C177-10: Standard Test Method for Steady State Heat Flux
Page 13 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
FEED-OR-RPT-08-004-Rev. A
Measurements and Thermal Transmission Properties by Means of the Guarded-Hot-Plate Apparatus 20)
ASTM C240-08e1: Standard Test Methods of Testing Cellular Glass Insulation Block
21)
ASTM C303-10: Standard Test Method for Dimensions and Density of Preformed Block and Board x2013;Type Thermal Insulation
22)
ASTM C518-10: Standard Test Method for Steady-State Thermal Transmission Properties by Means of the Heat Flow Meter Apparatus
23)
ASTM C552-07: Standard Specification for Cellular Glass Thermal Insulation
24)
ASTM C591-11: Standard Specification for Unfaced Preformed Rigid Cellular Polyisocyanurate Thermal Insulation
25)
ASTM C623-92 (2010): Standard Test Method for Young's Modulus, Shear Modulus, and Poisson's Ratio for Glass-Ceramics by Resonance
26)
ASTM D1621-10: Standard Test Method for Compressive Properties of Rigid Cellular Plastics
27)
ASTM D1622-08: Standard Test Method for Apparent Density of Rigid Cellular Plastics
28)
ASTM D1623-09: Standard Test Method for Tensile and Tensile Adhesion Properties of Rigid Cellular Plastics
29)
ASTM D6226-10: Standard Test Method for Open Cell Content of Rigid Cellular Plastics
30)
ASTM D3014-11: Standard Test Method for Flame Height, Time of Burning, and Loss of Mass of Rigid Thermoset Cellular Plastics in a Vertical Position
31)
ASTM
E84-12:
Standard
Test
Method
for
Surface
Burning
Characteristics of Building Materials 32)
ASTM E96/E96M-10: Standard Test Method for Water Vapour Transmission of Materials
33)
CINI Manual: General Requirements for the Thermal Insulation of
Page 14 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
FEED-OR-RPT-08-004-Rev. A
“Cold” Pipeline and Equipment
5.10
Air Compressio n Station 1)
TCVN 5181-90: requirements.
2)
TCVN 6290-1997: Gas cylinders. Cylinders for permanent gases. Inspection at time of filling.
3)
TCVN 6291-1997: Gas cylinders. Cylinders for industrial use. Marking for identification of content.
4)
TCVN 6292-1997: Gas cylinders. Welded carbon steel gas cylinders. Periodic inspection and testing.
5)
TCVN 6293-1997: Gas cylinders. Cylinders for medical use. Marking for identification of content.
6)
TCVN 6296-1997: Gas cylinders. Precautionary labels.
5.11
Instrumentation
5.11.1
Local codes & standards 1)
Compressors
equipments.
General
safety
No any mandatory Vietnamese codes & standards is required in Instrumentation design
Vietnamese Codes and Standards 1)
TCVN 5334
Electrical apparatus for petroleum and petroleum products terminal. Requirements on safety in design, installation and operation
2)
TCVN 3254
Fire safety-General Requirements
3)
TCVN 3255
Explosion safety-General Requirements
4)
TCVN 5738
Fire detection and alarm systems-Technical Requirements
5)
TCVN 5760
Fire Extinguishing Systems-General Design, Installation and Use
Requirements
1)
5.11.2
International codes & standards 1)6)
IEC 60050-351: International Electrotechnical Vocabulary – Part 351: Control technology
7)
IEC 60073: Basic and safety principles for man-machine interface, marking and identification - Coding principles for indicators and actuators
Page 15 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
for
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
8)
FEED-OR-RPT-08-004-Rev. A
IEC 60079 : Electrical apparatus for explosive gas atmospheres – All Parts
2) 3)
IEC/TR 60079-16: Electrical apparatus for explosive gas atmospheres - Part 16: Artificial ventilation for the protection of analyzer(s) houses.
4)9)
IEC 60331 series: Tests for electric cables under fire conditions Circuit integrity.
5)10)
IEC 60332 series: Tests on electric and optical fibre cables under fire conditions.
6)11)
IEC 60529: Degrees of protection provided by enclosures (IP Code).
7)12)
IEC 60584-1~3: Thermocouples.
8)13)
IEC 60605 series: Equipment reliability testing.
9)14)
IEC 60751: Industrial platinum resistance thermometers and platinum temperature sensors.
10)15)
IEC 60793-1 series: Optical fibres – Measurement methods and test procedures.
11)16)
IEC 60794 series: Optical fibre cables
12)17)
IEC 61000-4 series: Electromagnetic compatibility (EMC) - Testing and measurement techniques
13)18)
IEC 61131-3: Programmable controllers - Part 3: Programming languages.
14)19)
IEC 61508-1: Functional safety of electrical/electronic/programmable electronic safety-related systems - Part 1: General requirements.
15)20)
IEC 61508-3: Functional safety of electrical/electronic/programmable electronic safety-related systems - Part 3: Software requirements.
16)21)
IEC 61508-4: Functional safety of electrical/electronic/programmable electronic safety-related systems - Part 4: Definitions and abbreviations.
17)22)
IEC 61508-5: Functional safety of electrical/electronic/programmable electronic safety-related systems - Part 5: Examples of methods for the determination of safety integrity levels.
