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Research on Thermal Management Control Strategy of Electric Vehicle Liquid Cooling Battery Pack
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作者 Zhenhua Li 《Modern Electronic Technology》 2021年第2期36-40,共5页
Due to the risk of thermal runaway in the charging and discharging process of a soft packed lithium battery pack for electric vehicles,a stamping channel liquid cooling plate cooling system is designed,and then the he... Due to the risk of thermal runaway in the charging and discharging process of a soft packed lithium battery pack for electric vehicles,a stamping channel liquid cooling plate cooling system is designed,and then the heat dissipation problem of the battery pack is solved through reasonable thermal management control strategy.Using computational fluid dynamics simulation software star-CCM+,the thermal management control strategy is optimized through simulation technology,and the temperature field distribution of battery pack is obtained.Finally,an experimental platform is built,combined with experiments,the effectiveness of the thermal management control strategy of the cooling system is verified.The results show that when the battery pack is in the environment of 25℃,the maximum temperature of the cooling system can be lower than 40℃,the maximum temperature difference between all single batteries is within 5℃,and the maximum temperature difference between inlet and outlet coolant is 3℃,which can meet the heat dissipation requirements of the battery pack and prevent out of control heat generation. 展开更多
关键词 Electric vehicle Power battery liquid cooling system Computational fluid dynamics Analogue simulation
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Modeling and Optimization of Heat Dissipation Structure of EV Battery Pack 被引量:1
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作者 Xinggang Li Rui Xiong 《Journal of Beijing Institute of Technology》 EI CAS 2018年第1期29-35,共7页
In order to solve the problems of high temperature and inconsistency in the operation of electric vehicle( EV) battery pack,computational fluid dynamics( CFD) simulation method is used to simulate and optimize the... In order to solve the problems of high temperature and inconsistency in the operation of electric vehicle( EV) battery pack,computational fluid dynamics( CFD) simulation method is used to simulate and optimize the heat dissipation of battery pack. The heat generation rate at different discharge magnifications is identified by establishing the heat generation model of the battery. In the forced air cooling mode,the Fluent software is used to compare the effects of different inlet and outlet directions,inlet angles,outlet angles,outlet sizes and inlet air speeds on heat dissipation. The simulation results show that the heat dissipation effect of the structure with the inlet and outlet on the same side is better than that on the different sides; the appropriate inlet angle and outlet width can improve the uniformity of temperature field; the increase of the inlet speed can improve the heat dissipation effect significantly. Compared with the steady temperature field of the initial structure,the average temperature after structure optimization is reduced by 4. 8℃ and the temperature difference is reduced by 15. 8℃,so that the battery can work under reasonable temperature and temperature difference. 展开更多
关键词 electric vehicle(EV) battery pack cooling computational fluid dynamics(CFD) air cooling
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