A tri-level typhoon-DAD robust optimization framework to enhance distribution network resilience
Extreme natural disasters such as typhoon often cause failures in distribution networks within a short time, and even lead to large area blackouts. We propose a tri-level robust optimization framework that combines pre-disaster, in-disaster and post-disaster strategy comprehensively to enhance distr...
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sg-ntu-dr.10356-1802642024-09-25T08:13:03Z A tri-level typhoon-DAD robust optimization framework to enhance distribution network resilience Hou, Hui Wu, Wenjie Zhang, Zhiwei Wei, Ruizeng Wang, Lei He, Huan Dong, Zhao Yang School of Electrical and Electronic Engineering Engineering Typhoon disaster Resilience enhancement Extreme natural disasters such as typhoon often cause failures in distribution networks within a short time, and even lead to large area blackouts. We propose a tri-level robust optimization framework that combines pre-disaster, in-disaster and post-disaster strategy comprehensively to enhance distribution network resilience. The typhoons are regarded as attackers, and a tri-level Defender-Attacker-Defender model for typhoon disaster is used to integrate multiple resilience resources. In the first level, line hardening and distributed generation unit commitment are used to improve resilience in pre-disaster. The second level contains attack budget, attack time, hardening budget, repair time and load loss. It couples with the third level iteratively to generate the worst failure scenario under typhoon. In the third level, the Nested Column-and-Constraint Generation algorithm is used to solve distribution network reconfiguration and intentional islanding. Simulation time is spanned to the entire 24-hour disaster day. In the end, the proposed framework is tested through a case study using real data from super typhoon “Mangkhut” (2018) in Yangjiang, China. The result shows that it can effectively reduce load loss under the worst typhoon scenario and enhance distribution network resilience with limited resources. Ministry of Education (MOE) This work is supported in part by National Natural Science Foundation of China (52177110) and Shenzhen Science and Technology Program (JCYJ20210324131409026), Science and Technology Project of China Southern Power Grid (GDKJXM20210044 (036100KK52210047)), and partially supported by MOE Tier 1 (RG59/ 22) and MOE Tier 1 Thematic (RT9/22) Project. 2024-09-25T08:13:02Z 2024-09-25T08:13:02Z 2024 Journal Article Hou, H., Wu, W., Zhang, Z., Wei, R., Wang, L., He, H. & Dong, Z. Y. (2024). A tri-level typhoon-DAD robust optimization framework to enhance distribution network resilience. Reliability Engineering and System Safety, 245, 110004-. https://dx.doi.org/10.1016/j.ress.2024.110004 0951-8320 https://hdl.handle.net/10356/180264 10.1016/j.ress.2024.110004 2-s2.0-85185337427 245 110004 en RG59/22 RT9/22 Reliability Engineering and System Safety © 2024 Elsevier Ltd. All rights reserved. |
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Engineering Typhoon disaster Resilience enhancement |
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Engineering Typhoon disaster Resilience enhancement Hou, Hui Wu, Wenjie Zhang, Zhiwei Wei, Ruizeng Wang, Lei He, Huan Dong, Zhao Yang A tri-level typhoon-DAD robust optimization framework to enhance distribution network resilience |
| description |
Extreme natural disasters such as typhoon often cause failures in distribution networks within a short time, and even lead to large area blackouts. We propose a tri-level robust optimization framework that combines pre-disaster, in-disaster and post-disaster strategy comprehensively to enhance distribution network resilience. The typhoons are regarded as attackers, and a tri-level Defender-Attacker-Defender model for typhoon disaster is used to integrate multiple resilience resources. In the first level, line hardening and distributed generation unit commitment are used to improve resilience in pre-disaster. The second level contains attack budget, attack time, hardening budget, repair time and load loss. It couples with the third level iteratively to generate the worst failure scenario under typhoon. In the third level, the Nested Column-and-Constraint Generation algorithm is used to solve distribution network reconfiguration and intentional islanding. Simulation time is spanned to the entire 24-hour disaster day. In the end, the proposed framework is tested through a case study using real data from super typhoon “Mangkhut” (2018) in Yangjiang, China. The result shows that it can effectively reduce load loss under the worst typhoon scenario and enhance distribution network resilience with limited resources. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Hou, Hui Wu, Wenjie Zhang, Zhiwei Wei, Ruizeng Wang, Lei He, Huan Dong, Zhao Yang |
| format |
Article |
| author |
Hou, Hui Wu, Wenjie Zhang, Zhiwei Wei, Ruizeng Wang, Lei He, Huan Dong, Zhao Yang |
| author_sort |
Hou, Hui |
| title |
A tri-level typhoon-DAD robust optimization framework to enhance distribution network resilience |
| title_short |
A tri-level typhoon-DAD robust optimization framework to enhance distribution network resilience |
| title_full |
A tri-level typhoon-DAD robust optimization framework to enhance distribution network resilience |
| title_fullStr |
A tri-level typhoon-DAD robust optimization framework to enhance distribution network resilience |
| title_full_unstemmed |
A tri-level typhoon-DAD robust optimization framework to enhance distribution network resilience |
| title_sort |
tri-level typhoon-dad robust optimization framework to enhance distribution network resilience |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/180264 |
| _version_ |
1814047423760171008 |