Abstract

This proposal introduces an innovative approach to revolutionize the monitoring and optimization of e-fuel consumption in automobiles through the implementation of a solar-powered station. With the increasing demand for electric vehicles (EVs) and the urgent need to reduce carbon emissions, e-fuels have emerged as a promising alternative to conventional fossil fuels. However, efficient monitoring and management of e-fuel usage remain a significant challenge. This paper proposes a comprehensive solar-based station that leverages renewable energy sources to monitor and analyze e-fuel consumption patterns, providing real-time data and insights to vehicle owners and fleet managers. The proposed system aims to enhance the efficiency, sustainability, and cost-effectiveness of e-fuel usage, leading to reduced carbon emissions and increased energy savings. Pure electric vehicles (EVs) are more and more popular in current automotive markets. Many services for EVs such as intelligent battery charging systems and mobile apps are developed to monitor battery energy information (energy consumption time series) for users. However, it consumes power from the grids and if there is no power charging EV vehicles will not be possible, and there is no alternatives. It is neglected such that EV energy consumption takes time in this we design the solar based EV charging station. An E-vehicle charging station, otherwise known as an EV charging station, an electric re-energize point a charging point, an electronic charging station (ECS), or an electric vehicle supply hardware (EVSE), is a piece of a framework that gives electric energy to the reenergizing of module electric vehicles, like electric vehicles, local area electric vehicles, and module mixtures. The main objective of this paper “Solar Based Charging Station for E-Vehicle” is to generate maximum power from the solar panel by tilting its angle based on the intensity of the light that falls on the solar panel .Also, the amount of power available in the charge station is continually monitored locally and from the remote area by using the concepts of Internet of things.

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