DC MICROGRID WITH ENERGY STORAGE SYSTEM and HYBRID DISTRIBUTED GENERATION COORDINATION CONTROL USING FUZZY LOGIC CONTROL

Distributed generators (DGs) will be installed in wealthy and developing nations with generous incentives. Due to the interconnection of sources that produce DC output like battery, panels of sunlight, and fuel cell without the need for a transformer to change the voltage, DC microgrids have become popular worldwide. Specifically, in this research, in some dynamic scenarios, it is recommended that the solar panel system be combined with a fuel cell and a battery bank to form a DC microgrid. Fuzzy logic controllers are also recommended for bus voltage regulation and power balance. Multiple dynamic situations have been evaluated on the system, such as 50% AC/DC load shifts, varying irradiance levels, overloading, and battery bank performance in the presence of FC variations. The dynamic performance of the suggested energy storage devices is shown to be improved by the simulation results, suggesting that the fuzzy logic control based proposed technique is effective.