Abstract:
Global environmental changes, nuclear power dangers, grid losses, and rising energy costs are driving the demand for renewable electricity. Smart towns and institutions with smart grid systems are now preferred by most people.
The majority of smart grid systems use hybrid energy sources, making energy management difficult. Thus, an intelligent energy management controller must be designed. Using fuzzy logic and fractional-order proportional-integral-derivative (FO-PID) controller approaches, this research offers a smart DC-microgrid energy management controller.
Battery bank, wind energy, and PV energy make up the DC-microgrid’s hybrid energy sources. The new intelligent fractional order PID method controls source-side converters (SSCs) to maximize wind and PV output and improve DC-microgrid power quality.
Wind and PV energy sources are emphasized for microgrid cost-effectiveness. Smooth output power and service continuity are guaranteed by the suggested controller. The proposed control schema is simulated in Matlab/Simulink and compared to the super twisting fractional-order controller.
Note: Please discuss with our team before submitting this abstract to the college. This Abstract or Synopsis varies based on student project requirements.