Recent Papers

Addressing problems like range anxiety, lengthy charging periods, and reliance on fossil fuels is crucial as electric cars (EVs) proliferate. By enabling EVs to charge while driving, Dynamic Wireless Charging (DWC) presents a viable alternative to frequent stops and big batteries. This study suggests a smart DWC system that is fueled by a variety of renewable energy sources, including grid-connected energy storage, wind turbines, and solar panels. Advanced power electronics, wireless energy transfer via inductive coils in the road, and a hybrid energy management algorithm that modifies power distribution in real-time according to traffic, vehicle demands, and energy availability are all part of the system. The concept promotes a more resilient and sustainable transportation infrastructure by lowering carbon emissions and dependence on the grid. The design's viability is validated by simulations and prototype testing, which demonstrate improved energy efficiency, reliable charging, and environmental advantages. Future intelligent and environmentally friendly mobility solutions are made possible by this multi-source DWC strategy.Keywords: Dynamic Wireless Charging (DWC), Renewable Energy (Solar, Wind),Grid-connected Energy Storage, Wireless Power Transfer, Carbon Emission Reduction.

Copyright © 2025 Rayavarapu Nagasai. This is an open access article distributed under the Creative Commons Attribution License.