关键词: 电池模组；热管理效率；液态冷却系统；热流分布；峰值温度

Abstract: Aiming at the problem of low thermal management efficiency of battery modules, this paper analyzes the liquid cooling system of battery modules, aiming to improve its thermal efficiency and safety. By analyzing the current liquid cooling technologies for battery modules, the advantages and disadvantages of different liquid cooling technologies at present are obtained. Based on the above analysis results, the heat flow distribution of the liquid cooling system is modeled and studied using the numerical simulation method to evaluate the influence of different design parameters (coolant flow rate, cooling channel layout, etc.) on the temperature distribution of the battery module. The calculation results show that optimizing the cooling channel design can significantly reduce the peak temperature of the battery module, with the peak temperature dropping from 34.94 ℃ to 29.83 ℃, and the peak temperature decreased by approximately 14.62%. This verifies the effectiveness of the optimized cooling system in reducing the overall average temperature of the battery module and concludes the best solution that the optimized liquid cooling plate structure is more effective for the overall heat dissipation efficiency of the battery module, providing guidance for the subsequent optimization research of the battery module liquid cooling system.

Key words: battery module; thermal management efficiency; liquid cooling system; heat flow distribution; peak temperature