18)23)
IEC 61511-1: Functional safety - Safety instrumented systems for the process industry sector - Part 1: Framework, definitions, system, hardware and software requirements
19)24)
IEC 61511-2: Functional safety - Safety instrumented systems for the process industry sector - Part 2: Guidelines for the application of IEC 61511-1
20)25)
IEC 61511-3: Functional safety – Safety instrumented systems for the process industry sector - Part 3: Guidance for the determination of the required safety integrity levels
21)26)
IEC/TR 61734: Application of symbols for binary logic and analogue
Page 16 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
FEED-OR-RPT-08-004-Rev. A
elements 22)27)
ISO 4006: Measurement of Fluid Flow in closed Conduit - Vocabulary and Symbols
23)28)
ISO 5167-1~4: Measurement of fluid flow by means of pressure differential devices inserted in circular cross-section conduits running full.
24)29)
ISO 5168: Measurement of fluid flow – Procedure for evaluation of uncertainties
25)30)
ISO 6817: Measurement of conductive liquid flow in closed conduits Method using electromagnetic flowmeters
26)31)
ISO 6974 series: Natural gas - Determination of composition with defined uncertainty by gas ch romatography
27)32)
ISO 6975: Natural gas - Extended analysis - Gas chromatographic method.
28)33)
ISO 6976: Natural gas - Calculation of calorific values, density, relative density and Wobbe index from composition.
29)34)
ISO 7504 Gas analysis - Vocabulary.
30)35)
ISO 8310: Refrigerated light hydrocarbon fluids - Measurement of temperature in tanks containing liquefied gases - Resistance thermometers and thermocouples.
31)36)
ISO 8943: Refrigerated light hydrocarbon fluids - Sampling of liquefied natural gas - Continuous and intermittent methods.
32)37)
ISO 9951: Measurement of gas flow in closed conduits - Turbine meters
33)38)
ISO 10715: Natural gas - Sampling guidelines
34)39)
ISO 10723: Natural gas - Performance evaluation for on-line analytical systems.
35)40)
ISO 10790: Measurement of fluid flow in closed conduits - Guidance to the selection, installation and use of Coriolis meters (mass flow, density and volume flow measurements)
36)41)
ISO 12213 series: Natural gas - Calculation of compression factor.
37)42)
API RP 520: Sizing, Selection and Installation of Pressure-Relieving Devices in Refineries
38)43)
API STD 526: Flanged Steel Pressure Relief Valves.
39)44)
API STD 527: Seat Tightness of Pressure Relief Valves
40)45)
API RP 551: Process Measurement Instrumentation.
41)46)
API RP 552: Transmission Systems.
42)47)
API RP 554 series: Process Control Systems
43)48)
API RP 555: Process Analyzers.
49)
API STD 670: Machinery Protection Systems
Page 17 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
FEED-OR-RPT-08-004-Rev. A
44)50)
ISA S5.1 Instrument symbol and identification
45)51)
ISA 5.3: Graphic Symbols for Distributed Control/Shared Display Instrumentation, Logic and Computer Systems.
46)52)
ISA 5.4: Instrument Loop Diagrams.
47)53)
ISA 5.5: Graphic Symbols for Process Displays.
48)54)
ISA 7.0.01: Quality Standard for Instrument Air.
49)55)
ISA 18.1: Annunciator Sequences and Specifications.
50)56)
ISA RP 42.00.01: Nomenclature for Instrument Tube Fittings.
51)57)
ISA 51.1: Process Instrumentation Terminology.
52)58)
ISA 71.01: Environmental Conditions for Process Measurement and Control Systems: Temperature and Humidity.
53)59)
ANSI/ISA 75.01.01: Flow Equations for Sizing Control Valves.
54)60)
ANSI/ISA 75.02.01: Control Valve Capacity Test Procedures.
55)61)
ANSI/ISA 75.05.01: Control Valve Terminology.
56)62)
ANSI/ISA 75.08 series: Face-to-Face Dimensions for Control Valves
57)63)
FCI 70.2: Control Valve Seat Leakage.
58)64)
IEEE 802.3: Information processing systems local area networks.
59)65)
AGA Report No. 8: Compressibility Factor of Natural Gas and Related Hydrocarbon Gases
60)66)
AGA Report No. 9: Measurement of Gas by Multipath Ultrasonic Meters.
61)67)
ASME B16.5: Pipe Flanges and Flanged Fittings
68)
ASME B16.10: Face to Face and End-to-End Dimensions of Valves
62)69)
EN 54 Fire detection and fire alarm systems
5.12
Electrical
5.12.1
Local codes & standards 1)
11TCN-18- 2006: Regulation of power equipment – regulations
2)
11TCN-19-2006: Regulation transmission lines
3)
11TCN-20-2006: Regulation of power equipment – distribution equipment and transformer
4)
11TCN-21-2006: Regulation of power equipment – Protection and Automation
5)
TCXDVN 46-2007: Protection of Structures Against Lightning - Guide for design, inspection and maintenance
of
power
equipment
–
general power
Page 18 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
5.12.2
FEED-OR-RPT-08-004-Rev. A
6)
TCVN 5334-2007: Electrical apparatus for petroleum and petroleum products terminal – Requirements on safety in design, installation and operation
7)
Lighting system shall be accordance with Vietnamese Standard TCVN 3743, TCXD 16, TCXD 95
8)
11-TCN-19-2006: System
9)
TCXDVN 319 : 2004: Installation of Equipment Earthing System for Industrial Projects- General requirements
Electrical Installation Code:
Electrical Wiring
International codes & standards 1)
API RP500: Classification of locations for electrical installation at petroleum facilities classified as Class I, Division 1 and Division 2
2)
API RP505: Classification of locations for electrical installations at petroleum facilities classified as Class I, Zone 0, Zone 1, and Zone 2
3)
API RP540: Electrical Installations in Petroleum processing plants
4)
IEC 62305:2010 – Protection against lightning
4)5)
IEC 60034 series: Rotating electrical machines.
