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INTELLIGENT HYBRID ENERGY SYSTEM FOR CHARGING ELECTRIC VEHICLES
Abstract
In recent years, there has been a global trend towards increasing distribution of electric vehicles. This has necessitated the installation and construction of charging infrastructure to meet the needs of a growing number of users, as well as providing additional electrical power capacity. Hybrid power systems are one of the solutions to the problems of providing electrical power ensuring sufficient electrical power supply. This study presents a conceptual model of an intelligent hybrid system designed to supply electricity to electric vehicle charging stations. At the core of the system is considered a control module that is expected to provide intelligent control of the distribution of energy flows between the system components. A key element of the hybrid system is the charging stations, which are also subject to management to ensure the optimal utilization of energy from renewable sources. The control of charging stations is facilitated by a charging station management system, which operates in conjunction with and communicates with the central control module. As a result of integrating a hybrid energy system with adaptive control for charging stations, power balancing and redistribution are achieved. This leads to a reduction in electricity consumption by the electrical transmission grid and efficient use of alternative energy sources.
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References6
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