Modelling of the Process of Cooling the Battery of the Electric vehicles with Cabin Air-Conditioning System by means of LMS Amesim Programme

Haluk GÜNEŞ
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Abstract

In this study, a simulation on management of battery temperature, which is a significant problem for electric vehicles, has been made. Battery temperatures can reach up to 50 oC if not checked during quick charging and discharging processes. Such situation shortens the lifetime of battery and also increases the temperature inside the cabin. More importantly, they can be dangerous. LMS Amesim software and WLTC driving cycle have been used for the simulation. Three battery packages have been used in simulations. Temperature of the battery have been checked at three different ambient temperatures (25 oC, 30 oC, 35 oC). During the test, it has been enhanced to keep the battery temperature below 35 oC under all conditions. Air-conditioner of the vehicle has been used to cool the batteries. When the temperature increased, the air-conditioner automatically checked the operating cycle of the compressor and cooled the batteries by means of constant air flow. In conclusion, the simulation has kept the battery temperature at desired level at ambient temperatures of 25 oC and 30 oC. At ambient temperature of 35oC, battery temperature increased up to 35.2oC.
基于LMS Amesim软件的电动汽车车舱空调系统电池冷却过程建模
本文针对电动汽车电池温度管理这一重要问题进行了仿真研究。如果在快速充放电过程中不进行检查,电池温度最高可达50℃。这种情况缩短了电池的使用寿命,也增加了机舱内的温度。更重要的是,它们可能很危险。采用LMS Amesim软件和WLTC驱动循环进行仿真。模拟中使用了三种电池组。在三种不同的环境温度(25℃,30℃,35℃)下检查电池的温度。在测试过程中,它已得到增强,在所有条件下保持电池温度低于35℃。车辆的空调已经被用来冷却电池。当温度升高时,空调自动检查压缩机的运行周期,并通过恒定气流的方式冷却电池。综上所述,在25℃和30℃的环境温度下,模拟使电池温度保持在期望的水平。在环境温度为35oC时,电池温度升高至35.2oC。
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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