5)6)
IEC 60038: IEC standard voltages.
6)7)
IEC 60044 series: Instrument transformers
7)8)
IEC 60050 series: International Electrotechnical Vocabulary
8)9)
IEC 60051 series: Direct acting indicating analogue electrical
Formatted: List Paragraph
measuring instruments and their accessories. 9)10)
IEC 60073: Basic and safety principles for man-machine interface, marking and identification - Coding principles for indicators and actuators
10)11) IEC 60076 series: Power transformers. 11)12)
IEC 60079 series: Explosive atmospheres
12)13) IEC 60085: Electrical insulation - Thermal evaluation and designation 13)14) IEC 60137: Insulated bushings for alternating voltages above 1000 V 14)15) IEC 60146 series: Semiconductor converters. 15)16) IEC 60228: Conductors of insulated cables. 16)17) IEC 60265 series: High-voltage switches. Page 19 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
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FEED-OR-RPT-08-004-Rev. A
17)18) IEC 60269 series: Low-voltage fuses. 18)19) IEC 60282 series: High voltage fuses. 19)20) IEC 60331 series: Tests for electric cables under fire conditions Circuit integrity 20)21) IEC 60332 series: Tests on electric and optical fibre cables under fire conditions. 21)22) IEC 60364 series: Low-voltage electrical installations 22)23) IEC 60439 series: Low-voltage switchgear and controlgear assemblies 23)24) IEC 60470: High-voltage alternating current contractors and contractor-based motor-starters 24)25) IEC 60502 series: Power cables with extruded insulation and their accessories for rated voltages from 1 kV (Um = 1,2 kV) up to 30 kV (Um = 36 kV) 25)26) IEC 60529: Degrees of protection provided by enclosures (IP Code) 26)27) IEC 60598 series: Luminaries. 27)28) IEC 60623: Secondary cells and batteries containing alkaline or other non-acid electrolytes - Vented nickel-cadmium prismatic rechargeable single cells. 28)29) IEC 60947 series: Low voltage switchgear and controlgear. 29)30) IEC 61000 series: Electromagnetic compatibility (EMC). 30)31) IEC 60028: International Standard of Resistance for Copper. 31)32) IEC 60072 series: Dimensions and output series for rotating electrical machines. 32)33) IEC 60078: Characteristic impedances and dimensions of radio frequency coaxial cables. 33)34) IEC 60136: Dimensions of brushes and brush-holders for electrical machinery. 34)35) IEC 60144: Degree of protection of enclosures for Low Voltage Switch Gear and Control Gear.
Page 20 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
FEED-OR-RPT-08-004-Rev. A
35)36) IEC 60156: Electric Strength of Insulating Oil. 36)37) IEC 60185: Current transformer. 37)38) IEC 60186: Voltage Transformer. 38)39) IEC 60227: Poly-vinyl Chloride insulated cables of rated voltages up to and including 440/750. 39)40) IEC 60255: Electrical relays. 40)41) IEC 60270: High Voltage Test Techniques. 41)42) IEC 60287: Electric cables - Calculation of the current rating. 42)43) IEC 60289: Reactors. 43)44) IEC 60292: Low voltage motor starters. 44)45) IEC 60296: Specification for unused mineral insulating oils for transformers and switchgear. 45)46) IEC 60304: Standard colours for insulation for low-frequency cables and wires. 46)47) IEC 60309: Plugs, socket-outlets and couplers for industrial purposes. 47)48) IEC 60337: Control switches, switch disconnectors, fuse and combination unit. 48)49) IEC 60354: Guide for loading of oil immersed power transformer. 49)50) IEC 60420: High Voltage Alternating Current Switch Fuse Combinations. 50)51) IEC 60445: Identification of Apparatus Terminals. 51)52) IEC 60446: Basic and safety principles for man-machine interface, marking and identification - Identification of conductors by colours or numerals. 52)53) IEC 60551: Determination of Transformer and reactor sound levels. 53)54) IEC 60614: Specifications for conduits for electrical installation. 54)55) IEC 60616: Terminal and Tapping Markings for Power Transformers. 55)56) IEC 60617: Graphical symbols for diagrams. 56)57) IEC 60664: Insulation coordination for equipment within low-voltage
Page 21 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
FEED-OR-RPT-08-004-Rev. A
systems. 57)58) IEC 60688: Electrical measuring transducers for converting a.c. electrical quantities to analogue or digital signals. 58)59) IEC 60694: Common specification for high-voltage switchgear and Controlgear Standards. 59)60) IEC 60724: Guide to the short circuit temperature limits of electric cables with a rated voltage not exceeding 0.6/1.0KV. 60)61) IEC 60751: Industrial platinum resistance thermometer sensors. 61)62) IEC 60754: Test on gases evolved during combustion of materials from cables. 62)63) IEC 61010: Safety requirements for electrical equipment for measurement, control and laboratory use. 63)64) IEC 61034: Measurement of smoke density of electric cables burning under defined conditions. 64)65) IEC 61459: Coordination between fuses and contactors/motor-starters – Application guide. 65)66) IEC 61641: Enclosed low-voltage switchgear and control-gear assemblies - Guide for testing under conditions of arcing due to internal fault. 66)67) IEC 62026: Low voltage switchgear and control-gear – Controller-device interfaces (CDI’s). 67)68) IEC 62040: Uninterruptible power systems (UPS). 68)69) IEC 62271 series:2001 High-voltage switchgear and control gear. 69)70) IEC 62305: Protection against lightning - part 1/2/3/4. 70)71) BS EN 10204-2004: Metallic materials. Types of inspection documents. 71)72) BS 148-2009: Reclaimed mineral insulating oil for transformers and switchgear. Specification 72)73) BS 223-1985: Specification for Bushings for Alternating voltages above 1000V.
