


Volume 20 No 20 (2022)
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ADAPTIVE FUZZY LOGIC CONTROLLER-BASED EMS AND DYNAMIC PERFORMANCE OF GRID INTEGRATED MICROGRID.
K. Sai Sree Pooja , D. Krishna ,T. Anil Kumar
Abstract
An efficient energy management system for a small-scale hybrid wind-solar-batterybased microgrid is
to be proposed in this paper. By the proposed control system, the battery energy storage system
(BESS) participates in the microgrid energy management and plays a role in voltage regulation
andcompensating for current harmonic, unbalance, and reactive power due to the presence of
nonlinear loads. In this project, there is a proposal for a battery-aware energy management system
based on adaptive fuzzy logic (SOC), voltage control, current control and dynamic performance
improvement is also considered. To validate the application of the proposed control system,
simulations need to be performed in MATLAB/Simulink software. The simulation results confirm and
prove the efficiency of the proposed control system.
Keywords
An efficient energy management system for a small-scale hybrid wind-solar-batterybased microgrid is to be proposed in this paper. By the proposed control system, the battery energy storage system (BESS) participates in the microgrid energy management and plays a role in voltage regulation andcompensating for current harmonic, unbalance, and reactive power due to the presence of nonlinear loads. In this project, there is a proposal for a battery-aware energy management system based on adaptive fuzzy logic (SOC), voltage control, current control and dynamic performance improvement is also considered. To validate the application of the proposed control system, simulations need to be performed in MATLAB/Simulink software. The simulation results confirm and prove the efficiency of the proposed control system.
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