Impacts and Proficiency of Merging the Photovoltaic and Wireless Charging System for Electrical Transportation Sector

Asma Boukhchana, Mohamed Naoui, A. Flah, Habib Kraiem
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Abstract

: Using dynamic wireless charging systems in conjunction with electric vehicles (EV) could revolutionize transportation in the future by enabling faster driving and non-stop battery charging. Dynamic wireless power transfer can fix the autonomy problems with electric vehicles. The fact that this charging device gets its power from the electrical grid has some serious drawbacks, too. Utilizing alternate sources, like PV generators, is therefore seen to be a potential answer. This study aims to illustrate the advantages that can arise from the interplay of renewable energy sources with wireless recharge systems for electric vehicles in this environment. Therefore, this paper is built and has regrouped the needed sections that can define the wireless recharge concept based on an alternative energy source. Simulation results were adapted by the Matlab Simulink platform, where more than one situation is tested and examined. This is by testing the influence of the vehicle ꞌ s speed on the wireless charging performances and by testing what effect can be done if the climatic conditions are varied, especially on the global performances of the wireless recharge tool.
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光伏与无线充电系统合并对电气交通领域的影响和效率
:将动态无线充电系统与电动汽车(EV)结合使用,可以实现更快的驾驶速度和不间断的电池充电,从而彻底改变未来的交通方式。动态无线电力传输可以解决电动汽车的自动驾驶问题。事实上,这种充电设备从电网获取电力也有一些严重的缺点。因此,利用光伏发电机等替代能源被认为是一个潜在的解决方案。本研究旨在说明在这种环境下,可再生能源与电动汽车无线充电系统相互作用所产生的优势。因此,本文对所需部分进行了构建和重新组合,以定义基于替代能源的无线充电概念。仿真结果通过 Matlab Simulink 平台进行调整,在该平台上对多种情况进行了测试和检验。其中包括测试车辆速度对无线充电性能的影响,以及测试不同气候条件下的影响,尤其是对无线充电工具整体性能的影响。
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