Cost-effective analysis of hybrid electric vehicles charging station

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY
Saqib Ali, Shahbaz Ali, Ali Muneer, M. Qazi, Khurshaid Ahmmad Karloo
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Abstract

Electric vehicles (EVs) are a very essential part of the automobile industry and play a vital role in the development of the economy of a country. Due to their eco-friendly nature and lower operating cost, EVs have acquired great attention globally. Almost all leading automobile manufacturers are developing cost-efficient EVs. However, with the increase in the number of EVs day by day, the need for efficient charging stations to deliver economical charging needs to be developed. To charge these EVs from the conventional grids is an additional burden on these grids as more electricity will be required to charge these EVs, which may result in incremental energy production as well as the energy cost for the general consumers. These days, increasing the number of EVs can bring sustainability problems in Pakistan as the considered country already facing the worst electrical energy crisis in the last ten years. For this purpose, we must require some alternate methods for charging the EVs charging to avoid overloading on existing grids. The use of renewable energy resources (RERs) is an effective solution to tackle this shortage of power. Therefore, in this paper, a cost-effective solution is proposed by hybridizing the different types of RERs to charge the EVs from the charging station. A different combination of RERs is used as case studies for a specific area of Pakistan named Kallar Kahar. Simulation is performed on MATLAB/Simulink and energy cost is being compared for different case studies. The proposed hybrid power system used approximately 50% wind, 40% solar, and 10% biogas as RERs. The results show that case 4 is best among all which provides yearly power production of 375,220 kWh at a net annual cost of 43,174.06$/year while the net annual cost to provide the same power with the grid is 59,304$/year. There is a 1.37% reduction in the overall annual cost of the proposed charging station as compared to the utility grid.
混合动力汽车充电站的成本效益分析
电动汽车是汽车工业的重要组成部分,在一个国家的经济发展中发挥着至关重要的作用。电动汽车由于其环保特性和较低的运营成本,在全球范围内引起了极大的关注。几乎所有领先的汽车制造商都在开发具有成本效益的电动汽车。然而,随着电动汽车数量的日益增加,需要开发高效充电站来提供经济的充电。从传统电网为这些电动汽车充电是这些电网的额外负担,因为为这些电动车辆充电将需要更多的电力,这可能会导致能源生产的增加以及普通消费者的能源成本。如今,电动汽车数量的增加可能会给巴基斯坦带来可持续性问题,因为巴基斯坦已经面临着过去十年来最严重的电力危机。为此,我们必须要求采用一些替代方法为电动汽车充电,以避免现有电网过载。使用可再生能源是解决电力短缺问题的有效解决方案。因此,在本文中,通过混合不同类型的RER从充电站为电动汽车充电,提出了一种具有成本效益的解决方案。不同的RER组合被用作巴基斯坦Kallar Kahar特定地区的案例研究。在MATLAB/Simulink上进行了仿真,并对不同案例的能源成本进行了比较。拟议的混合动力系统使用了大约50%的风能、40%的太阳能和10%的沼气作为可再生能源。结果表明,在所有情况中,情况4是最好的,其年发电量为375220千瓦时,年净成本为43174.06美元/年,而与电网提供相同电力的净年成本为59304美元/年。与公用电网相比,拟建充电站的年总成本降低了1.37%。
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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