GRID INTEGRATED ANALYSIS OF HYBRID PHOTOVOLTAIC AND WIND POWER GENERATION

Abstract

The power provided by a wind turbine is designed to suit the linear induction generator. The Archimedese wave swing (AWS) theory is used for the induction generator. A typical connection from dc bus bar through the voltage source converter connects the output terminal of the hybrid system (VSC). This dc power is therefore transformed into ac power by the inverter of the voltage source (VSI). In order to smooth the rib, the electricity supplied to the power grid of the distribution side is indicated by a supercapacitor (SC). This paper suggests a control system to maintain the equilibrium between the distribution network's generated side and grid. To achieve the purpose, the traditional stabilization tool is added to the device under different conditions and approves the efficiency and performance of the topology used for control and the hybrid photovoltaic and wind turbines. The results highlight the potential for enhanced energy reliability, reduced carbon emissions, and improved grid efficiency when these renewable sources are effectively integrated. Recommendations are provided for optimizing grid operations and policy frameworks to support large- scale adoption of renewable energy technologies.