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Service Restoration for Resilient Distribution Systems Coordinated With Damage Assessment

Yiheng Bian, Chen Chen, Yuxiong Huang, Zhaohong Bie, João P. S. Catalào

2021IEEE Transactions on Power Systems46 citationsDOI

Abstract

The time required to restore distribution systems following an extreme event is highly dependent on damage assessment. Waiting for field assessors patrolling the feeders to identify fault locations is a bottleneck in improving restoration efficiency. This paper proposes an optimal service restoration model for resilient distribution systems considering the coordination with damage assessment, as a contribution to earlier studies. The restoration actions such as fault isolation, network reconfiguration, crew mobilization and fault repair are brought forward to the damage assessment stage and the restoration schedules are dynamically updated with the reveal of the damage status. The relationship between fault location, switch status and node status is established to optimize the network topology and guarantee crew operation safety under the condition that the network has multiple faults or unchecked potential faulted areas. Moreover, the crew routing formulations are modified to enable fault isolation and load island reconnection by manual switches during the restoration process. Case studies validate the effectiveness of the proposed model in reducing load shedding and restoration duration.

Topics & Concepts

Reliability engineeringCrewBottleneckControl reconfigurationFault managementResilience (materials science)Fault (geology)Computer scienceEngineeringProcess (computing)Node (physics)Embedded systemAeronauticsPhysicsGeologySeismologyOperating systemStructural engineeringThermodynamicsOptimal Power Flow DistributionIslanding Detection in Power SystemsPower System Reliability and Maintenance
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