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GB/T 28816-2020 English PDF (GBT28816-2020)
GB/T 28816-2020 English PDF (GBT28816-2020)
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GB/T 28816-2020: Fuel cell--Terminology
GB/T 28816-2020
Fuel cell--Terminology
ICS 27.070
K82
National Standards of People's Republic of China
Replace GB/T 28816-2012
Fuel cell terminology
(IEC /T S62282-1.2013, Fuelceltechnologies-Part 1.Terminology, IDT)
2020-06-02 released
2020-12-01 implementation
State Administration for Market Regulation
Issued by the National Standardization Management Committee
Table of contents
Foreword Ⅰ
1 Scope 1
2 Block diagram of fuel cell power generation system 1
3 Terms and definitions 4
Index 24
Preface
This standard was drafted in accordance with the rules given in GB/T 1.1-2009.
This standard replaces GB/T 28816-2012 "Fuel Cell Terminology". Compared with GB/T 28816-2012, the main technology
The changes are as follows.
---Modified some terms and definitions (see 3.1, 3.24, 3.33.1, 3.69.2, 3.85.1, 3.90, 3.104, 3.108.1, 3.108.4,
3.112.4, 3.115.5);
---Added some terms and definitions (see 3.20, 3.43.1, 3.58, 3.86.2, 3.110.4);
--- Deleted the terms and definitions of "heat production rate" and "standby state" (see 3.6.1 and 3.110.4 in the.2012 edition).
The translation method used in this standard is equivalent to IEC /T S62282-1.2013 "Fuel Cell Technology Part 1.Terminology".
This standard has made the following editorial changes.
--- Modify the standard name to "fuel cell terminology";
---Move the acronyms to the English equivalent of the corresponding term;
---Modified the names of some terms (see 3.85, 3.106).
This standard was proposed by China Electrical Equipment Industry Association.
This standard is under the jurisdiction of the National Fuel Cell and Flow Battery Standardization Technical Committee (SAC/TC342).
Drafting organizations of this standard. Beijing Institute of Electrical Technology and Economics of Machinery Industry, Xinyan Hydrogen Energy Technology Co., Ltd., Shenzhen Standard Technology
Research Institute, Beijing Power Technology Co., Ltd., Shanghai Shenli Technology Co., Ltd., Tsinghua University, Wuhan University of Technology, Chinese Academy of Sciences
Dalian Institute of Chemical Physics, Xinyuan Power Co., Ltd., Shanghai Panye Hydrogen Energy Technology Co., Ltd., Aerospace New Long March Electric Vehicle Technology
Technology Co., Ltd., Guangdong Hezhide Energy Technology Co., Ltd., Shanghai Jie Hydrogen Technology Co., Ltd., Wuxi Product Quality Supervision and Inspection Institute, Shanghai
Municipal Institute of Quality Supervision and Inspection Technology, Beijing Yihuatong Technology Co., Ltd., Shanghai Hengjin Power Technology Co., Ltd., Shanghai Bo Xuanneng
Source Technology Co., Ltd., Zhejiang Gaocheng Green Energy Technology Co., Ltd.
The main drafters of this standard. Qi Zhigang, Zhang Liang, Wang Yiqun, Lu Chenyu, Diao Lipeng, Zhou Bin, Pei Pucheng, Pan Mu, Yu Hongmei, Hou Ming, Xing Danmin,
Dong Hui, Jin Yinshi, Huang Ping, Chen Pei, Chen Yao, Li Songli, Liu Ran, Hu Lei, Tian Binglun, Hou Xiangli.
The previous versions of the standard replaced by this standard are as follows.
---GB/T 28816-2012.
Fuel cell terminology
1 Scope
This standard defines unified fuel cell terminology in the form of diagrams, definitions and equations.
This standard applies to all fuel cell technology-related applications such as stationary, transportation, portable and micro power generation.
Words or phrases not listed in this standard can be found in standard dictionaries, engineering reference materials or IEC 60050 series standards.
Note. The first edition of IEC 62282 is intended to provide a resource for working groups and users who use the IEC 62282 fuel cell standard. This is the third edition, already
Same as the second edition, extended to the source of general fuel cell terms.
2 Block diagram of fuel cell power generation system
2.1 Block diagram
Figure 1 Stationary fuel cell power generation system (3.49.3)
Figure 2 Portable fuel cell power generation system (3.49.2)
Figure 3 Micro fuel cell power generation system (3.49.1)
Figure 4 Fuel cell vehicle (3.51)
2.2 Definition of block diagram function
The overall design of the power generation system that can be expected in this standard is composed of the necessary combination of the following systems that can achieve the specified functions.
---Automatic control system. a system composed of sensors, brakes, valves, switches and logic elements to make the fuel cell power generation system
When the system (3.49) does not require manual intervention, the parameters can be kept within the limits set by the manufacturer.