Page 22 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
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FEED-OR-RPT-08-004-Rev. A
73)74) BS 2562-1979: Specification for cable boxes for Transformers and reactors. 74)75) BS 2869-2010+A1-2011: Fuel Oils for agricultural, domestic and industrial engines and boilers. Specification 75)76) BS 4675: Mechanical Vibration in Rotating Machinery. 76)77) BS 4999: General requirements for rotating electrical machines. 77)78) BS 5000: Rotating Electrical Machines of particular types or for particular applications. 78)79) BS 5304-1988: Code of practice for safety of machinery 79)80) BS 5514: Reciprocating Internal Combustion Engines Performance (all parts). 80)81) BS 6056-1981: Method of measurement of Transformer and reactor sound levels. 81)82) BS 6231-2006: Electric cables. Single core PV C insulated flexible cables of rated voltage 600/1000 V for switchgear and controlgear wiring 82)83) BS 6436-1984: Specification for ground mounted distribution Transformer for cable Box or unit substation connection. 83)84) BS 729-1971: Specification for hot dip galvanized coatings on iron and steel articles. 84)85) BS 7430 -2011: Code of Practice for protective earthing of electrical installations. 85)86) BS 7626-1993: Specification for Current Transformers. 86)87) BS 7655: Specification for insulating and sheathing materials for cables. 87)88) BS 7671-2008: Requirements for Electrical Installations - IEE Wiring Regulations. 88)89) BS 799: Oil Burning Equipment. 89)90) ANSI/TIA/EIA 568-B: Commercial Building Telecommunications Cabling Standard.
Page 23 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
FEED-OR-RPT-08-004-Rev. A
90)91) API RP 2003: Protection against ignitions arising out of static, lightning and stray cu rrents. 91)92) ANSI/API STD 546: Brushless Synchronous Machine 500kVA and larger. 92)93) AEIC CS5: Specifications for Cross-Linked Polyethylene Insulated Shielded Power Cables Rated 5 Through 46 KV. 93)94) CISPR 11: Industrial, scientific and medical equipment – Radio-frequency disturbance characteristics – Limits and methods of measurement. 94)95) DIN VDE 0472: Testing of cables, wires and flexible cords. 95)96) DIN EN 50441; VDE 0815: Cables for indoor residential telecommunication installations 96)97) DNV 95-0421: Guidelines for Vibration Evaluation. 97)98) IEEE 115: Guide for Test Procedures for Synchronous Machines Part I: Acceptance and Performance Testing - Part II: Test Procedures and Parameter Determination for Dynamic Analysis. 98)99) IEEE 141: Recommended Practice for Electric power distribution for Industrial plants. 99)100) IEEE 142: Recommended Practice for Grounding of Industrial and Commercial Power Systems. 100)101)
IEEE 421.2: Guide for Identification, Testing, and Evaluation
of the Dynamic Performance of Excitation Control Systems. 101)102)
IEEE 80: Guide for Safety in AC Substation Grounding.
102)103)
IEEE 1106: Recommended practice for installation,
maintenance, testing and replacement of Vented Nickel-Cadmium batteries for stationary application. 103)104)
IEEE 112: Test procedure for Poly-phase induction motors
and generators. 104)105)
IEEE 114: Test procedure for Single phase induction motors.
105)106)
IEEE 115: Guide for Test procedures for synchronous
Machines.
Page 24 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
106)107)
FEED-OR-RPT-08-004-Rev. A
IEEE 85: Test procedures for Airborne sound measurements
on Rotating electric machinery. 107)108)
IP 15: Area Classification Code for Petroleum Installations.
108)109)
ISO 1132-1: Rolling bearings - Tolerances - Part 1: Terms
and definitions. 109)110)
ISO 1132-2: Rolling bearings - Tolerances - Part 2:
Measuring and gauging principles and methods. 110)111)
ISO 15: Rolling bearings - Radial bearings - Boundary
dimensions, general plan. 111)112)ISO 1940: Mechanical vibration - Balance quality requirements for rotors in a constant (rigid) state. 112)113)
ISO 2631-1: Mechanical vibration and shock - E valuation of
Human exposure to whole-body vibration – Part 1 General Requirements. 113)114)
ISO 281: Rolling Bearings: Dynamic Load Ratings and rating
life. 114)115)
ISO 3046: Reciprocating Internal Combustion engines.
