软包装电池成组热结构设计

摘要由于软包装电池外包装采用多层塑料复合薄膜，没有外部形状支撑，在高倍率使用条件下，电池会产生大量热量，同时由于副反应不可避免产生气体，出现体积涨缩及其他形变，导致性能和循环寿命下降。针对软包装电池特点，设计散热片，实现对电池散热及固定加紧的双重作用，成组热设计采用散热片与空气冷却相结合的形式。根据计算流体动力学原理，对电池箱进行模拟仿真计算，结果显示电池组最高温升为5 ℃，温度场最大温差2 ℃。

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	王丽娜1
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	张慧卿

关键词：软包装电池散热片; 成组; 热设计

Abstract： As external package of a lithium ion battery is made of multi-layer composite film, solid support is not available for the flexible package battery. During a high-rate charge/discharge cycle, the batteries will generate a lot of heat and gas inevitably produced by the side-reactions, which leads to the expansion and deformation of the batteries. In this paper, heat sink was designed to cool and fasten the battery. The design of the thermal structure is a combination of heat sink and air cooling. A numerical simulation of battery module based on CFD theory is conducted. The result shows that the maximum temperature rise of the battery pack is 5 ℃ and the maximum temperature difference in the pack is 2 ℃.

Keywords： flexible package battery; heat sink; battery pack thermal design

Received 2014-03-30;

Fund:

国家863计划项目(2014AA052301)。

Corresponding Authors: 杨凯，E-mail:yangkai@epri.sgcc.com.cn。 Email: yangkai@epri.sgcc.com.cn

About author: 王丽娜(1980-)，女，工学硕士，工程师，研究方向为电网储能与能量转换技术。

引用本文:

王丽娜, 刘皓, 杨凯, 惠东, 张慧卿.软包装电池成组热结构设计[J]. 化学工业与工程, 2014,31(3): 39-43

WANG Li-Na, LIU Hao, YANG Kai, HUI Dong, ZHANG Hui-Qing.Thermal Structure Design for Flexible Package Battery[J]. Chemcial Industry and Engineering, 2014,31(3): 39-43