Integrate of Wind and Solar Energy Generation System with Biomass and ESS to Fulfilling the Demand of Consumer and Enhance the Quality of Power

The increasing demand for sustainable energy solutions has driven the integration of multiple renewable energy sources to ensure reliable and efficient power generation. This research presents a hybrid energy system combining wind, solar photovoltaic (PV), biomass, and energy storage systems (ESS) to meet consumer demand while enhancing power quality. The proposed system leverages the complementary nature of these renewable sources, ensuring a stable and continuous energy supply. Wind and solar power serve as primary generation sources, with biomass providing a consistent backup, while ESS mitigates intermittency and supports grid stability. A comprehensive techno-economic analysis and system optimization have been conducted using HOMER Pro Software, evaluating the feasibility, cost-effectiveness, and environmental benefits of the hybrid system. The study considers various economic parameters, including net present cost (NPC), levelized cost of energy (LCOE), and return on investment (ROI), to determine the optimal system configuration. The integration of these renewable energy sources not only reduces dependency on fossil fuels but also improves voltage and frequency stability, ensuring high power quality for end users. The results demonstrate that the proposed hybrid system significantly enhances energy reliability, minimizes operational costs, and promotes sustainable energy utilization. This study provides valuable insights into the design and implementation of integrated renewable energy systems, contributing to the development of resilient and economically viable power solutions for future energy needs.