Performance Analysis of Hybrid Solar-Wind Energy Systems for Smart Grid Applications
B Anand Swaroop1, T Ganesh Sai2, R Pavitra3, M Sai Krishna4, T Chaitanya5
1Assistant Professor, Department of Electrical and Electronics Engineering, Avanthi Institute of Engineering and Technology, Cherukupally, Vizianagaram - 531162., Andhra Pradesh, India
2,3,4,5B.Tech Student , Department of Electrical and Electronics Engineering, Avanthi Institute of Engineering and Technology, Cherukupally, Vizianagaram - 531162., Andhra Pradesh, India
Email: swaroopanand999@gmail.com
Abstract - The growing demand for sustainable and renewable electricity solutions has brought about multiplied research and improvement in hybrid solar-wind power systems, mainly for clever grid packages. those hybrid systems offer better reliability, energy performance, and resilience, making them perfect for contemporary energy networks. A hybrid sun-wind power device integrates photovoltaic (PV) and wind turbine technologies, ensuring a continuous power deliver by means of complementing every supply's variability. sun electricity is plentiful during the day, even as wind strength is regularly extra distinguished in the course of the night time or in negative climate conditions, making the aggregate a relatively powerful and dependable electricity era answer. clever grids play a important function in integrating renewable power resources, enabling efficient strength management, demand response, and grid balance. The overall performance of hybrid sun-wind structures in clever grids depends on numerous elements, which includes solar irradiation, wind velocity, geographic place, energy storage abilities, and power conversion performance. To optimize overall performance, superior electricity electronics, wise electricity control systems, and predictive control techniques are essential. moreover, the mixing of battery garage structures ensures consistent power transport, decreasing fluctuations and improving grid stability. This research article aims to assess the overall performance of hybrid solar-wind strength systems for clever grid programs with the aid of analyzing performance, power output, economic feasibility, and grid stability.
Key Words: Hybrid solar-wind systems, smart grids, energy efficiency, power management, renewable energy integration.
