Voltage and Power Management of Micro Grid Using PV-Wind Generation with Various Fault Conditions

Abstract

Integrating diverse energy sources, such as Photovoltaic (PV) and wind generation systems, into microgrids presents significant challenges and opportunities in voltage and power management. This study focuses on the behavior of microgrids incorporating PV and wind systems under various fault conditions, analyzing how different fault scenarios impact the stability and overall performance of the microgrids. By conducting simulations, the research evaluates the effects of these faults on system performance and explores a range of control strategies to mitigate potential disruptions. The proposed methods aim to maintain optimal voltage levels and power quality despite faults. The findings underscore the importance of adaptive management techniques in maintaining the reliability and efficiency of microgrids, particularly when integrating renewable energy sources. This work contributes to the growing understanding of how microgrids can be effectively managed to ensure stable operation, even in the face of unexpected disruptions, thereby enhancing the resilience of renewable-based energy systems.