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Comparison of Electromagnetic Transient and Phasor-based Simulation for the Stability of Grid-Forming-Inverter-based Microgrids

Wei Du, Ankit Singhal, Francis Tuffner, Kevin P. Schneider

202122 citationsDOI

Abstract

The increasing interest in studying inverter-based microgrids requires appropriate simulation methods that can effectively simulate the dynamics of distribution feeders that typically have thousands of nodes. To examine the accuracy of phasor-based simulation for the stability of grid-forming-inverter-based microgrids, a comparative study between electromagnetic transient (EMT) and phasor-based simulation was conducted. Case studies of a two-inverter small microgrid and a modified version of the IEEE 34-Node Test System that has seven grid-forming inverters showthat phasor-based simulation agrees well with EMT simulation when the P-f droop gains of grid-forming inverter controllers are within normal ranges. However, under extremely high P-f droop gains, phasor-based simulation can result in over-optimistic stability results. This study provides insight into the applicability of phasor-based simulation for the stability of grid-forming-inverter-based microgrids.

Topics & Concepts

PhasorMicrogridVoltage droopInverterTransient (computer programming)GridStability (learning theory)Computer scienceControl theory (sociology)Electromagnetic simulationPhasor measurement unitEngineeringElectronic engineeringPower (physics)Electric power systemElectrical engineeringVoltageMathematicsPhysicsVoltage sourceControl (management)Quantum mechanicsArtificial intelligenceGeometryMachine learningOperating systemMicrogrid Control and OptimizationIslanding Detection in Power SystemsOptimal Power Flow Distribution