Energy network dispatch optimization under emergency of local energy shortage

The consequence of short-time energy shortage under extreme conditions, such as earthquake, tsunami, and hurricane, may cause local areas to suffer from delayed rescues, widespread power outages, tremendous economic losses, and even public safety threats. In such urgent events of local energy shorta...

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Veröffentlicht in:	Energy (Oxford) 2012-06, Vol.42 (1), p.132-145
Hauptverfasser:	Cai, Tianxing, Zhao, Chuanyu, Xu, Qiang
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Sprache:	eng
Schlagworte:	Applied sciences case studies earthquakes Emergency response plan Energy Energy dispatch network energy recovery Exact sciences and technology financial economics hurricanes linear programming MILP Optimization public safety transportation tsunamis uncertainty
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container_title	Energy (Oxford)
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creator	Cai, Tianxing Zhao, Chuanyu Xu, Qiang
description	The consequence of short-time energy shortage under extreme conditions, such as earthquake, tsunami, and hurricane, may cause local areas to suffer from delayed rescues, widespread power outages, tremendous economic losses, and even public safety threats. In such urgent events of local energy shortage, agile energy dispatching through an effective energy transportation network, targeting the minimum energy recovery time, should be a top priority. In this paper, a novel methodology is developed for energy network dispatch optimization under emergency of local energy shortage, which includes four stages of work. First, emergency-area-centered energy network needs to be characterized, where the capacity, quantity, and availability of various energy sources are determined. Second, the energy initial situation under emergency conditions needs to be identified. Then, the energy dispatch optimization is conducted based on a developed MILP (mixed-integer linear programming) model in the third stage. Finally, the sensitivity of the minimum dispatch time with respect to uncertainty parameters is characterized by partitioning the entire space of uncertainty parameters into multiple subspaces. The efficacy of the developed methodology is demonstrated via a case study with in-depth discussions. ► Address the energy network dispatch problem under emergency of local energy shortage. ► Minimize the energy restoration time for the entire energy network under emergency events. ► Develop a new MILP model and a sensitivity analysis method with respect to uncertainties.
doi_str_mv	10.1016/j.energy.2012.04.001
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subjects	Applied sciences case studies earthquakes Emergency response plan Energy Energy dispatch network energy recovery Exact sciences and technology financial economics hurricanes linear programming MILP Optimization public safety transportation tsunamis uncertainty
title	Energy network dispatch optimization under emergency of local energy shortage
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