부산대학교 도서관

The proliferation of renewable energy sources such as wind and solar necessitates the development of energy storage systems that are both cost-effective and efficient. The present study elucidates the utilization of state-of-the-art materials and technologies in tandem with battery management systems to fabricate an energy storage system that exhibits superior efficiency, specifically designed for deployment in renewable energy domains. In comparison to contemporary energy storage systems, the proposed system demonstrates superior performance in the areas of energy storage capacity, charge/discharge efficiency, cycle life, and power density. The utilization of mathematical models and simulations provides a theoretical foundation for the design and optimization of energy storage systems. The results of this investigation demonstrate the feasibility of developing an advanced energy storage mechanism that could significantly augment the effectiveness and financial feasibility of producing renewable energy. The proposed energy storage system has the potential to benefit various industries while simultaneously reducing detrimental emissions and creating novel job opportunities. Future research areas in this field may include the optimization of proposed energy storage systems, the integration of said systems with smart grid technologies, and the investigation of alternative energy storage technologies.