Utilization of Peltier Chipsets in Electric Vehicles to Charge Li-Ion Batteries

Abdalrahman Skheta, Onur Akar
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Abstract

Using the Peltier effect for power generation is a relatively new technology that has been gaining attention in recent years. Using Peltier chips for power generation in EVs is an interesting approach that has the potential to provide a renewable and sustainable source of energy. By using the heat generated by the car's components during operation, the Peltier chips can generate electricity, which can be used to charge the battery. This approach has several benefits, including reducing the reliance on fossil fuels, improving the efficiency of the vehicle, and reducing the carbon footprint of the EV. The Peltier effect is a thermoelectric phenomenon that converts temperature differences into electrical energy to generate enough power to recharge an electric vehicle battery, several Peltier chips can be connected in series, and a converter can be used to convert the generated voltage into a sufficient voltage and can charge the battery. In this paper, an in-depth exploration will be conducted to evaluate the overall effectiveness and efficiency of Pelter chips, with a particular focus on simulating the utilization of these chips through the utilization of Proteus software.
Peltier芯片组在电动汽车中为锂离子电池充电的应用
利用珀尔帖效应发电是近年来备受关注的一项相对较新的技术。在电动汽车中使用Peltier芯片发电是一种有趣的方法,有可能提供可再生和可持续的能源。通过利用汽车部件在运行过程中产生的热量,Peltier芯片可以产生电能,这些电能可以用来给电池充电。这种方法有几个好处,包括减少对化石燃料的依赖,提高车辆的效率,减少电动汽车的碳足迹。珀尔帖效应是一种热电现象,将温差转化为电能,产生足够的能量给电动汽车电池充电,几个珀尔帖芯片可以串联起来,用转换器将产生的电压转换成足够的电压,可以给电池充电。本文将深入探讨Pelter芯片的整体有效性和效率,并通过Proteus软件模拟这些芯片的使用情况。
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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