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Abstract
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In this paper, a real time methodology is proposed to optimize post-earthquake restoration of lifeline network systems. The methodology is new in that at first, it finds all possible flow paths from sources to demand nodes and then it optimizes the restoration plan considering all the possible flow paths that supply flow to main nodes within the network, therefore, the most reliable path flow to each demand node could be find. Further, performance of the optimized worker allocation and restoration priority are evaluated by considering socio-economic class of customers. The methodology considers all possible earthquake hazards that might affect the system network. The proposed methodology is applied to the power supply network of Tehran Regional Electric Company (TREC) as a large-scale power network under all seismic hazards, i.e. wave propagation, landslide, liquefaction and fault rupture. Obtained results show the good tendency as to restoration curves when compared with ones during past earthquakes. Simulated results show rational outputs applicable to the restoration plan for lifeline network systems.
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