大电流液固冷却充电模块系统设计  

作　　者：陈熙 陈慧敏 程林 张倩 刘维新 陈春宇 CHEN Xi;CHEN Huimin;CHENG Lin;ZHANG Qian;LIU Weixin;CHEN Chunyu(Electric Power Research Institute,State Grid Beijing Electric Power Company,Beijing 100045,China;Beijing Huashang Sanyou New Energy Technology Co.,Ltd.,Beijing 101100,China)

机构地区：[1]国网北京市电力公司电力科学研究院,北京100045 [2]北京华商三优新能源科技有限公司,北京101100

出　　处：《中国粉体技术》2022年第6期78-90,共13页China Powder Science and Technology

基　　金：国网北京市电力公司科技项目,编号:52022320006G。

摘　　要：基于液冷充电模块工作过程,分析充电模块发热原理,通过理论计算系统设计循环泵、管路、散热器和冷板等液冷充电桩关键部件;利用仿真分析散热冷板结构温度场,进行液冷充电模块冷板的结构优化设计;结合充电桩的应用场景和条件,冷却工质选择体积分数为56%的乙二醇水溶液作为液相,添加体积分数为3%的石墨烯粉体作为固相。结果表明:与市场上现有液冷模块进行对比,设计优化后的液冷模块散热效率提升约20%。研究充电设备的液固两相流散热系统,利用冷却工质循环和散热装置对充电设备进行散热,有利于提高设备的可靠性和使用年限。Based on the working process of the liquid cooling charging module,the heating principle of the charging module was analyzed.The key components of the liquid cooling charging pile,such as the circulation pump,the pipeline,the radiator and the cold plate were designed through the theoretical calculation system.The structural temperature field of the cooling cold plate was analyzed by simulation,and the structural optimization design of the cold plate of the liquid cooling charging module was carried out.Combined with the application scenarios and condition constraints of the charging pile,the cooling medium of 56%ethylene glycol aqueous solution was selected as the liquid phase,and 3%graphene powder was added as the solid phase.The results show that compared with the existing liquid cooling modules in the market,the heat dissipation efficiency of the optimized liquid cooling module increases by about 20%.Research on the liquid-solid two-phase flow heat dissipation system of the charging equipment,and using the cooling medium circulation and heat dissipation device to heat the charging equipment are conducive to improving the reliability and service life of the equipment.

关 键 词：液固两相流 液冷散热系统 仿真分析 冷板结构优化 

分 类 号：TK124[动力工程及工程热物理—工程热物理]