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Topology-Agnostic, Scalable, Self-Healing, and Cost-Aware Protection of Microgrids

Phani Gadde, Sukumar Brahma

2021IEEE Transactions on Power Delivery22 citationsDOIOpen Access PDF

Abstract

Most microgrid protection schemes found in published literature suffer from a lack of generality in that they work well for the assumed topology, including type and placement of sources. Other generic protection schemes tend to be too complicated, too expensive, or both. To overcome these drawbacks, a topology-agnostic, scalable, and cost-aware protection based on fundamental principles that work in the presence of high penetration of inverter-based resources (IBRs) is developed and tested in this paper. The protection system also implements stable automatic reconfiguration of the healthy sections of the system after clearance of fault, thus increasing resilience by self-healing. To achieve this ambitious goal, stable inverter models are developed that operate in unbalanced networks in grid-connected and islanded modes, even with 100% IBRs, share power without conflicting controls, and can ride through faults while limiting fault currents. The scheme is tested for primary and backup protection and reconfiguration on the IEEE 123-node feeder in grid-connected and islanded modes with 15 IBRs connected to the system.

Topics & Concepts

Control reconfigurationMicrogridScalabilityBackupNetwork topologyComputer scienceFault tolerancePower-system protectionTopology (electrical circuits)GridDistributed computingReliability engineeringIEC 61850Electric power systemEngineeringPower (physics)Computer networkEmbedded systemElectrical engineeringControl (management)AutomationDatabaseMathematicsMechanical engineeringPhysicsGeometryArtificial intelligenceQuantum mechanicsIslanding Detection in Power SystemsMicrogrid Control and OptimizationPower Systems Fault Detection
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