Solar Charging Dock for Personal Electric Vehicles

2023 IEEE IAS Global Conference on Renewable Energy and Hydrogen Technologies (GlobConHT) Pub Date : 2023-03-11 DOI:10.1109/GlobConHT56829.2023.10087698

Z. B. Durham, A. El-Shahat, H. Mageed, Samu Blitch, Zain Mirza

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Abstract

Electric Vehicles (EV s) such as e-bikes, e-scooters, and e-skateboards become the most popular Eco-friendly personal modes of transportation in the United States. These EVs are mostly recharged via the power grid's stations. Grid power is generated through multiple means including hydroelectric, thermal, solar, and wind. Even with using EVs to reduce the dangerous effects of fuel burning, there is a real need to take major steps towards green charging approaches. Charging EVs through renewable energy resources is maximizing the ecologically friendly potentials. The aim of this work is to provide a green and sustainable charging system for personal electric vehicles. Hence, a solar-powered charging dock has been built and controlled by an Arduino Mega 2560 adding to a Raspberry Pi 4. Subsequently, solar panel tracker linear actuator has been applied to be integrated with the installed dock solar panel tracking system for delivering maximum precision while operating. To get economic and reliable dock, it has been constructed from wood.

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用于个人电动汽车的太阳能充电座

电动自行车、电动滑板车、电动滑板等电动汽车成为美国最受欢迎的环保个人交通工具。这些电动汽车大多通过电网的充电站充电。电网电力是通过多种方式产生的，包括水电、热能、太阳能和风能。即使使用电动汽车来减少燃料燃烧的危险影响，也确实需要采取重大步骤来实现绿色充电方法。通过可再生能源为电动汽车充电是最大限度地发挥生态友好潜力。这项工作的目的是为个人电动汽车提供一个绿色和可持续的充电系统。因此，已经建立了一个太阳能充电基座，并由Arduino Mega 2560添加到树莓派4控制。随后，应用太阳能电池板跟踪器线性执行器与已安装的船坞太阳能电池板跟踪系统集成，在运行时提供最大的精度。为了使船坞经济可靠，船坞采用木质结构。

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2023 IEEE IAS Global Conference on Renewable Energy and Hydrogen Technologies (GlobConHT)

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