Litcius/Paper detail

Decentralized Virtual Impedance- Conventional Droop Control for Power Sharing for Inverter-Based Distributed Energy Resources of a Microgrid

Elutunji Buraimoh, Anuoluwapo Aluko, Oluwafemi Emmanuel Oni, Innocent E. Davidson

2022Energies39 citationsDOIOpen Access PDF

Abstract

The work presents the power-sharing in a standalone low voltage AC microgrid consisting of three parallel grid supporting inverters using a virtual impedance-based droop system. Typically, isolated microgrids suffer unique challenges regarding voltage, current, frequency regulation, power flow control, and power-sharing due to the absence of a stiff AC grid source. This work investigated the power flow and sharing technical challenges using three inverter-based distributed energy sources, three static loads, and one dynamic load. These distributed energy sources are interconnected with the loads using low voltage line impedance within the microgrid to implement the uneven power distribution. Furthermore, a distributed grid supporting control utilizing virtual impedance is proposed in this work to improve power-sharing. The microgrid model is developed with the MATLAB Simulink environment and validated using the Opal RT OP4510 simulator. The proposed technique ensured improved power-sharing and mitigated the effect of voltage drops introduced through a virtual impedance using combined positive and negative virtual.

Topics & Concepts

MicrogridVoltage droopDistributed generationPower (physics)Computer scienceAC powerInverterGridElectrical impedanceDistributed powerElectronic engineeringVoltageElectrical engineeringEngineeringVoltage sourceRenewable energyQuantum mechanicsMathematicsGeometryPhysicsMicrogrid Control and OptimizationSmart Grid Energy ManagementIslanding Detection in Power Systems