Efficient Integration of Renewable Energy for Electric Vehicle Charging: A Hybrid System Approach

Abstract

Recent years have seen the development of a cutting-edge hybrid renewable energy charging station for electric cars (EVs). In order to provide an effective and long-lasting charging infrastructure for EVs, the project focuses on merging various renewable energy technologies, such as solar and wind power, with energy storage systems. Electric vehicles (EVs) are crucial in lowering carbon emissions and dependence on fossil fuels as the shift to sustainable transportation gathers steam. However, the creation of a reliable charging infrastructure is necessary for the broad adoption of EVs. In this project, a hybrid renewable energy-based electric vehicle charging station (HREB-EVCS) is designed and put into operation. The HREB-EVCS leverages the integration of renewable energy sources, such as solar and wind power, along with energy storage systems to ensure uninterrupted and sustainable charging for EVs. The project focuses on optimizing the utilization of renewable energy resources and managing the charging process efficiently. The charging station incorporates advanced control algorithms and smart grid technologies to intelligently distribute power among EVs based on demand, renewable energy availability, and grid conditions. The project aims to demonstrate the viability and effectiveness of the HREB-EVCS in providing clean, reliable, and cost-effective charging solutions for EVs. The results of the project will contribute to the advancement of sustainable transportation infrastructure and facilitate the wider adoption of EVs by addressing the challenges associated with charging infrastructure and renewable energy integration.