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Stationary proton exchange membrane fuel cell power system (separate) -- Tests methods for the performance
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GB/Z 21743-2008
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Basic data | Standard ID | GB/Z 21743-2008 (GB/Z21743-2008) | | Description (Translated English) | Stationary proton exchange membrane fuel cell power system (separate) -- Tests methods for the performance | | Sector / Industry | National Standard | | Classification of Chinese Standard | K82 | | Classification of International Standard | 27.070 | | Word Count Estimation | 45,473 | | Date of Issue | 2008-05-20 | | Date of Implementation | 2009-01-01 | | Quoted Standard | GB/T 3767; GB/T 2464; GB/T 7626; GB/T 19000; GB/T 17215 | | Regulation (derived from) | ?National Standard Approval Announcement 2008 No.8 (Total No.121) | | Issuing agency(ies) | Ministry of Health of the People's Republic of China | | Summary | This standard specifies test methods for impact stationary proton exchange membrane fuel cell power system operating performance and its impact on the environment arising. This guidance document does not involve technical aspects of electromagnetic compatibility requirements, the relevant question in this regard needs to be considered in the future. The technical guidance document applies to all types of stand-alone fixed proton exchange membrane fuel cell power generation system. | GBZ21743-2008: Stationary proton exchange membrane fuel cell power system (separate) -- Tests methods for the performance
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Stationary proton exchange membrane fuel cell power system (separate). Tests methods for the performance
ICS 27.070
K82
People's Republic of China national standardization of technical guidance documents
Fixed proton exchange membrane fuel cell power generation system
(Independent type) performance test method
2008-05-20 released
2009-01-01 implementation
General Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China
China National Standardization Administration released
Directory
Foreword Ⅲ
Introduction IV
1 Scope 1
2 Normative references 2
3 Terms, definitions and symbols 3
3.1 Terms and definitions 3
3.2 Symbol 3
4 standard conditions 6
4.1 standard temperature and pressure 6
4.2 calorific value calculation basis 6
5 performance test and test classification 6
5.1 performance test 6
5.2 test classification 6
6 test preparation 7
6.1 Overview 7
6.2 Uncertainty Analysis 8
7 test equipment, equipment and test methods 8
7.1 Overview 8
7.2 Instruments and Equipment 8
7.3 Measurement Methods 8
8 Test Method and Calculation of Results 13
8.1 Inspection Plan 13
8.2 Inspection duration and recording frequency 15
8.3 Results Calculation 15
Test Report 25
9.1 Title page 25
9.2 Contents List 26
9.3 Summary Report 26
9.4 Detailed Report 26
9.5 Complete Report 26
Appendix A (Normative) Guide to the Analysis of Uncertainty 27
Appendix B (Informative) Calculation of fuel heating value 35
Appendix C (informative) standard gas 38
Figure 1 proton exchange membrane fuel cell power system block diagram 1
Figure 2 Symbol Legend 5
Figure 3 fuel cell system operation process Figure 19
Figure 4 system power response curve slope 20
Figure 5 90% output power response curve slope 21
Table 1 Symbol 3
Table 2 test items and test classification 7
Table 3 Test Project Operating Conditions 13
Table 4 under test operating conditions allow the maximum amount of variation 14
Table 5 Vibration correction factor 25
Table A. A summary of measurement parameters and their nominal values
Table A. 2 Calculate the nominal value of the result 30
Table A. 3 different parameters of the basic error source 31
Table A. 6 System error (BR) and random error (2SR) 33 passed
Table A. 7 Results 34
Table B. 1 The calorific value of the ideal gas that burns natural gas components under different reference conditions 35
Table B. 2 Air Energy Calculation Worksheet 36
Table B. 3 Fuel Gas Energy Calculation Worksheet 37
Table C. 1 natural gas standard gas 38
Table C. 2 propane standard gas 39
Foreword
The guidance of technical documents is based on the development of proton exchange membrane fuel cells in China, with reference to foreign similar fuel cell technology and the country
International Electrotechnical Commission drafted IEC TC105/58/CDV and IEC 105/79/RVC draft drafted.
Appendix A of this guidance document is a normative appendix, while Appendix B and Appendix C are informative appendices.
This guidance document is proposed by China Electrical Equipment Industry Association.
This guidance document is subject to the National Fuel Cell Standardization Technical Committee (SAC/TC342).
This guidance document is drafted by Dalian Xinyuan Power Co., Ltd.
Participated in the drafting of the guidance of technical documents. Chinese Academy of Sciences, Dalian Institute of Physics, Beijing Institute of Electrical Engineering and Beijing Century Fu original burning
Material Battery Co., Ltd. and so on.
