PDF GB/T 34584-2017 English
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Safety Technical Regulations for Hydrogen Refueling Station
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GB/T 34584-2017: PDF in English (GBT 34584-2017) GB/T 34584-2017
GB
NATIONAL STANDARD OF THE
PEOPLE’S REPUBLIC OF CHINA
ICS 27.180
F 19
Safety Technical Regulations
for Hydrogen Refueling Station
ISSUED ON. OCTOBER 14, 2007
IMPLEMENTED ON. MAY 1, 2018
Issued by. General Administration of Quality Supervision, Inspection and
Quarantine of the People's Republic of China;
Standardization Administration of the People's Republic of
China.
3. No action is required - Full-copy of this standard will be automatically &
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Table of Contents
Foreword ... 3
1 Application Scope ... 4
2 Normative References ... 4
3 Terms and Definitions ... 5
4 Basic Requirements ... 6
5 Site Selection ... 7
6 Layout ... 7
7 Hydrogen Transmission ... 8
8 Liquid Hydrogen ... 8
9 Hydrogen Production within Hydrogen Refueling Stations ... 9
10 Hydrogen Storage Systems... 10
11 Hydrogen Dispensers ... 11
12 Hydrogen Compressors ... 11
13 Safety and Fire Protection ... 12
Bibliography ... 16
Foreword
This Standard was drafted in accordance with the rules given in GB/T 1.1-2009.
This Standard was proposed and shall be under the jurisdiction of National Technical
Committee 309 on Hydrogen Energy of Standardization Administration of China.
The main drafting organizations of this Standard. Tongji University, Shanghai Sunwise
New Energy Systems Co., Ltd., China Electronics Engineering Design Institute, China
National Institute of Standardization, Zhejiang University, Tsinghua University,
Shanghai Gas Engineering Design & Research Co., Ltd., SAIC Motor Corporation
Limited, Sichuan Tianyi Science & Technology Co., Ltd., Sichuan Ally Hi-Tech Co., Ltd.,
The 718th Research Institute of CSIC, Suzhou Jingli Hydrogen Production Equipment
Co., Ltd., Tianjin Mainland Hydrogen Equipment Co., Ltd., Hydrosys Industries Co.,
Ltd., Beijing SinoHytec Co., Ltd., Potevio New Energy Co., Ltd.
The main drafters of this Standard. Pan Xiangmin, Zhang Cunman, Gao Dingyun, Zou
Chang, An Zhixing, Wang Geng, Xu Ping, Ma Fanhua, Sun Yongkang, Shen Ling, Gao
Yuchuan, Wang Yeqin, Xue Helai, Zhang Xiangchun, Xu Wei, Han Wulin, Zhang He,
Yang Lifeng.
Safety Technical Regulations
for Hydrogen Refueling Station
1 Application Scope
This Standard specifies the safety technical regulations for hydrogen transmission,
hydrogen production in station, hydrogen storage, compression, refueling and safety
and fire protection and other aspects of hydrogen refueling stations for vehicles.
This Standard applies to the hydrogen refueling stations using all kinds of hydrogen
supply methods, as well as two-station-combined or multiple-station-combined
hydrogen refueling stations, such as hydrogen-oil refueling stations, hydrogen-gas
refueling stations and hydrogen refueling-charging stations.
2 Normative References
The following referenced documents are indispensable for the application of this
document. For dated references, only the edition dated applies to this document. For
undated references, the latest edition of the referenced documents (including all
amendments) applies to This Standard.
GB 4962, Technical Safety Regulation for Gaseous Hydrogen Use
GB 12358, Gas Monitor and Alarms for Workplace – General Technical
Requirements
GB 16808, Combustible Gas Alarm Control Units
GB/T 18442.1, Static Vacuum Insulated Cryogenic Pressure Vessel – Part 1.
General Requirements
GB/T 18442.2, Static Vacuum Insulated Cryogenic Pressure Vessel – Part 2.
Material
GB/T 18442.3, Static Vacuum Insulated Cryogenic Pressure Vessel – Part 3.
Design
GB/T 18442.4, Static Vacuum Insulated Cryogenic Pressure Vessel – Part 4.
Fabrication
GB/T 18442.5, Static Vacuum Insulated Cryogenic Pressure Vessel – Part 5.
