Blocking cascading failures with optimal corrective transmission switching considering available correction time

•A modified optimal corrective TS formulation considering the pre-contingency steady-state operation is proposed.•The action time of the temperature relay is employed to reflect the available time that can be used to take corrective actions.•Two methods are proposed to validate the feasibility of th...

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Bibliographic Details
Published in:International journal of electrical power & energy systems 2022-10, Vol.141, p.108248, Article 108248
Main Authors: Yang, Shenhao, Chen, Weirong, Zhang, Xuexia, Jiang, Yu
Format: Article
Language:English
Subjects:
Cascading failure
Contingency
Network topology control
Temperature relay
Transmission switching
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Summary:•A modified optimal corrective TS formulation considering the pre-contingency steady-state operation is proposed.•The action time of the temperature relay is employed to reflect the available time that can be used to take corrective actions.•Two methods are proposed to validate the feasibility of the corrective solutions.•A comprehensive method is proposed for blocking cascading failures. Corrective transmission switching has been a promising technic for handling contingencies in power systems. The corrective solutions obtained from optimal formulations or heuristic methods are usually considered executable. However, when considering the contingency-induced cascading failures, where the temperature relay of lines may act quickly, the systems may have not enough time to take corrective actions. Thus some corrective solutions may be infeasible in practical applications. To further study the feasibility of corrective solutions, in this paper, considering the available correction time, which is derived from a continuous temperature evolution model, two methods are proposed to validate the corrective solutions obtained from a modified optimal corrective transmission switching formulation. Besides, based on the available correction time, a comprehensive method is proposed to block cascading failures and a critical index is proposed to evaluate critical cascading failures. Numeric studies on test systems show that there are considerable infeasible solutions in the solutions obtained from the optimal corrective formulation, which indicates that it is critical to consider the available correction time when utilizing the corrective solutions in real cases. Results also show the proposed comprehensive method and index are effective to handle cascading failures.
ISSN:0142-0615
1879-3517
DOI:10.1016/j.ijepes.2022.108248