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Distributed and Asynchronous Active Fault Management for Networked Microgrids

Wenfeng Wan, Mikhail A. Bragin, Bing Yan, Yanyuan Qin, Jason Philhower, Peng Zhang, Peter B. Luh

2020IEEE Transactions on Power Systems34 citationsDOI

Abstract

A distributed and asynchronous active fault management (DA-AFM) method is developed to manage networked microgrids' (NMs) performance under balanced or unbalanced grid faults. The DA-AFM aims to (1) enable NMs' fast fault ride-through capabilities, (2) limit the total fault contributions by coordinating heterogeneous microgrids in the NM system, and (3) deploy software-defined networks (SDN) to ensure highly resilient AFM. The problem is formulated in an optimization form that can incorporate various fault management objectives and constraints in a programmable and flexible fashion. The scalability and resiliency of the DA-AFM system are guaranteed by adopting an SDN-enabled distributed and asynchronous surrogate Lagrangian relaxation (DA-SLR) algorithm, which avoids single point of failure, preserves privacy, and eliminates the idle waiting of other subproblems. Case studies are performed on a six-microgrid NM system to validate the effectiveness and efficacy of DA-AFM. Testing results show that DA-AFM has excellent convergence performance, supports plug-and-play, is resilient to communication delay and failures, meets real-time requirements and is scalable.

Topics & Concepts

ScalabilityAsynchronous communicationMicrogridSingle point of failureComputer scienceDistributed computingFault managementFault (geology)Fault toleranceNode (physics)EngineeringComputer networkSeismologyStructural engineeringControl (management)GeologyDatabaseArtificial intelligenceMicrogrid Control and OptimizationSoftware-Defined Networks and 5GCaching and Content Delivery
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