MODELING AND CONTROL OF A MICROGRID POWERED BY RENEWABLE ENERGY SOURCES

Abstract

This research illustrates the remote operation of a hybrid sustainable aging system. The wind and the sun supply its energy. Double-fed induction generators (DFIGs) with maximum power point tracking technology convert wind energy into electrical power. Glass-like solar photovoltaic (PV) systems harness direct sunlight to produce electricity. It operates using the DFIG standard DC transit. The DC assist converter utilizes solar energy and MPPT algorithms to identify the sun's most intense rays. Energy sharing is facilitated by the DFIG's conventional DC transmission and battery storage systems. The technology is engineered to perform designated tasks for individuals and to operate in various real-world contexts. The system use external electricity to recharge batteries similarly. The voltage, repeat, and suspend functionalities of the load side converter are regulated by an adapted underhanded vector control mechanism. The battery power is considered when modifying the repeat frequency. The MATLAB Sim-Power System auxiliary reserve demonstrates the functionality of the structure under conditions of uneven weights or in the absence of solar or wind energy.