115)116)
ISO 8528: Reciprocating Internal Combustion Engine Driven
Alternating Current Generating Sets. 116)117)
NFC 17-102: Lightning protection of structures and open
areas against lightning using early streamer emission air terminals.
5.13
117)118)
NFPA 70: National Electrical Code.
118)119)
NFPA 110: Emergency and Standby Power Systems.
119)120)
UL: Underwriters Laboratories.
Telecommun ication design 1)
TCN 68-141: 1999: Earthing of communication Plant Technical Requirement
2)
TCN 68-174: 2006: Codes of Practice for Lightning Protection and Earthing for Telecommunication system Plants.
3)
TCN 68-132
Communication Cables – Technical Standard (TS)
Page 25 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
FEED-OR-RPT-08-004-Rev. A
4)
TCN 68-136
PABX - Technical standard (TS)
5)
TCN 68-140
Protection of telecommunications lines and equipment against over-voltages and over-currents – Technical standard (TS)
6)
TCN 68-153
7)
TCN 68-160
Cable duct and cable connected box – Technical standard (TS) Optical fibre cables – Technical standard (TS)
8)
TCN 68-206
UHF Radio Telephone, Technical Requirements
2)9)
5.14
Fire Fightin g and Safety
5.14.1
Local codes & standards
5.14.2
Comment [A4]: Please add the Vietnam Government’s decrees in Fire Fighting and Safety
1)
Decree No. 13/2011/NĐ-CP
1)2)
TCVN 5760: Fire Extinguishing System-General Requirements of Project installation and Utilize
2)3)
TCXD 2622: Fire Protection of Buildings-Design Requirements
3)4)
TCVN 3254: Fire Safety-General Requirements
4)5)
TCVN 6486: Liquid petroleum gas- Pressurized storage. Location, design, capacity and installation
5)6)
TCVN 7336: Fire protection - Automatic sprinkler systems - Design and installation requirements
International codes & standards 1)
NFPA 10: Standard for Portable Fire Extinguishers
2)
NFPA 11: Standard for Low-, Medium-, and High-Expansion Foam
3)
NFPA 11A: Standard for Medium- and High-Expansion Foam Systems
4)
NFPA 13: Standard for the Installation of Sprinkler Systems
5)
NFPA 14: Standard for the Installation of Standpipe and Hose Systems
6)
NFPA 15: Standard for Water Spray Fixed Systems for Fire Protection
7)
NFPA 17: Standard for Dry Chemical Extinguishing Systems
8)
NFPA 20: Standard for the Installation of Stationary Pumps for Fire Protection
Page 26 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
9)
FEED-OR-RPT-08-004-Rev. A
NFPA 24: Standard for the Installation of Private Fire Service Mains and Their Appurtenances
10)
NFPA 72: National Fire Alarm and Signalling Code
11)
NFPA 2001: Standard on Clean Agent Fire Extinguishing Systems
5.15
Arch itectu ral design
5.15.1
Local codes & standards 1)
TCVN 4514-1988: Industrial enterprises – General – Design standard
2)
TCVN 4601-1988: Office building – Design standard
3)
TCVN 5687-1992: Ventilating, Air – conditioning, heating – Design standard
4)
TCVN 2622-1995: Fire prevention and protection for buildings and structures – Design requirements.
5)
Building code of Vietnamese – Volume I, II, III - 2009
5.16
Civil & Structur al
5.16.1
Local codes & standards 1)
TCVN 4055: Organization of Construction Activities
2)
TCVN 2737: Design Standard for Load and Load Effect
3)
TCVN 4032: Cements Test Method of Bending and Compression Strength
4)
TCVN 3118: Heavy Weight Concrete. Method for Determination of Compressive Strength
5)
TCVN 3119: Heavy Weight Concrete. Method for Determination of Flexural Strength
6)
TCVN 4314: Building Mortars. Technical Requirements
7)
TCVN 4054: Highway Design Standard
8)
TCVN 205: Pile Foundation. Design Standards
9)
TCXD 79: Standard for Construction, Check and Acceptance of Foundation Works
10)
TCXDVN 375: Design of structures for earthquake resistance
11)
TCVN 7888: Pretensioned Spun Concrete Piles
For water: 1)
TCVN 5992:1995: Water quality – Sampling - Guide the sampling
Page 27 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
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FEED-OR-RPT-08-004-Rev. A
technicality. 2)
TCVN 5993:1995: Water quality – Sampling - Guide curing and treating the sampling.
3)
TCVN 6200:1996: Water quality – Determination of sulphate content
4)
TCVN 6194:1996: Water quality – Determination of chloride content
5)
TCVN 6492:1999: Water quality – Determination of pH.
6)
TCVN 6196-3:2000: Water quality – Determination of Natrium and Kalium content.
7)
TCXDVN 302: 2004: Water for mixing concrete and mortar – Technical specification
For cement 1)
TCVN 4032-85: Cements test method of bending and compression strength
2)
TCVN 6016:1995: strength.
3)
TCVN 6017:1995: Cements – Test methods - Determination of setting time and soundness. strength.
4)
TCVN 141:1998: Chemical composition determination of clinke and Sulfate resisting Portland cement.
