The aim of proposed microgrid is to maintain overall power quality while supplying reliable electricity to local loads in off-grid/rural areas when the system experiences load and source interruptions. The energy from the solar and wind energy renewable sources is extracted and provided to local loads in rural areas that are connected to a common AC bus via parallel converters. Moreover, the operation of multiple voltage source converters is responsible of uninterrupted power flow from sources to loads while alleviating the power quality issues. The converter connected to the wind energy conversion system serves as a grid-forming converter, and the battery energy storage is connected to DC bus to act power management entity during intermittency. In contrast to other AC generators, the BLDC generator is utilised for generating variable power from wind energy source as it is not impacted by fluctuations in voltage at the point of common coupling. The ability of parallel converter operation and entirety microgrid response utilising a robust control technique are validated in the MATLAB Simulink environment, and the insights gained are provided in this study as evidence to support their efficacy.
Operation of Autonomous AC Microgrid for Powering Rural Consumers
09.08.2023
1470872 byte
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
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