机械设计与制造工程
機械設計與製造工程
궤계설계여제조공정
MACHINE DESIGN AND MANUFACTURING ENGINEERING
2015年
10期
24-28
,共5页
葛子敬%臧孟炎%叶鹏%谢金红
葛子敬%臧孟炎%葉鵬%謝金紅
갈자경%장맹염%협붕%사금홍
锂离子电池组%风冷%计算流体动力学%仿真%散热效果
鋰離子電池組%風冷%計算流體動力學%倣真%散熱效果
리리자전지조%풍랭%계산류체동역학%방진%산열효과
lithium-ion battery pack%air cooling%computational fluid dynamics%simulation%cooling perform-ance
在详细描述锂离子电池生热机理的基础上,建立了锂离子电池组风冷散热结构的三维仿真模型,应用计算流体动力学方法对电池组进行了仿真分析. 结果表明:采用稳态计算可以准确模拟电池组温升情况,且电池组在1C充放电倍率下,电池组最高温度和温差都处于正常工作范围内,风冷散热系统满足电池组散热要求;提高进风口的流速可以有效改善电池组的散热效果,但是当风速超过一定范围时,散热效果提升率较低;同时,环境温度的变化也会影响电池组风冷散热效果.
在詳細描述鋰離子電池生熱機理的基礎上,建立瞭鋰離子電池組風冷散熱結構的三維倣真模型,應用計算流體動力學方法對電池組進行瞭倣真分析. 結果錶明:採用穩態計算可以準確模擬電池組溫升情況,且電池組在1C充放電倍率下,電池組最高溫度和溫差都處于正常工作範圍內,風冷散熱繫統滿足電池組散熱要求;提高進風口的流速可以有效改善電池組的散熱效果,但是噹風速超過一定範圍時,散熱效果提升率較低;同時,環境溫度的變化也會影響電池組風冷散熱效果.
재상세묘술리리자전지생열궤리적기출상,건립료리리자전지조풍랭산열결구적삼유방진모형,응용계산류체동역학방법대전지조진행료방진분석. 결과표명:채용은태계산가이준학모의전지조온승정황,차전지조재1C충방전배솔하,전지조최고온도화온차도처우정상공작범위내,풍랭산열계통만족전지조산열요구;제고진풍구적류속가이유효개선전지조적산열효과,단시당풍속초과일정범위시,산열효과제승솔교저;동시,배경온도적변화야회영향전지조풍랭산열효과.
It describes the thermal model of lithium-ion battery, builds 3d simulation model of air -cooling structure, and simulates the computational fluid dynamics.The result shows that the steady-state calculation can simulate accurately temperature performance of battery pack.Both the maximum temperature and tempera-ture difference are at the reasonable working range and the air-cooling system meets the requirement of the bat-tery pack at 1C charge and discharge rate.Increasing the flow rate can improve the cooling performance of batter-y pack effectively, but the upgrade rate of cooling performance is low when flow rate exceeds a certain range. The variation of the environment temperature can also affect the battery cooling performance.