5)
TCVN 2682-99: Portland cements
6)
TCVN 4748:2001: Sampling and preparation of samples.
7)
TCVN 6820:2001: Chemical composition determination of clinke and Sulfate resisting Portland cement – Bari containing.
8)
TCVN 4030:2003: Cements – Test methods - Determination of fineness of cement powder.
9)
TCVN 6067:2004: requirements.
10)
TCVN 6260:2009: specifications for Porland cement blended
9)11)
TCVN 7711 : 2007: Sulfate resistance blended Portland cement – specification
Cements – Test methods - Determination of
Sulphate
resisting
Portland
–
Technical
For aggregate 1)
TCVN 7570: 2006: Specifications
Aggregates for concrete and motar –
2)
TCVN 7572: 2006 – 1: Sampling.
3)
TCVN 7572: 2006 – 2: Determination of partical size distribution.
4)
TCVN 7572: 2006 – 3: Guide for determination of petrographic compositions.
5)
TCVN 7572: 2006 – 4: Determination of apparent specific gravity, bulk specific gravity and water absorption.
Page 28 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
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FEED-OR-RPT-08-004-Rev. A
6)
TCVN 7572: 2006 – 5: Method for determination of apparent specific gravity and water absorption of oirginal stone and coarse aggregate particles.
7)
TCVN 7572: 2006 – 6: Determination of bulk density and voids.
8)
TCVN 7572: 2006 – 7: Determination of moisture.
9)
TCVN 7572: 2006 – 8: Method for determination of content of dust, mud and clay in aggregate and content of clay lumps in fine aggregate.
10)
TCVN 7572: 2006 – 9: Determination of organic impurities.
11)
TCVN 7572: 2006 – 10: Method for determination of strength and softening coefficient of the original stone.
12)
TCVN 7572: 2006 – 11: Determination of crushing value (ACV) and softening coefficient of coarse stone.
13)
TCVN 7572: 2006 – 12: Determination of resistance to degradation of coarse aggregate by abration and impact in the Los Angeles machine.
14)
TCVN 7572: 2006 – 13: Determination of elongation and flakiness index of coarse.
15)
TCVN 7572: 2006 – 14: Determination of alkali silica reactivity.
16)
TCVN 7572: 2006 – 15: Determination of chloride content.
17)
TCVN 7572: 2006 – 16: Determination of sulfate and sulfite content.
18)
TCVN 7572: 2006 – 17: Determination of feeble weathered particle content.
19)
TCVN 7572: 2006 – 18: Determination of crushed particle content.
20)
TCVN 7572: 2006 – 19: Determination of amorphous silicate content.
21)
TCVN 7572: 2006 – 20: Determination of mica content in fine aggregate.
For Mortar
1)
TCVN 4314-86:
Construction Mortar- Technical Requirements
Comment [A5]: TCVN 4314:86 has
For concrete 1)
been replaced by TCVN 4314:2003
TCVN 5592-1991: curing
Heavy Concrete - Requirements for natural moist Comment [A6]: TCVN 5592 : 1991
2)1)
TCVN 3105-1993: Heavyweight concrete compound and heavyweight concrete – Sampling, making and curing of test specimen
3)2)
TCVN 3118-1993: strength.
4)3)
TCVN 3119-1993: Heavy weight concrete. Method for determination of flexural strength
5)4)
TCVN 5718-1993: Reinfored concrete roof and floor buildings – Technical requirements for waterproofing.
Method for determination of compressive
in
Page 29 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
has been replaced by TCXDVN 391:2007
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
FEED-OR-RPT-08-004-Rev. A
6)5)
TCVN 4453-1995: Monolithic concrete and reinforced concrete structures - Codes for construction check and acceptance.
7)6)
TCXD 239-2000: Heavy Concrete – Guide to assessment of concrete strength in existing structure.
8)7)
TCXDVN 305: 2004: Mass concrete - Code of practice of construction and acceptance
9)8)
TCXDVN 327:2000: Concrete and reinforced concrete structures – Requirements for protection from corrosion in Marin environment
10)9)
TCXDVN 356:2005: Concrete and reinforced concrete structures – Design standard
11)10)
TCXDVN 389:2007: Precast prestressed concreteproducts technical requirements and acceptance
For rebar 1)
TCVN 6288: 1997: Cold- reduced steel wire for the reinforcement of concrete and the manufactory of welded fabric.
2)
TCXDVN – 2002: Welded steel mesh for the reinforcement of concrete – Standard for design, placing and acceptance.
3)
TCVN 1651-1: 2008: bars
4)
TCVN 1651-2: 2008: Ribbed bars
Steel for reinforcement concrete, Part 1: Plain Steel for reinforcement concrete, Part 2:
For pre-tensioned concrete steel 1)
TCVN 6284-1: 1997, 6284-2: 1997, 6284-3: 1997: prestressed.
Steel bar for
2)
TCXD 4452-1987: Prefabricated Concrete and Reinforced Concrete-Codes for Construction, Check and Acceptance
For structure steel 1)
TCVN 197: 1985:
Metals – Method of tractional test
2)
TCVN 198: 1985:
Metals – Method of bending test
3)
TCVN 5709: 1993: Hot – rolled carbon steels for building – Technical requirement
4)
TCXDVN 338:2005:
5)
TCVN 4399: 2008: Steel and steel products. General technical delivery requirements
Steel structures – Design standard
For loading & Design standard 1)
TCXD 45-78:
Design standard – Building foundation
2)
TCVN 4515 – 88:
3)
TCVN 4604 – 88: Design Standard.
