GB/T 41986-2022 English PDF

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GB/T 41986-2022: Vanadium flow battery - Design guideline
Status: Valid

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Basic data

Standard ID: GB/T 41986-2022 (GB/T41986-2022)
Description (Translated English): Vanadium flow battery - Design guideline
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: K84
Classification of International Standard: 29.220.20
Word Count Estimation: 10,114
Date of Issue: 2022-10-14
Date of Implementation: 2023-05-01
Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration

GB/T 41986-2022: Vanadium flow battery - Design guideline

---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Vanadium flow battery -- Design guideline ICS 29.220.20 CCSK84 National Standards of People's Republic of China Design guidelines for all-vanadium redox flow batteries Published on 2022-10-12 2023-05-01 Implementation State Administration for Market Regulation Released by the National Standardization Administration directory Preface I 1 Scope 1 2 Normative references 1 3 Terms and Definitions 1 4 General Design Requirements 2 5 Battery Module Design 2 6 Battery Cell Design 4 7 Electrical Design Requirements 4 8 Battery system layout 5 9 Ventilation and air conditioning 5 Reference 6

foreword

This document is in accordance with the provisions of GB/T 1.1-2020 "Guidelines for Standardization Work Part 1.Structure and Drafting Rules of Standardization Documents" drafted. Please note that some content of this document may be patented. The issuing agency of this document assumes no responsibility for identifying patents. This document is proposed by China Electrical Equipment Industry Association. This document is under the jurisdiction of the National Standardization Technical Committee for Fuel Cells and Flow Batteries (SAC/TC342). This document is drafted by. Dalian Rongke Energy Storage Technology Development Co., Ltd., Shanghai Electric Power Design Institute Co., Ltd., Beijing Electrician of Machinery Industry Institute of Technology and Economics, Tsinghua University, Dalian Institute of Chemical Physics, Chinese Academy of Sciences, Beijing Institute of Low-Carbon and Clean Energy, Shanghai Electric (An Hui) Energy Storage Technology Co., Ltd., Beijing Herui Energy Storage Technology Co., Ltd., Leshan Welead Energy Co., Ltd., Sichuan Xingming Energy Environmental Protection Technology Co., Ltd., Institute of Metal Research, Chinese Academy of Sciences, Beijing Pu Neng Century Technology Co., Ltd., Dalian University of Technology, Anhui Leoch Power Technology Co., Ltd. Company, Dalian Borong New Materials Co., Ltd., Suzhou Kerun New Materials Co., Ltd., Hunan Yinfeng New Energy Co., Ltd., State Grid Power Scientific Research Institute Wuhan Nanrui Co., Ltd., State Grid Jibei Electric Power Co., Ltd. Electric Power Research Institute, Jiangsu Hengan Energy Storage Technology Co., Ltd. company. The main drafters of this document. Wang Xiaoli, Wu Jingbo, Guo Yan, Chen Wensheng, Wang Baoguo, Zheng Qiong, Zhang Huamin, Li Xianfeng, Zhang Liang, Liu Qinghua, Liu Huichao, Yang Linlin, Wang Han, Zhang Zhongyu, Chen Jijun, Dong Jie, Song Mingming, Yang Dawei, Zhang Jie, Wu Xuewen, Yan Chuanwei, Li Aikui, Fan Yongsheng, Liu Yanan, Chen Hao, Liu Hui, Liu Xin, Wu Xiongwei, Jiang Xiaosong, Pu Nianwen, Meng Lin, Zhao Haijun, Wang Shiyu, Wu Shangzhi, Wang Yuwei. Design guidelines for all-vanadium redox flow batteries

1 Scope

This document specifies general design requirements for all-vanadium redox flow batteries as well as battery module, battery cell, electrical, battery system layout, ventilation and The design requirements for air conditioning do not include the design of electrochemical energy storage power stations such as planning, civil engineering, construction, and converters. This document applies to all-vanadium flow battery systems for indoor or outdoor use. This document applies to all types of stationary vanadium redox flow batteries (box or non-box).

2 Normative references

The contents of the following documents constitute essential provisions of this document through normative references in the text. Among them, dated citations documents, only the version corresponding to that date applies to this document; for undated references, the latest edition (including all amendments) applies to this document. GB/T 4219.1-2008 Industrial Rigid Polyvinyl Chloride (PVC-U) Piping Systems Part 1.Pipes GB/T 4219.2-2015 Industrial Rigid Polyvinyl Chloride (PVC-U) Piping Systems Part 2.Pipe Fittings GB/T 18998.1-2022 Industrial chlorinated polyvinyl chloride (PVC-C) piping systems - Part 1.General GB/T 18998.2-2022 Industrial Chlorinated Polyvinyl Chloride (PVC-C) Piping Systems Part 2.Pipes GB/T 18998.3-2022 Industrial Chlorinated Polyvinyl Chloride (PVC-C) Piping Systems Part 3.Pipe Fittings GB/T 29840-2013 Terms for all-vanadium redox flow batteries GB/T 34866-2017 Safety requirements for all-vanadium redox flow batteries GB/T 50065 Grounding Design Specification for AC Electrical Installations GB 50168 Electrical Installation Engineering Cable Line Construction and Acceptance Standards GB 50169 Code for construction and acceptance of grounding devices for electrical installation installations GB/T 51048 Design specification for electrochemical energy storage power station NB/T 10092-2018 Technical requirements for rubber seals for all-vanadium redox flow batteries NB/T 42133-2017 Technical conditions of electrolyte for all-vanadium redox flow batteries NB/T 42134-2017 Technical conditions of all-vanadium redox flow battery management system

3 Terms and Definitions

The terms and definitions defined in GB/T 29840-2013 and the following terms and definitions apply to this document. 3.1 Unit battery system unitbatterysystem An independent assembly consisting of one or more battery modules connected by an electrical circuit. Note. The unit battery system realizes the charging and discharging function by connecting with a converter. 3.2 Leakage current shuntcurrent Located at different potential points, between single cells or between stacks with a common flow channel, the conductive connection formed by the electrolyte ions in the common flow channel ......

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