Optimal planning and allocation of Plug-in Hybrid Electric Vehicles charging stations using a novel hybrid optimization technique

Subramaniam, Akila; Singh, Lal Raja Singh Ravi

doi:10.1371/journal.pone.0284421

Cited by 4 publications

References 45 publications

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Optimal Sizing of Renewable Energy Powered Hydrogen and Electric Vehicle Charging Station (HEVCS)

Palanisamy,

Lala

2024

IEEE Access

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The primary barrier to the extensive implementation of electric vehicles (EVs) is the lack of necessary and adequate charging infrastructure within a particular area. Moreover, sourcing the energy needed for EVs from the grid that heavily relies on fossil fuels diminishes the environmental advantages of EVs and, further increases strain on grid system in electricity-deficient regions. Therefore, this study designs and simulates six different standalone hybrid renewable energy systems utilizing solar, wind, and biomass sources and a grid-tied system for a selected location of Singaperumal Kovil, Chennai, India. One unique aspect of this research is the use of a single station for charging electric vehicles and hydrogen refueling. These systems are designed to fulfil the energy requirements of 48 battery-electric vehicles and 17 hydrogen vehicles, Using HOMER Pro software, combining a bio-gas generator, wind turbine, and photovoltaic system. The renewable energy sources are identified as the most practical and reliable among the various cases for that location, in terms of technical, economic, and environmental feasibility. Among six different standalone scenarios and a grid-tied system, the biogas generator, wind, and PV configuration model is more cost effective than other configurations. The proposed system generates 2,009,492 kWh/yr of electricity and 30,199 kg/yr of Hydrogen.

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