摘要
提出一种采用套管式结构的新型空气冷却电池热管理系统,空气在通道内交错逆向流动来降低电池组的温度和改善温度均匀性。采用三维传热模型,研究了冷却通道数量和入口气体流速对电池最高温度和最大温差的影响以及传热机理。结果表明,套管式冷却通道可以降低电池的最高温度,并改善温度均匀性。入口气体流速的增加,对降低电池最高温度有积极作用,但也会引起电池的局部温差增大。同时还发现气体流道数和入口流速均存在饱和值。当通道数大于4,流速大于2 m/s时,温度变化幅度均显著减小。
In this study,a novel air-cooling battery thermal management system was proposed.A sleeve type structure was used to reduce the temperature and improve the temperature uniformity of the battery by arranging the air flow in the staggered and countercurrent directions in the channel.A three-dimensional heat-transfer model was conducted to investigate the effects of the cooling channels amount and inlet gas flow rate on the maximum temperature and temperature difference of the battery.The heat transfer mechanism of the sleeve structure was also verified.The results indicate that optimizing the structure of cooling channel can efficiently lower the battery temperature and improve the uniformity of the temperature field.In addition,increasing the inlet gas flow rate has a positive effect on reducing the maximum temperature of the battery,but it might also cause the increase of local temperature difference.It is also found that the number of gas flow channels and the inlet velocity have saturation values.When the number of channels is greater than 4 and the velocity is greater than 2 m/s,the temperature change would be significantly decreased.
作者
林雄超
邵苛苛
盛喆
LIN Xiongchao;SHAO Keke;SHENG Zhe(School of Chemistry and Environmental Engineering,China University of Mining and Technology(Beijing),Beijing 100083,China)
出处
《电源技术》
CAS
北大核心
2021年第12期1554-1557,共4页
Chinese Journal of Power Sources
基金
国家自然科学基金(21978319)。
关键词
电池热管理
空气冷却
套管式
交错逆流
battery thermal management
air cooling
sleeve type structure
staggered and countercurrent