The main drafters of this guidance document. Yang Yihua, Wang Yuchen, Fang Xiaoyan, Hu Jun, Yang Qing Su, Qiu Lidong and so on.
Introduction
"Fixed Proton Exchange Membrane Fuel Cell Power Generation System (Independent Type) Performance Test Method" is the National "Tenth Five-Year" Important Science and Technology Project
Technical standards research project "new energy and renewable energy key technical standards --- proton exchange membrane fuel cell, solar hot water system,
Grid-connected photovoltaic power generation and wind turbine "to study the development, combined with China's" 863 "plan fuel cell electric vehicle major project proton to pay
For membrane fuel cell technology, one of the series of national standards. This section provides a fixed proton exchange membrane fuel cell power generation system (independent)
(Hereinafter referred to as power generation system) operational performance and its impact on the environment test methods.
Fuel cells are not only suitable for the construction of stationary power plants to provide community and household electricity sources, but more importantly,
To provide power for electric vehicles and micro-fuel cells for use in a variety of communications equipment, laptops and handheld computers. And fuel
Battery technology is from these aspects of research and development to industrial change, fuel cells in fixed power stations, transport and portable power supply, etc.
Aspects of commercialization are coming. Some technologies related to fuel cells will also be commercialized in the next 5 to 10 years. Some new technologies,
New materials and new components will also be rapidly developed on the basis of internationalization of the market. It is foreseeable that fuel cell technology will be sustained and rapid
development of.
During the "Ninth Five-Year Plan" and "Tenth Five-Year Plan" period, all the PEMFCs and their related technologies were listed as major projects in the country
Scientific and technological breakthroughs include "863" fuel cell vehicles major projects, and has achieved initial results. At present, China's PEMFC technology
To colleges and universities and research institutes for technical support to several major high-tech enterprises as a leader, has formed in Dalian, Shanghai, Beijing and Wuhan, etc.
The main research and development base. Some of them have obtained patented technology with independent intellectual property rights and are actively promoting China's fuel cell technology
Industrialization and commercialization.
Early development of standards for the promotion of this new technology with unlimited potential for development - the commercialization and commercialization of fuel cells is very heavy
need. International Electrotechnical Commission (IEC ) established IEC /T C105 to be responsible for fuel cell professional standards work in recent years, very frequent activities
Many, has released a number of international standards. China fuel cell technology in tackling the issue of tackling and tracking international standards at the same time, according to our country
The actual arrangements for the development of relevant key technical standards, designed to reflect the standard early intervention in the industrialization of scientific and technological achievements, with the international practice
Read Currently completed standard projects are.
1) Proton exchange membrane fuel cell terms (GB/T 20042.1-2005)
2) Proton exchange membrane fuel cell stack technology (GB/T 20042.2-2008)
3) Portable proton exchange membrane fuel cell power generation system (GB /Z21742-2008)
4) Fixed proton exchange membrane fuel cell power generation system (independent type) performance test method (GB /Z21743-2008)
Fixed proton exchange membrane fuel cell power generation system
(Independent type) performance test method
1 Scope
1.1 This Guidance Document specifies the operational performance of a fixed proton exchange membrane fuel cell power generation system (hereinafter referred to as power generation system)
Aspects and its impact on the environment test methods.
1.2 The test of the contents of the guidance of technical documents include.
Output power under specified operating conditions;
Power generation efficiency and heat utilization efficiency under specified operating conditions;
Environmental characteristics under specified operating conditions. eg, emissions, noise, etc .;
This technical document does not cover Electromagnetic Compatibility (EMC) requirements and issues to be considered in the future.
1.3 This guidance document is applicable to all types of stand-alone fixed proton exchange membrane fuel cell power generation systems.
1.4 Due to the different fuel types (such as pure hydrogen, hydrogen-rich gas, methanol solution, etc.) used by the power generation system, the purpose of use is different, and the input
Unlike the output fluid species and energy forms, they may have different subsystems. However, in order to evaluate the power generation system, it is needed
Define a conventional system and its boundaries (Figure 1).
Figure 1 proton exchange membrane fuel cell power system block diagram
1.5 To determine the test boundary of the power generation system, the following conditions should be considered.
All energy recovery systems should be included within the system boundary;
Calculate their calorific values (eg, pure hydrogen, methanol solution, etc.) based on the state of the fuel at the power system boundary.
1.6 This guideline does not consider the mechanical work or mechanical energy input or output. Mechanical subsystem required for fuel cell operation (eg
Fans, microturbines, air compressors) should be included in the test boundaries. There is no need for these mechanical subsystems within the test boundaries
Direct measurements, however, their effect on the operation of the power generation system should be included. If the mechanical work and mechanical energy beyond the test boundary, then
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