Public Dining Hall – Design Standard. Industrial Workshop – Manufacture Building –
Page 30 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
FEED-OR-RPT-08-004-Rev. A
4)
TCVN 4317 – 88: Warehouses – Basic Design Standards.
5)
TCVN 2737-95:
6)
TCVN205-1998: Pile foundation – Specifications of design.
7)
TCXDVN 375: 2006:
8)
TCVN 7888: 2008:
Loads and Impact - Design Standard
Design of structures for earthquake resistance Pretensioned Spun Concrete Piles
For construction 1)
TCVN 79: 1980: Standard for construction. Check and acceptance of foundation works.
2)
TCVN88: 1982:
3)
TCVN 4055: 1985:
4)
TCVN 4447:87: acceptance.
5)
TCXD 170:1989: Steel structures – Fabrication, assembly, check & acceptance – Technical requirements
6)
TCVN 5637:1991: Quality Management in Building and Installation Building Works. Basic Principles
7)
TCVN 5641:1991: Reinforced concrete construction, check and acceptance
8)
TCVN 286: 2003: Piling driving and static jacking work – Standard for construction, check and acceptance.
9)
TCVN 326: 2004: Bored pile – Standard for construction, check and acceptance.
10)
TCXDVN 303: 2006: Finish works in construction – Execution and acceptance
11)
TCXDVN 386: 2006: Column Method
Stabilization of Soft Soil
12)
TCXDVN 390:2006:
Assembled concrete and reinforced concrete.
13)
TCVN 269: 2006: Piles – Standard test method for pile under axial compressive load.
14)
TCVN 392: 2007: Pre-cast Reinforced-Concrete Box Converts. Technical Requirements and Testing Methods
Piles – method for site testing Organization of Construction Activities Earth work. Code for construction. Check and
tank
–
Codes
for
by the Soil Cement
For Road 1)
22TCN 223 – 95:
Rigid pavement of highway – Design specification.
2)
22TCN 249 – 98: Technical specification for Construction, Check and acceptance for asphaltic concrete.
3)
22TCN 304 – 03: Technical specification – Construction, Check and acceptance for pavement structures by structural nature
4)
TCVN 4054 : 2005:
Highway – Specifications for design Page 31 of 36
Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
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FEED-OR-RPT-08-004-Rev. A
5)
22TCN 211 – 06: and Design.
Flexible Pavement – Requirements Guidelines
6)
22TCN 333 – 06: crushed stone
Soil compaction specification, aggregate in lab
7)
22TCN 334 – 06: Technical specification – Construction, Check and acceptance for aggregate stone base of pavement structures.
For Drainage
5.16.2
1)
TCVN 51:1984: Drainage – External networks and facilities Design standardDrainage and sewerage - External Networks and Facilities Design Standard - TCVN 7957:2008
2)
22TCN 159: 86:
3)
TCVN 4474:1987: Internal drainage – Design standard
4)
TCVN 4513:1988: Internal water supply – Design standard
Assembled reinforced concrete pipes
Comment [A7]: please add the
International codes & standards
standards on "soil improvement" ;
1)
ACI 301-10: Specifications for Structural Concrete
2)
ACI 304R-00: Guide for Measuring, Mixing, Transportation, and
"geotechnical and topographical investigation"
Placing Concrete 3)
ACI 305R-10: Hot Weather Concreting
4)
ACI 311.4R-05: Guide for Concrete Inspection
5)
ACI-315-99: Details and Detailing of Concrete Reinforcement
6)
ACI 318-08: Building Code Requirements for Structural Concrete and Commentary
7)
ACI 347-04: Guide to formwork for concrete
8)
ACI 355.2-07: Qualification of Post-Installed Mechanical Anchors in Concrete & Commentary.
9)
ASCE 7-10: Minimum Design Loads for Buildings and Other Formatted: Font: (Asian) Japanese (Japan)
Structures 9)10)
ASTM C595M-11: Standard Specification for Blended Hydraulic Cements
Comment [A8]: Please add this
10)11) ASTM A36/A36M-08: Standard Specification for Carbon Structural Steel 11)12) ASTM A123/A123M-09: Standard Specification for Zinc(Hot-Dip Page 32 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
standard
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
FEED-OR-RPT-08-004-Rev. A
Galvanized) Coatings on Iron and Steel Products. 12)13) ASTM A153/A153M-09: Standard Specification or Zinc Coating(HotDip) on Iron and Steel Hardware 13)14) ASTM A185/A185M-07: Standard Specification for Steel Welded wire Reinforcement, Plain, for Concrete. 14)15) ASTM A 328/A328M-07: Standard Specification for Steel sheet piling 15)16) ASTM A 615/A615M-09b: Standard Specification for Deformed and Plain Carbon -Steel Bars for Concrete Reinforcement 16)17) ASTM
C
33/C33M-11a:
Standard
Specification
for
Concrete
Aggregates 17)18) ASTM C94/C94M-11b: Standard Specification for Ready-mixed concrete 18)19) ASTM C150/C150M-11: Standard Specification for Portland Cement 19)20) ANSI/AWS D 1.1/D1.M:2010: Structural welding Code-steel 20)21) ASTM A307-10: Standard Specification for Carbon Steel Bolts and Studs, 60,000 psi Tensile Strength 21)22) ASTM A325-10: Standard Specification for Structural Bolts, Steel, Heat Treated, 120/105 ksi Minimum Tensile Strength, 22)23) AISC 360-10 : Specification for structural Steel Buildings 23)24) UBC 97 : 1997 Uniform Building Code
Comment [A9]: JIS & AASHTO (road & pavement) can be used.
