Hierarchical Load Restoration for Integrated Transmission and Distribution Systems With Multi-Microgrids

This paper proposes a novel integrated restoration method for transmission (TS) and active distribution systems (DS). The proposed method capitalizes on multi-microgrids' (MMGs') enhanced controllability across multiple levels of the modern bulk power system (BPS) to develop a new constrai...

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Veröffentlicht in:	IEEE transactions on power systems 2024-11, Vol.39 (6), p.7050-7063
Hauptverfasser:	Monteiro, Maira Ribas, de Souza, A. C. Zambroni, Abdelaziz, Morad Mohamed Abdelmageed
Format:	Artikel
Sprache:	eng
Schlagworte:	Bulk power system restoration constraint hierarchy Constraints Controllability coordination of transmission and active distribution systems Distributed generation Electrical loads Frequency control frequency reserves Integer programming Linear programming Mixed integer mixed-integer linear programming multi-microgrids Optimization Power system dynamics Process control Regulation Restoration Stability criteria
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container_issue	6
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container_title	IEEE transactions on power systems
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creator	Monteiro, Maira Ribas de Souza, A. C. Zambroni Abdelaziz, Morad Mohamed Abdelmageed
description	This paper proposes a novel integrated restoration method for transmission (TS) and active distribution systems (DS). The proposed method capitalizes on multi-microgrids' (MMGs') enhanced controllability across multiple levels of the modern bulk power system (BPS) to develop a new constraint hierarchy approach, formulating the restoration problem as three mixed-integer linear programming (MILP) subproblems. Based on the constraint hierarchy approach, the coordinated load restoration process is able to overcome the multiple regulations and jurisdictions limitations imposed on sharing resources between DS- and TS-level, while significantly reducing computational burden compared to non-linear methods. This critical feature not addressed in the literature can lead to unfeasible solutions and meaningfully compromise the restoration performance. Moreover, the developed method can unlock and coordinate the previously inaccessible resource transactions between different BPS levels, i.e., local-local (DS) and global-local (TS) levels. Therefore, significantly improving load pick-up capacity, service capability, and restoration time at both DS- and TS-level. Finally, comparative case studies with state-of-the-art and benchmark strategies are used to validate the proposed method. The obtained results showcase the effectiveness and advantages of the proposed method in enhancing the coordination of integrated TS- and active DS-restoration process.
doi_str_mv	10.1109/TPWRS.2024.3381120
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This critical feature not addressed in the literature can lead to unfeasible solutions and meaningfully compromise the restoration performance. Moreover, the developed method can unlock and coordinate the previously inaccessible resource transactions between different BPS levels, i.e., local-local (DS) and global-local (TS) levels. Therefore, significantly improving load pick-up capacity, service capability, and restoration time at both DS- and TS-level. Finally, comparative case studies with state-of-the-art and benchmark strategies are used to validate the proposed method. 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Zambroni</creatorcontrib><creatorcontrib>Abdelaziz, Morad Mohamed Abdelmageed</creatorcontrib><title>Hierarchical Load Restoration for Integrated Transmission and Distribution Systems With Multi-Microgrids</title><title>IEEE transactions on power systems</title><addtitle>TPWRS</addtitle><description>This paper proposes a novel integrated restoration method for transmission (TS) and active distribution systems (DS). The proposed method capitalizes on multi-microgrids' (MMGs') enhanced controllability across multiple levels of the modern bulk power system (BPS) to develop a new constraint hierarchy approach, formulating the restoration problem as three mixed-integer linear programming (MILP) subproblems. Based on the constraint hierarchy approach, the coordinated load restoration process is able to overcome the multiple regulations and jurisdictions limitations imposed on sharing resources between DS- and TS-level, while significantly reducing computational burden compared to non-linear methods. This critical feature not addressed in the literature can lead to unfeasible solutions and meaningfully compromise the restoration performance. Moreover, the developed method can unlock and coordinate the previously inaccessible resource transactions between different BPS levels, i.e., local-local (DS) and global-local (TS) levels. Therefore, significantly improving load pick-up capacity, service capability, and restoration time at both DS- and TS-level. Finally, comparative case studies with state-of-the-art and benchmark strategies are used to validate the proposed method. 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Zambroni ; Abdelaziz, Morad Mohamed Abdelmageed</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c247t-99f42d1269a84f0502a2d8d79e8d6ab9084b577da5376b2575aaafd3500fc5b33</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2024</creationdate><topic>Bulk power system restoration</topic><topic>constraint hierarchy</topic><topic>Constraints</topic><topic>Controllability</topic><topic>coordination of transmission and active distribution systems</topic><topic>Distributed generation</topic><topic>Electrical loads</topic><topic>Frequency control</topic><topic>frequency reserves</topic><topic>Integer programming</topic><topic>Linear programming</topic><topic>Mixed integer</topic><topic>mixed-integer linear programming</topic><topic>multi-microgrids</topic><topic>Optimization</topic><topic>Power system dynamics</topic><topic>Process control</topic><topic>Regulation</topic><topic>Restoration</topic><topic>Stability criteria</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Monteiro, Maira Ribas</creatorcontrib><creatorcontrib>de Souza, A. 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Based on the constraint hierarchy approach, the coordinated load restoration process is able to overcome the multiple regulations and jurisdictions limitations imposed on sharing resources between DS- and TS-level, while significantly reducing computational burden compared to non-linear methods. This critical feature not addressed in the literature can lead to unfeasible solutions and meaningfully compromise the restoration performance. Moreover, the developed method can unlock and coordinate the previously inaccessible resource transactions between different BPS levels, i.e., local-local (DS) and global-local (TS) levels. Therefore, significantly improving load pick-up capacity, service capability, and restoration time at both DS- and TS-level. Finally, comparative case studies with state-of-the-art and benchmark strategies are used to validate the proposed method. 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subjects	Bulk power system restoration constraint hierarchy Constraints Controllability coordination of transmission and active distribution systems Distributed generation Electrical loads Frequency control frequency reserves Integer programming Linear programming Mixed integer mixed-integer linear programming multi-microgrids Optimization Power system dynamics Process control Regulation Restoration Stability criteria
title	Hierarchical Load Restoration for Integrated Transmission and Distribution Systems With Multi-Microgrids
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