---Fuel cell module. a device that is integrated in a vehicle or power generation system and is composed of one or more fuel cell stacks (3.50).
Through electrochemical reaction, chemical energy is converted into electrical energy and heat energy.
---Fuel cell stack. a device composed of single cells, isolation plates, cooling plates, manifolds (3.70) and supporting structures, through electrochemical reactions
Convert (usually) hydrogen-rich gas and air reactants into direct current, heat, and other reaction products.
---Fuel processing system. required by the fuel cell power generation system (3.49), prepared fuel and pressurized if necessary, by chemical and/
Or a system composed of physical processing equipment and related heat exchangers and controllers.
---Built-in energy storage device. a system composed of electrical energy storage devices placed inside the system to help or supplement fuel electricity
The pool module (3.48) supplies power to internal or external loads.
---Oxidant treatment system. used to measure, regulate, process and possibly pressurize the input oxidant for fuel cell power generation
The system used by the system (3.49).
---Power regulation system. used to regulate the power output of the fuel cell stack (3.50) to meet the application requirements specified by the manufacturer
equipment.
---Thermal management system. a system used for heating or cooling/discharging heat to keep the fuel cell power generation system (3.49) at its operating temperature
Within the scope, it may also provide the reuse of excess heat and help heat the energy chain during the start-up phase.
---Ventilation system. A system that provides air to the fuel cell power generation system (3.49) casing through mechanical or natural means.
---Water treatment system. A system for necessary treatment of recycled water or supplemental water used in the fuel cell power generation system (3.49).
For micro fuel cell power generation system.
---Fuel container. a removable storage fuel that cannot be refilled by the user and sent to the micro fuel cell power generation device (3.74) or
The internal storage provides fuel. Possible types include.
● Attached type. It has a casing and is connected to the equipment powered by the micro fuel cell power generation system (3.49.1).
● External type. It has a shell, and the shell constitutes the exterior of the equipment powered by the micro fuel cell power generation system (3.49.1)
Part of the shell.
● Plug-in type. It has its own shell and is installed in the shell of the equipment powered by the micro fuel cell power generation system (3.49.1).
● Satellite type. connect to the micro fuel cell power generation device (3.74) and send it to the internal memory of the micro fuel cell power unit
The fuel is then removed.
---Micro fuel cell power unit. the micro fuel cell power generation system (3.49.1) after removing the fuel container.
Other terms used in the figure include.
--- Discharged water. water discharged from the fuel cell power generation system (3.49), including waste water and condensate.
Get QUOTATION in 1-minute: Click GB/T 28816-2020
Historical versions: GB/T 28816-2020
Preview True-PDF (Reload/Scroll if blank)
GB/T 28816-2020: Fuel cell--Terminology
GB/T 28816-2020
Fuel cell--Terminology
ICS 27.070
K82
National Standards of People's Republic of China
Replace GB/T 28816-2012
Fuel cell terminology
(IEC /T S62282-1.2013, Fuelceltechnologies-Part 1.Terminology, IDT)
2020-06-02 released
2020-12-01 implementation
State Administration for Market Regulation
Issued by the National Standardization Management Committee
Table of contents
Foreword Ⅰ
1 Scope 1
2 Block diagram of fuel cell power generation system 1
3 Terms and definitions 4
Index 24
Preface
This standard was drafted in accordance with the rules given in GB/T 1.1-2009.
This standard replaces GB/T 28816-2012 "Fuel Cell Terminology". Compared with GB/T 28816-2012, the main technology
The changes are as follows.
---Modified some terms and definitions (see 3.1, 3.24, 3.33.1, 3.69.2, 3.85.1, 3.90, 3.104, 3.108.1, 3.108.4,
3.112.4, 3.115.5);
---Added some terms and definitions (see 3.20, 3.43.1, 3.58, 3.86.2, 3.110.4);
--- Deleted the terms and definitions of "heat production rate" and "standby state" (see 3.6.1 and 3.110.4 in the.2012 edition).
The translation method used in this standard is equivalent to IEC /T S62282-1.2013 "Fuel Cell Technology Part 1.Terminology".
This standard has made the following editorial changes.
--- Modify the standard name to "fuel cell terminology";
---Move the acronyms to the English equivalent of the corresponding term;
---Modified the names of some terms (see 3.85, 3.106).
This standard was proposed by China Electrical Equipment Industry Association.
This standard is under the jurisdiction of the National Fuel Cell and Flow Battery Standardization Technical Committee (SAC/TC342).
