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Quasi-Static Time-Series Power Flow Solution for Islanded and Unbalanced Three-Phase Microgrids

Vinicius C. Cunha, Taehyung Kim, Piyapath Siratarnsophon, Nicholas G. Barry, Surya Santoso, Walmir Freitas

2021IEEE Open Access Journal of Power and Energy17 citationsDOIOpen Access PDF

Abstract

Recent advances in inverter-based distributed energy resources (DERs) allow microgrids to operate in grid-connected and islanded modes with ease. However, determining a steady-state load flow solution of a real-world unbalanced and islanded three-phase microgrid remains a challenge. Existing methods are either unsuitable, labor-intensive or computationally demanding for a long-term analysis of islanded microgrids. To address these issues, we propose a practical solution framework that employs externally-updated system frequency, power quantities, and droop characteristics governing the voltage and phase angle of DERs in every iteration as inputs to an off-the-shelf open-source multi-phase, multi-wire, unbalanced power flow software tool to solve an islanded-microgrid power flow. Using our framework, users only need to implement a set of droop equations and update system variables. The power flow solution is accomplished entirely by an off-the-shelf power flow tool, e.g., OpenDSS. Our proposed framework can model a microgrid of any arbitrary configuration and operating condition. We demonstrate and validate the proposed method's efficacy by comparing its results with those modeled using a time-domain simulation with PSCAD/EMTDC. Finally, an example of a quasi-static time-series study is presented to better illustrate the application of such a tool.

Topics & Concepts

Series (stratigraphy)Power flowFlow (mathematics)Three-phasePhase (matter)Power (physics)Control theory (sociology)Computer scienceMathematicsEngineeringElectrical engineeringElectric power systemVoltagePhysicsThermodynamicsGeologyGeometryArtificial intelligenceControl (management)Quantum mechanicsPaleontologyMicrogrid Control and OptimizationIslanding Detection in Power SystemsOptimal Power Flow Distribution
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