Multi-objective optimisation of power restoration in electricity distribution systems

Mendes, Alexandre; Boland, Natashia

Title: Multi-objective optimisation of power restoration in electricity distribution systems
Creator: Mendes, Alexandre; Boland, Natashia
Relation: 24th Australasian Joint Conference . AI 2011: Advances in Artificial Intelligence (Perth, W.A. 5-8 December, 2011) p. 779-788
Publisher Link: http://dx.doi.org/10.1007/978-3-642-25832-9_79
Publisher: Springer
Resource Type: conference paper
Date: 2011
Description: This paper proposes a new multi-objective approach for the problem of power restoration in (n-1) contingency situations. It builds on a previous, mono-objective approach introduced in Mendes et al. (2010) [14]. Power restoration normally relies on network reconfiguration, and typically involves re-switching and adjustment of tap-changers and capacitor banks. In this work, we focus on re-switching strategies. The quality of the re-switching strategy is measured in terms of voltage deviations, number of consumers still affected after the reconfiguration, number of overloaded branches and number of switches changes. Due to the number of criteria and conflicting objectives, power restoration is a prime candidate for multi-objective optimisation. The method studied is based on a genetic algorithm and was tested using two real-world networks, with up to of 1,645 branches and 158 switches. We present a contingency example for each network and discuss the results obtained. Finally, we discuss the approach’s convergence by analysing the evolution of the solutions that compose the Pareto frontier.
Subject: multi-objective optimisation; genetic algorithms; power distribution; electricity networks
Identifier: http://hdl.handle.net/1959.13/1355794
Identifier: uon:31535
Identifier: ISBN:9783642258312
Language: eng
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