Litcius/Paper detail

Switching Device-Cognizant Sequential Distribution System Restoration

Anmar Arif, Bai Cui, Zhaoyu Wang

2021IEEE Transactions on Power Systems32 citationsDOIOpen Access PDF

Abstract

This paper presents an optimization framework for sequential reconfiguration using an assortment of switching devices and repair process in distribution system restoration. Compared to existing studies, this paper considers types, capabilities and operational limits of different switching devices, making it applicable in practice. We develop a novel multi-phase method to find the optimal sequential operation of various switching devices and repair faulted areas. We consider circuit breakers, reclosers, sectionalizers, load breaker switches, and fuses. The switching operation problem is decomposed into two mixed-integer linear programming (MILP) subproblems. The first subproblem determines the optimal network topology and estimates the number of steps to reach that topology, while the second subproblem generates a sequence of switching operations to coordinate the switches. For repairing the faults, we design an MILP model that dispatches repair crews to clear faults and replace melted fuses. After clearing a fault, we update the topology of the network by generating a new sequence of switching operations, and the process continues until all faults are cleared. To improve the computational efficiency, a network reduction algorithm is developed to group line sections, such that only switchable sections are present in the reduced network. The proposed method is validated on the IEEE 123-bus and 8500-bus systems.

Topics & Concepts

RecloserCircuit breakerControl reconfigurationNetwork topologyComputer scienceInteger programmingFault (geology)Process (computing)Topology (electrical circuits)Linear programmingSequence (biology)Mathematical optimizationEngineeringAlgorithmComputer networkEmbedded systemElectrical engineeringMathematicsBiologyGeneticsGeologyOperating systemSeismologyOptimal Power Flow DistributionIslanding Detection in Power SystemsPower System Reliability and Maintenance