Robust bi‐level programming for renewable energy location

Summary One of the key factors in the establishment of power plants is proper location, which entails addressing various criteria. Power plant establishment operations are included in the fundamental designs; in turn, comprehensive studies in this field seem to be a prerequisite. The most important...

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Veröffentlicht in:	International journal of energy research 2021-04, Vol.45 (5), p.7521-7534
Hauptverfasser:	Lotfi, Reza, Mardani, Nooshin, Weber, Gerhard‐Wilhelm
Format:	Artikel
Sprache:	eng
Schlagworte:	Bi‐Level programming Electric power generation Energy Environmental management Facility location Game theory Locating Parameter sensitivity Perturbation Power plants Programming Renewable energy Renewable resources Resource management Robust optimization Robustness Sensitivity analysis Uncertainty
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container_title	International journal of energy research
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creator	Lotfi, Reza Mardani, Nooshin Weber, Gerhard‐Wilhelm
description	Summary One of the key factors in the establishment of power plants is proper location, which entails addressing various criteria. Power plant establishment operations are included in the fundamental designs; in turn, comprehensive studies in this field seem to be a prerequisite. The most important innovation of the present study consists of applying the robust bi‐level programming technique and game theory (Stackelberg competition) for locating renewable energy sites. Robust stochastic method is implemented for the robustification of the model against variations (eg, noise and perturbation) and uncertain conditions. The Karush‐Kuhn‐Tucker (KKT) method is used for solving bi‐level programming. The obtained results reveal that the incorporation of uncertainties can enhance energy generation and supplier's profit. Furthermore, the objective functions of the proposed model are compared with those under conditions without uncertainties. A sensitivity analysis of major parameters is performed to validate the proposed model. By increasing uncertainty, generated energy decrease, and supplier's profit increase. The supplier's profit gradually diminishes by raising the discounting rate. Moreover, as scale of problems increases, the generated energy and supplier's profit are boosted.
doi_str_mv	10.1002/er.6332
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Power plant establishment operations are included in the fundamental designs; in turn, comprehensive studies in this field seem to be a prerequisite. The most important innovation of the present study consists of applying the robust bi‐level programming technique and game theory (Stackelberg competition) for locating renewable energy sites. Robust stochastic method is implemented for the robustification of the model against variations (eg, noise and perturbation) and uncertain conditions. The Karush‐Kuhn‐Tucker (KKT) method is used for solving bi‐level programming. The obtained results reveal that the incorporation of uncertainties can enhance energy generation and supplier's profit. Furthermore, the objective functions of the proposed model are compared with those under conditions without uncertainties. A sensitivity analysis of major parameters is performed to validate the proposed model. By increasing uncertainty, generated energy decrease, and supplier's profit increase. 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Power plant establishment operations are included in the fundamental designs; in turn, comprehensive studies in this field seem to be a prerequisite. The most important innovation of the present study consists of applying the robust bi‐level programming technique and game theory (Stackelberg competition) for locating renewable energy sites. Robust stochastic method is implemented for the robustification of the model against variations (eg, noise and perturbation) and uncertain conditions. The Karush‐Kuhn‐Tucker (KKT) method is used for solving bi‐level programming. The obtained results reveal that the incorporation of uncertainties can enhance energy generation and supplier's profit. Furthermore, the objective functions of the proposed model are compared with those under conditions without uncertainties. A sensitivity analysis of major parameters is performed to validate the proposed model. By increasing uncertainty, generated energy decrease, and supplier's profit increase. 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subjects	Bi‐Level programming Electric power generation Energy Environmental management Facility location Game theory Locating Parameter sensitivity Perturbation Power plants Programming Renewable energy Renewable resources Resource management Robust optimization Robustness Sensitivity analysis Uncertainty
title	Robust bi‐level programming for renewable energy location
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