5.17
Environ mental protect ion design 1)
QCVN 19: 2009/BTNMT: National Technical Regulation on Industrial Emission of Inorganic Substances and Dusts
2)
QCVN 20: 2009/BTNMT: National Technical Regulation on Industrial Emission of Organic Substances
3)
QCVN 24: 2009/BTNMT: National Technical Regulation on Industrial Wastewater
4)
QCVN 07: 2009/BTNMT: National Technical Regulation on Hazardous Waste Thresholds
Page 33 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
5.18
HVAC
5.18.1
Local codes & standards
FEED-OR-RPT-08-004-Rev. A
No applicable codes and standards 5.18.2
International codes & standards 1)
ASHREA STD 62: Ventilation for Acceptable Indoor Air Quality
2)
ASHRAE handbook
HVAC Applications
3)
ASHRAE handbook
Systems and Equipment
4)
ASHRAE handbook
Fundamentals
5)
ASHRAE handbook
Refrigeration
5.19
Marine
5.19.1
Local codes & standards 1)
TCCS 04-2010/CHHVN: Design standard for marine technology – Basic standard
2)
22TCN 222-95: Impact Loading on Waterway works by wave and vessel
3)
22TCN 207-92: Marine Port – Design Standard
4)
TCVN 2737:1995: Loads and Effects – Design Standard
5)
TCVN 205: 1998: Pile Foundation – Specifications for Design
6)
QCVN 02:2009/BXD: National technical regulations of natural conditions data for construction
7)
TCXDVN 375:2006: Design of structures for earthquake resistance
8)
TCXDVN 327:2004: Concrete and reinforced concrete structures – Requirements of protection from corrosion in marine environment
9)
TCVN 4116:1985: Concrete and reinforced concrete structures of hydraulic engineering construction – Design Standard
10)
TCVN 4447:1987: Earth works – Regulations of construction and acceptance
11)
Regulation of construction and acceptance of filling and dredging works promulgating in acc ordance with the decree No. 924/QĐKT dated on 21/4/1975 by MOT.
12)
Code of Port and harbour operation - Decree No.109/QĐ-CHHVN dated on 10/03/2005 by Vinamarine.
13)
Regulation of maritime design works with degree No. 115-Q Đ/KT4 dated on 12/01/1976 by MOT.
14)
22 TCN 289-02 - Technical
procedures for construction and
Page 34 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan
Front End Engineering Design & Cost Estimation For PVGAS Fast Track LNG Terminal Project
FEED-OR-RPT-08-004-Rev. A
acceptance for Maritime works
5.19.2
International Codes and Standards 1)
ACI 318: Building Code Requirements for Structural Concrete
2)
ACI 224R-01: Control of Cracking in Concrete Structures
3)
AISC-ASD: Manual of Steel Construction, Allowable Stress Design
4)
AISC 341: Seismic provisions for Structural Steel Buildings
5)
AISC 360: Specification for Structural Steel Buildings
6)
ANSI: Standards of American National Standards Institute
7)
AWS D1.1: Structural Welding Code Steel
8)
ASCE 7-08: Minimum Design Loads for Building and Other Structures
9)
ASTM A572: Standard Specification for High-Strength Low-Alloy Columbium-Vanadium Structural Steel
10)
AASHTO: Standard Specifications for Highway Bridges, 17th Edition
11)
AASHTO T147: Standard Specification for Materials for Aggregate and Soil-Aggregate Subbase, Base and Surface Courses
12)
API RP 2A: Recommended Practice 2A-WSD, Recommended Practice for Planning, Designing and Construction Fixed Offshore Platforms-Working Stress Design
13)
BS 5328-PT 1:
14)
BS 5400-PT 4: Steel, concrete and the composite bridge
15)
BS 6349-PT 1:
Maritime Structures: General Criteria
16)
BS 6349-PT 2: and Dolphins
Maritime Structures: Design of Quay Walls, Jetties
17)
BS 6349-PT 4: Maritime Structures: Codes of Practice for Design of Fendering and Mooring Systems
18)
BS 6349-PT 7: Maritime Structures: Guide to the Design and Construction of Breakwaters
19)
BS 8002: Code of Practice for Earth Retaining Structures
20)
BS 8004: Code of Practice for Foundations
21)
BS 8110-PT 2: Structural use of concrete. Code of practice for special Circumstances
22)
BS EN 12473: General Principles Cathodic Protection Sea Water
23)
BS EN 12944: Paints and varnishes-Corrosion protection of steel structures by protective paint systems- Protective paint systems
24)
BS EN 13174: Cathodic protection for harbour installations
25)
SIGTTO: Publications of Society of International Gas Tanker and Terminal Operators
Guide to Specifying concrete
Page 35 of 36 Tokyo Gas Engineering Co., Ltd. Tokyo, Japan