Development of artificial Intelligence-Based adaptive vehicle to grid and grid to vehicle controller for electric vehicle charging station

IF 6 2区 工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY
Abhishek Pratap Singh , Yogendra Kumar , Yashwant Sawle , Majed A. Alotaibi , Hasmat Malik , Fausto Pedro García Márquez
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Abstract

Electric vehicle charging stations (EVCS) that are based on DC microgrids are presented in this research. The system comprises a solar photovoltaic system (SPVS), storage battery (SB), electric vehicle (EV) and grid. The adaptive interaction artificial neural network (AI-ANN)-based vehicle to grid (V2G) and grid to vehicle (G2V) power management controller (PMC) is suggested for DC microgrid based EVCS. This EVCS is suitable for the residential building and offices where EV may be parked. This EVCS provides the facility to manage the power of the building in addition to charge the EVIt has two different modes of operation. The first mode uses the EV as a power source. In the second mode, the EV functions as a load. This controller is developed to acquire electrical power from the solar photovoltaic system (SPVS), storage battery, EV and grid respectively. If the solar photovoltaic system (SPVS) and storage battery power are insufficient to meet the demand, power is extracted from electric vehicle (V2G). If the solar photovoltaic system (SPVS), storage battery and EV are not sufficient to meet up demand, then deficit power is obtained from the grid (G2V). ANN based power management controller (PMC) Also provides a consistent DC bus voltage and reduces overshoot from 9.6 % to 0 %., settling time from 1.18 sec. to 0.52 sec. and rise time from 0.27 sec. to 0.25 sec. of DC bus voltage compared to conventional controller. The suggested power management controller tested for two different modes i.e., V2G and G2V using MATLAB Simulink software.

为电动汽车充电站开发基于人工智能的自适应车辆到电网和电网到车辆控制器
本研究介绍了基于直流微电网的电动汽车充电站(EVCS)。该系统由太阳能光伏系统(SPVS)、蓄电池(SB)、电动汽车(EV)和电网组成。针对基于直流微电网的 EVCS,提出了基于自适应交互人工神经网络(AI-ANN)的车辆到电网(V2G)和电网到车辆(G2V)电源管理控制器(PMC)。该 EVCS 适用于停放电动汽车的住宅楼和办公室。这种 EVCS 除了为电动汽车充电外,还能管理大楼的电力。第一种模式将电动汽车作为电源。在第二种模式中,电动汽车充当负载。该控制器可分别从太阳能光伏系统 (SPVS)、蓄电池、电动汽车和电网获取电力。如果太阳能光伏系统(SPVS)和蓄电池的电力不足以满足需求,则从电动汽车(V2G)获取电力。如果太阳能光伏系统 (SPVS)、蓄电池和电动汽车的电量不足以满足需求,则从电网获取不足电量(G2V)。与传统控制器相比,基于 ANN 的电源管理控制器(PMC)还能提供稳定的直流母线电压,并将直流母线电压的过冲从 9.6% 降低到 0%,稳定时间从 1.18 秒缩短到 0.52 秒,上升时间从 0.27 秒缩短到 0.25 秒。建议的电源管理控制器使用 MATLAB Simulink 软件针对两种不同模式(即 V2G 和 G2V)进行了测试。
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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来源期刊
Ain Shams Engineering Journal
Ain Shams Engineering Journal Engineering-General Engineering
CiteScore
10.80
自引率
13.30%
发文量
441
审稿时长
49 weeks
期刊介绍: in Shams Engineering Journal is an international journal devoted to publication of peer reviewed original high-quality research papers and review papers in both traditional topics and those of emerging science and technology. Areas of both theoretical and fundamental interest as well as those concerning industrial applications, emerging instrumental techniques and those which have some practical application to an aspect of human endeavor, such as the preservation of the environment, health, waste disposal are welcome. The overall focus is on original and rigorous scientific research results which have generic significance. Ain Shams Engineering Journal focuses upon aspects of mechanical engineering, electrical engineering, civil engineering, chemical engineering, petroleum engineering, environmental engineering, architectural and urban planning engineering. Papers in which knowledge from other disciplines is integrated with engineering are especially welcome like nanotechnology, material sciences, and computational methods as well as applied basic sciences: engineering mathematics, physics and chemistry.
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