Modern microgrids are associated with a wide range of loads used in different fields, which has a greater impact on the quality of the electricity. A further Corson with power quality originates from hybrid electricity generating systems or hybrid microgrids, which integrate green energy with utility grids to minimize fossil fuel usage. Power converters and the integration of various energy sources are required to maintain load needs and variations while considering extreme weather. The performance of a stand-alone hybrid Microgrid system is addressed in this article. For continuous power production, a 36kW proton exchange membrane (PEM)-fuel cell (FC) system integrates with a 22KW self-excited induction generator (SEIG) micro hydro system via a bidirectional converter. Conducting a dynamic analysis of the system under balanced R-L load circumstances is the main objective of this study. The performance of the isolated hybrid microgrid system has been evaluated by the real-time simulations with OPAL-RT 4510 real -time simulator.
Power Control in a PEMFC/ SEIG Based Hybrid Microgrid
2024-07-31
776048 byte
Conference paper
Electronic Resource
English