Effect of Thickness on Performance of Thermal Management System for a Prismatic Lithium-Ion Battery Using Phase Change Material

Energy Storage Pub Date : 2025-01-29 DOI:10.1002/est2.70135

Uğur Morali

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Abstract

Phase change material cooling method as a zero energy consumption cooling system has a good prospect in battery thermal management systems. Therefore, the thermal response of the lithium-ion battery in the presence of a phase change material was explored in this study. The lithium-ion battery was subjected to high discharge conditions (5 C-rate) at high ambient temperatures (35°C and 40°C). The results showed that the usage of phase change materials with a thickness of 1 mm can reduce battery temperature and deliver a better temperature difference in a lithium-ion battery. Results also revealed that for a 14.6 Ah lithium-ion battery under a 5 C discharge rate, a phase change material cooling system with a thickness of 1 mm can reduce the maximum temperature from 51.64°C at 35°C and 55.85°C at 40°C ambient temperatures (without phase change material) to 43.04°C and 43.81°C, respectively. It was concluded that the phase change material system with a thickness of 1 mm can manage the maximum battery temperature and temperature difference in the desirable range at an extreme discharge rate of 5 C. The results obtained from this study can be used as guidance in the design of battery thermal management systems including phase change materials.

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厚度对相变材料棱镜锂离子电池热管理系统性能的影响

相变材料冷却方法作为一种零能耗冷却系统在电池热管理系统中具有良好的应用前景。因此，本研究探讨了相变材料存在下锂离子电池的热响应。锂离子电池在高环境温度（35°C和40°C）下进行了高放电条件（5c倍率）测试。结果表明，使用厚度为1mm的相变材料可以降低电池温度，并在锂离子电池中提供更好的温差。结果还表明，在5℃放电速率下，14.6 Ah的锂离子电池，采用厚度为1 mm的相变材料冷却系统，可将最高温度从35℃时的51.64℃和40℃时的55.85℃降低到43.04℃和43.81℃。研究结果表明，在极端放电速率为5℃的情况下，厚度为1 mm的相变材料体系可以将电池的最大温度和温差控制在理想范围内，研究结果可为包括相变材料在内的电池热管理系统的设计提供指导。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Energy Storage

CiteScore

2.90

自引率

0.00%

发文量