Integrated Renewable Energy with Energy Storage: Electronic Driving Efficiency and Stability

The incorporation of renewable energy sources with energy storage solutions in electronic drive systems (EDS) offers a promising technique to progress the performance, proficiency, and stability of these systems. The goal of this research is to determine the feasibility of using renewable energy and energy storage technologies to enhance the functionality of EDS by reducing the variation in power and improving energy utilization. This study is important because of the growing essential for sustainable energy resolutions that address the increasing demand for sustainable energy solutions where EDS are critical and the industries requiring these include automotive and industrial automation. The methodology consists of a thorough review of the literature, case studies, and technological developments of renewable energy sources (solar, wind, etc.) and energy storage solutions (batteries, supercapacitors, etc.) integrated into EDS. Also provided are performance metrics, barriers during integration, and challenges. Key findings show that non-conventional energy and energy storage increase the efficiency, stability, and reliability of EDS by improving power quality, decreasing operational costs, and increasing sustainability. Together these technologies can enable effective load management and improved response to power fluctuations. These findings have important implications for future EDS design and procedure, especially in the framework of future smart grids and the overall transition to renewable energy. This work advances the growth of more resourceful and supportable EDS and provides insights for academia and industry practitioners in energy management and electronics.