锂离子电池储能舱风冷散热数值模拟与优化
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TM912

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国家自然科学基金资助项目(52177223)


Numerical simulation and optimization of air cooling heat dissipation of lithium-ion battery storage cabin
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    摘要:

    锂离子电池在运行时存在热失控风险,极端情况下甚至引起电池舱起火或爆炸等安全事故。有效的电池舱风冷散热系统可以有效抑制电池热量的积累和扩散,然而现有的电池舱风冷系统结构简单,散热效率低。文中提出在电池舱安装导流板改变舱内温度场和流场,达到优化散热系统的目的。结果表明,在环境温度25 ℃、风速4 m/s的条件下,对1 C充电的电池舱进行风冷散热,增设单导流板可使电池舱内的平均温度降低2.9 ℃,最高温度降低4.5 ℃;增设双导流板可以使电池舱内的平均温度降低5.5 ℃,最高温度降低8.6 ℃。合理的导流板布置可以优化电池舱的风冷散热系统,提高散热效率,增加电池舱运行的安全性。

    Abstract:

    For the purpose of investigating the air-cooling heat dissipation system of lithium-ion battery cabin,based on the simulation model of the actual battery cabin,the optimization scheme of air-cooling heat dissipation is designed. Due to the thermal characteristics of lithium-ion batteries,safety accidents like fire and explosion happen under extreme conditions. Effective thermal management can inhibit the accumulation and spread of battery heat. However,the existing battery cabin air cooling system is relatively simple and the heat dissipation efficiency is low. In order to optimize the heat dissipation system,deflectors are installed in the battery cabin to change the temperature field and flow field in the cabin. When the environment temperature is 25 ℃ and the wind speed is 4 m/s,the air-cooling heat dissipation system of 1 C charging battery cabin is conducted. The results show that by adding one deflector can reduce the average and the maximum temperature in the battery cabin by 2.9 ℃ and 4.5 ℃ respectively. Adding two deflectors can reduce the average and the maximum temperature in the battery cabin by 5.5 ℃ and 8.6 ℃ respectively. Reasonable deflector arrangement can optimize the air-cooling heat dissipation system,improving the heat dissipation efficiency and the safety of battery cabin operation.

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杜生鑫,金阳.锂离子电池储能舱风冷散热数值模拟与优化[J].电力工程技术,2022,41(6):58-64

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  • 收稿日期:2022-06-07
  • 最后修改日期:2022-08-22
  • 录用日期:2022-03-07
  • 在线发布日期: 2022-11-24
  • 出版日期: 2022-11-28
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