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锂离子储能电池热失控检测实验平台设计研究 被引量:2

Research on thermal runaway test platform design for energy-storage lithium-ion batteries
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摘要 介绍了锂离子储能电池热失控研究的目的和意义,探讨了储能电池与动力电池在热失控检测实验研究关注上的异同,从理论分析和实验研究两方面归纳了影响储能电池热失控的促发条件及对应的关键阈值。在此基础上,完成了模拟热失控促发条件和满足阈值要求的检测实验平台设计及功能验证,并对此平台的应用前景进行了展望。 Firstly, we introduced the purpose and meaning of thermal runaway research on energy-storage lithium-ion batteries (ESLIB) in this paper. After discussing the variations on thermal runaway test (TRT) research for power and energy-storage lithium-ion batteries, this paper concludes the triggering conditions and relevant thresholds of TRT for ESLIB from both theory and experiments. Hence, this work presents a design program on a TRT platform which could analyze ESLIB with relevant threshold under simulated triggering conditions and verified the function. At last, this paper gives out the conclusions and looks forward to the future on TRT platform applications.
作者 刘曙光 金翼 刘家亮 傅凯 刘皓 官亦标
机构地区 中国电力科学研究院
出处 《储能科学与技术》 CAS 2014年第5期471-479,共9页 Energy Storage Science and Technology
基金 国家电网公司基础前瞻性项目(DG71-13-010)
关键词 锂离子电池 储能 热失控 平台 lithium-ionbattery: energy storage thermal runaway platform
分类号 TM911 [电气工程—电力电子与电力传动]
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参考文献8

  • 1Guifang Guo,Bo Long,Bo Cheng,Shiqiong Zhou,Peng Xu,Binggang Cao.Three-dimensional thermal finite element modeling of lithium-ion battery in thermal abuse application[J].Journal of Power Sources.2009(8)
  • 2Yoon SeokJung,Andrew S.Cavanagh,Leah A.Riley,Sun‐HoKang,Anne C.Dillon,Markus D.Groner,Steven M.George,Se‐HeeLee.Ultrathin Direct Atomic Layer Deposition on Composite Electrodes for Highly Durable and Safe Li‐Ion Batteries[J].Adv Mater.2010(19)
  • 3王宁,余大波.锂电池的爆炸问题[J].中国西部科技,2005,4(10A):57-58. 被引量:1
  • 4Qingsong Wang,Ping Ping,Xuejuan Zhao,Guanquan Chu,Jinhua Sun,Chunhua Chen.Thermal runaway caused fire and explosion of lithium ion battery[J].Journal of Power Sources.2012
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同被引文献11

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储能科学与技术
2014年 第5期

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