Inspection and Test
GB/T 18442.6, Static Vacuum Insulated Cryogenic Pressure Vessel – Part 6. Safety
Device Requirements
GB/T 19773, Specification of Hydrogen Purification System on Pressure Swing
Adsorption
GB/T 19774, Specification of Water Electrolyte System for Producing Hydrogen
GB/T 24499, Technology Glossary for Gaseous Hydrogen, Hydrogen Energy and
Hydrogen Energy System
GB/T 29729, Essential Requirements for the Safety of Hydrogen Systems
GB/T 29781, General Requirements for Electric Vehicle Charging Station
GB/T 31138, Compressed Hydrogen Dispenser for Vehicles
GB 50016, Code for Fire Protection Design of Buildings
GB 50058, Code for Design of Electrical Installations in Explosive Atmospheres
GB 50116, Code for Design of Automatic Fire Alarm System
GB 50156, Code for Design and Construction of Filling Station
GB 50177, Design Code for Hydrogen Station
GB 50516, Technical Code for Hydrogen Fuelling Station
GB 50966, Code for Design of Electric Vehicle Charging Station
TSG 21, Supervision Regulation on Safety Technology for Stationary Pressure
Vessel
3 Terms and Definitions
For the purposes of this Standard, the following terms and definitions and those
defined in GB/T 24499 and GB/T 50516 apply.
3.1
hydrogen refueling station
A stationary special site which is used to fill hydrogen fuel for vehicle gas storage
cylinders of hydrogen energy vehicles, including hydrogen cell vehicles or hydrogen
internal combustion engine vehicles or hydrogen mixed fuel vehicles and so on.
3.2
combined hydrogen refueling station
4.7 When the hydrogen refueling stations are combined with charging stations, the
design of charging process facilities shall be as specified in GB 50966 and GB/T 29781.
5 Site Selection
5.1 The hydrogen refueling stations and all kinds of combined stations shall conform
to the town planning, which shall be located in places with convenient transportation;
they shall not be located in places where there is much dust or corrosive gases or
places which are low lying and possibly accumulate water.
5.2 A buffer distance or buffer area may preferably be provided between the
hydrogen refueling stations combined with charging stations and municipal roads
outside the stations for the convenience of access and waiting of electric vehicles.
5.3 The fire-protection distance between the process facilities of the hydrogen
stations, hydrogen-gas combined refueling stations and hydrogen-oil combined
refueling stations, and the buildings and structures outside the stations, shall be as
specified in GB 51516.
5.4 The fire-protection distance between the hydrogen process facilities of the
combined hydrogen stations combined with charging stations, and the buildings and
structures outside the stations, shall be as specified in GB 51516.
5.5 The fire-protection distance between the charging process facilities of the
combined hydrogen stations combined with charging stations, and the buildings and
structures outside the stations, shall be as specified in GB 50016 and GB 50966.
6 Layout
6.1 The fire-protection distance between the facilities within the hydrogen refueling
stations, hydrogen-gas combined refueling stations and hydrogen-oil combined
refueling stations shall be as specified in GB 50516 and GB 50156.
6.2 The installation locations of the charging process facilities of the combined
hydrogen refueling stations combined with charging stations shall be more than 3 m
from the boundary lines of the explosion hazard areas; and the classification of
explosion hazard areas shall be as specified in GB 50516.
6.3 Cross arrangement of the process facilities of different media for hydrogen
refueling, gas refueling, oil refueling, charging etc. within the hydrogen refueling
stations and all kinds of combined hydrogen refueling stations is not advisable.
9.1.3 The direct current supply circuits of the water electrolysis hydrogen production
equipment shall be made of copper conductors, which shall be laid in low places or
trenches; and when bare bus bars must be used, measures shall be taken to prevent
spark discharge.
9.1.4 Before starting the water electrolysis hydrogen production equipment, check all
protective and safety facilities to ensure they are in sound conditions, such as pressure
regulating devices, blow-down purging and analytical facilities, safety valves and all
kinds of indication and regulating instruments. Before starting the systems, check and
ensure the oxygen content in nitrogen entrained into the systems by purging
replacement is less than 0.5%.
9.2 Hydrogen production by reforming natural gas and methyl alcohol
9.2.1 The design, manufacture and installation of the hydrogen production equipment
by reforming natural gas and m...
......
Source: Above contents are excerpted from the PDF -- translated/reviewed by: www.chinesestandard.net / Wayne Zheng et al.
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