Advanced Compensation Methods for Isolated Unsymmetrical Three-Phase Multiple Microgrids Employing Energy Storage System (ESS)

Abstract

The integration of unbalanced loads into three-phase microgrids (MGs) will be the emphasis of this study. The power quality difficulties that arise when the point of common coupling (PCC) is reached, will be the primary concern of this investigation. A few of these issues include unbalanced power flow, voltage, and the sharing of reactive power in an unbalanced manner. An energy storage system (ESS) that makes use of innovative control algorithms is used to correct the imbalances that occur in island multi-microgrids (MMGs). The reactive power generated by the MMG is balanced by the ESS’s two types of control approaches, modified reverse droop control and multifunction control. The active and reactive power references needed by the ESS are likewise produced by these control methods. The proposed control algorithms ensure that PV inverters of varying ratings have optimal load power distribution, hence minimizing power imbalances and PCC voltage in the MMG. The MATLAB/SIMULINK application may be used to do an analysis on the outcomes of the simulation.