The cumulative implementation of EVs worldwide has led to a higher demand for electricity due to the benefits of EVs, such as low maintenance, enhanced performance, and environmental advantages. This growing demand poses challenges to the productivity and dependability of PDN, making the strategic placement of EVCS critical. To lessen the influence of EVCS on distribution systems, SDG and shunt capacitors are essential in PDN. Improper positioning and capacity of these elements can adversely influence the performance of the PDN. This research employs the QRSMA in conjunction with other optimization methods to determine the best locations and capacities for SDGs and EVCS within the PDN. The methodology is validated on the IEEE 34-bus PDN, with a primary objective of minimizing power losses. The findings demonstrate that the proposed technique efficiently mitigate power losses and enhances the overall stability of the system.

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Renewable-Based Distributed Generation Allocation to Mitigate the Impact of EV Charging Stations

  • T. D. Suresh,
  • S. Karthik,
  • M. Thirumalai,
  • T. Yuvaraj,
  • R. Essaki Raj

摘要

The cumulative implementation of EVs worldwide has led to a higher demand for electricity due to the benefits of EVs, such as low maintenance, enhanced performance, and environmental advantages. This growing demand poses challenges to the productivity and dependability of PDN, making the strategic placement of EVCS critical. To lessen the influence of EVCS on distribution systems, SDG and shunt capacitors are essential in PDN. Improper positioning and capacity of these elements can adversely influence the performance of the PDN. This research employs the QRSMA in conjunction with other optimization methods to determine the best locations and capacities for SDGs and EVCS within the PDN. The methodology is validated on the IEEE 34-bus PDN, with a primary objective of minimizing power losses. The findings demonstrate that the proposed technique efficiently mitigate power losses and enhances the overall stability of the system.