Modeling and Experimental Verification of Electric Vehicles Off-Grid Photovoltaic Powered Charging Station  

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作  者:Essam Hendawi Sattam Al Otaibi Sherif Zaid Ayman Hoballah Salah K.ElSayed Nagy I.Elkalashy Yasser Ahmed 

机构地区:[1]Department of Electrical Engineering,College of Engineering,Taif University,Taif,21944,Saudi Arabia [2]Department of Electrical Engineering,Faculty of Engineering,University of Tabuk,Tabuk,47913,Saudi Arabia [3]Renewable Energy&Energy Efficiency Center(REEEC),University of Tabuk,Tabuk,47913,Saudi Arabia [4]Department of Electrical Power,Faculty of Engineering,Cairo University,Cairo,12613,Egypt

出  处:《Computer Systems Science & Engineering》2022年第12期1009-1025,共17页计算机系统科学与工程(英文)

基  金:funded by the Deanship of Scientific Research,Taif University,KSA(Research project number 1-441-99).

摘  要:With the increasing development of EVs, the energy demand from theconventional utility grid increases in proportion. On the other hand, photovoltaic(PV) energy sources can overcome several problems when charging EVs from theutility grid especially in remote areas. This paper presents an effective photovoltaic stand-alone charging station for EV applications. The proposed charging station incorporates PV array, a lithium-ion battery representing the EV battery, and alead-acid battery representing the energy storage system (ESS). A bidirectionalDC-DC converter is employed for charging/discharging the ESS and a unidirectional DC-DC converter is utilized for charging the EV battery. The proposed controllers achieve maximum power extraction from the PV and regulate the DC-linkvoltage. It also controls the voltage and current levels of both the ESS and the EVduring the charging/discharging process. The study has been applied to two caseswith different power levels. Analysis, simulation, and implementation of the proposed system are presented. A 120 W laboratory prototype is carried out to verifythe system performance, experimentally. Design guides for higher power levelsare proposed to help in choosing the proper parameters of the converters. Boththe simulation and experimental results are matched and verify the highperformance of the proposed system.

关 键 词:Electric vehicle lithium-ion battery lead-acid battery PHOTOVOLTAIC MICROCONTROLLER charging station 

分 类 号:TP39[自动化与计算机技术—计算机应用技术]

 

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