Drafting organizations of this standard. Beijing Institute of Electrical Technology and Economics of Machinery Industry, Xinyan Hydrogen Energy Technology Co., Ltd., Shenzhen Standard Technology
Research Institute, Beijing Power Technology Co., Ltd., Shanghai Shenli Technology Co., Ltd., Tsinghua University, Wuhan University of Technology, Chinese Academy of Sciences
Dalian Institute of Chemical Physics, Xinyuan Power Co., Ltd., Shanghai Panye Hydrogen Energy Technology Co., Ltd., Aerospace New Long March Electric Vehicle Technology
Technology Co., Ltd., Guangdong Hezhide Energy Technology Co., Ltd., Shanghai Jie Hydrogen Technology Co., Ltd., Wuxi Product Quality Supervision and Inspection Institute, Shanghai
Municipal Institute of Quality Supervision and Inspection Technology, Beijing Yihuatong Technology Co., Ltd., Shanghai Hengjin Power Technology Co., Ltd., Shanghai Bo Xuanneng
Source Technology Co., Ltd., Zhejiang Gaocheng Green Energy Technology Co., Ltd.
The main drafters of this standard. Qi Zhigang, Zhang Liang, Wang Yiqun, Lu Chenyu, Diao Lipeng, Zhou Bin, Pei Pucheng, Pan Mu, Yu Hongmei, Hou Ming, Xing Danmin,
Dong Hui, Jin Yinshi, Huang Ping, Chen Pei, Chen Yao, Li Songli, Liu Ran, Hu Lei, Tian Binglun, Hou Xiangli.
The previous versions of the standard replaced by this standard are as follows.
---GB/T 28816-2012.
Fuel cell terminology
1 Scope
This standard defines unified fuel cell terminology in the form of diagrams, definitions and equations.
This standard applies to all fuel cell technology-related applications such as stationary, transportation, portable and micro power generation.
Words or phrases not listed in this standard can be found in standard dictionaries, engineering reference materials or IEC 60050 series standards.
Note. The first edition of IEC 62282 is intended to provide a resource for working groups and users who use the IEC 62282 fuel cell standard. This is the third edition, already
Same as the second edition, extended to the source of general fuel cell terms.
2 Block diagram of fuel cell power generation system
2.1 Block diagram
Figure 1 Stationary fuel cell power generation system (3.49.3)
Figure 2 Portable fuel cell power generation system (3.49.2)
Figure 3 Micro fuel cell power generation system (3.49.1)
Figure 4 Fuel cell vehicle (3.51)
2.2 Definition of block diagram function
The overall design of the power generation system that can be expected in this standard is composed of the necessary combination of the following systems that can achieve the specified functions.
---Automatic control system. a system composed of sensors, brakes, valves, switches and logic elements to make the fuel cell power generation system
When the system (3.49) does not require manual intervention, the parameters can be kept within the limits set by the manufacturer.
---Fuel cell module. a device that is integrated in a vehicle or power generation system and is composed of one or more fuel cell stacks (3.50).
Through electrochemical reaction, chemical energy is converted into electrical energy and heat energy.
---Fuel cell stack. a device composed of single cells, isolation plates, cooling plates, manifolds (3.70) and supporting structures, through electrochemical reactions
Convert (usually) hydrogen-rich gas and air reactants into direct current, heat, and other reaction products.
---Fuel processing system. required by the fuel cell power generation system (3.49), prepared fuel and pressurized if necessary, by chemical and/
Or a system composed of physical processing equipment and related heat exchangers and controllers.
---Built-in energy storage device. a system composed of electrical energy storage devices placed inside the system to help or supplement fuel electricity
The pool module (3.48) supplies power to internal or external loads.
---Oxidant treatment system. used to measure, regulate, process and possibly pressurize the input oxidant for fuel cell power generation
The system used by the system (3.49).
---Power regulation system. used to regulate the power output of the fuel cell stack (3.50) to meet the application requirements specified by the manufacturer
equipment.
---Thermal management system. a system used for heating or cooling/discharging heat to keep the fuel cell power generation system (3.49) at its operating temperature
Within the scope, it may also provide the reuse of excess heat and help heat the energy chain during the start-up phase.
---Ventilation system. A system that provides air to the fuel cell power generation system (3.49) casing through mechanical or natural means.
---Water treatment system. A system for necessary treatment of recycled water or supplemental water used in the fuel cell power generation system (3.49).
For micro fuel cell power generation system.
---Fuel container. a removable storage fuel that cannot be refilled by the user and sent to the micro fuel cell power generation device (3.74) or
The internal storage provides fuel. Possible types include.
● Attached type. It has a casing and is connected to the equipment powered by the micro fuel cell power generation system (3.49.1).
● External type. It has a shell, and the shell constitutes the exterior of the equipment powered by the micro fuel cell power generation system (3.49.1)
Part of the shell.
● Plug-in type. It has its own shell and is installed in the shell of the equipment powered by the micro fuel cell power generation system (3.49.1).
● Satellite type. connect to the micro fuel cell power generation device (3.74) and send it to the internal memory of the micro fuel cell power unit
The fuel is then removed.
---Micro fuel cell power unit. the micro fuel cell power generation system (3.49.1) after removing the fuel container.
Other terms used in the figure include.
--- Discharged water. water discharged from the fuel cell power generation system (3.49), including waste water and condensate.
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