Enhancing resilience of integrated electricity-gas systems: a skeleton-network based strategy
The increasing frequency of major energy outages in recent years has significantly affected millions of people around the world, raising extensive concerns about enhancing infrastructure resilience to withstand and quickly recover from disasters. However, the post-disaster recovery of infrastructure...
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sg-ntu-dr.10356-1640182023-01-03T01:14:26Z Enhancing resilience of integrated electricity-gas systems: a skeleton-network based strategy Sang, Maosheng Ding, Yi Bao, Minglei Song, Yonghua Wang, Peng School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Integrated Electricity-Gas System Resilience Enhancement The increasing frequency of major energy outages in recent years has significantly affected millions of people around the world, raising extensive concerns about enhancing infrastructure resilience to withstand and quickly recover from disasters. However, the post-disaster recovery of infrastructure functionality has been hindered by the lack of interdependency modeling of energy networks and priority identification of components, resulting in long-duration energy supply scarcity, wide-ranging service disruption, and huge social losses. Here, a skeleton-network based strategy for enhancing the resilience of integrated electricity-gas systems (IEGSs) is proposed, which can provide a clear representation of which network components should be protected and how to determine the component recovery priority considering interdependencies of power and gas systems. Using the modified energy systems in New England and Northwest China, the skeleton-network is uncovered to quickly recover more than 90% of system functionality using less than 44.3% of total resources, and consumer-affected time by energy outages decreases by more than 53%. The analysis also indicates that compared to conventional methods, the skeleton-network based strategy performs best in improving infrastructure resilience. These results elucidate the implications of skeleton-networks on quick recovery of infrastructure functionality and demonstrate resilience enhancement methods that are applicable to a wider class of coupled infrastructure networks in hazard-prone areas. Published version The research is supported by the National Science Fund for Distinguished Young Scholars under Grant 52125702 and the China NSFC under Grant 71871200. 2023-01-03T01:14:26Z 2023-01-03T01:14:26Z 2022 Journal Article Sang, M., Ding, Y., Bao, M., Song, Y. & Wang, P. (2022). Enhancing resilience of integrated electricity-gas systems: a skeleton-network based strategy. Advances in Applied Energy, 7, 100101-. https://dx.doi.org/10.1016/j.adapen.2022.100101 2666-7924 https://hdl.handle.net/10356/164018 10.1016/j.adapen.2022.100101 2-s2.0-85136000353 7 100101 en Advances in Applied Energy © 2022 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). application/pdf |
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Engineering::Electrical and electronic engineering Integrated Electricity-Gas System Resilience Enhancement Sang, Maosheng Ding, Yi Bao, Minglei Song, Yonghua Wang, Peng Enhancing resilience of integrated electricity-gas systems: a skeleton-network based strategy |
| description |
The increasing frequency of major energy outages in recent years has significantly affected millions of people around the world, raising extensive concerns about enhancing infrastructure resilience to withstand and quickly recover from disasters. However, the post-disaster recovery of infrastructure functionality has been hindered by the lack of interdependency modeling of energy networks and priority identification of components, resulting in long-duration energy supply scarcity, wide-ranging service disruption, and huge social losses. Here, a skeleton-network based strategy for enhancing the resilience of integrated electricity-gas systems (IEGSs) is proposed, which can provide a clear representation of which network components should be protected and how to determine the component recovery priority considering interdependencies of power and gas systems. Using the modified energy systems in New England and Northwest China, the skeleton-network is uncovered to quickly recover more than 90% of system functionality using less than 44.3% of total resources, and consumer-affected time by energy outages decreases by more than 53%. The analysis also indicates that compared to conventional methods, the skeleton-network based strategy performs best in improving infrastructure resilience. These results elucidate the implications of skeleton-networks on quick recovery of infrastructure functionality and demonstrate resilience enhancement methods that are applicable to a wider class of coupled infrastructure networks in hazard-prone areas. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Sang, Maosheng Ding, Yi Bao, Minglei Song, Yonghua Wang, Peng |
| format |
Article |
| author |
Sang, Maosheng Ding, Yi Bao, Minglei Song, Yonghua Wang, Peng |
| author_sort |
Sang, Maosheng |
| title |
Enhancing resilience of integrated electricity-gas systems: a skeleton-network based strategy |
| title_short |
Enhancing resilience of integrated electricity-gas systems: a skeleton-network based strategy |
| title_full |
Enhancing resilience of integrated electricity-gas systems: a skeleton-network based strategy |
| title_fullStr |
Enhancing resilience of integrated electricity-gas systems: a skeleton-network based strategy |
| title_full_unstemmed |
Enhancing resilience of integrated electricity-gas systems: a skeleton-network based strategy |
| title_sort |
enhancing resilience of integrated electricity-gas systems: a skeleton-network based strategy |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/164018 |
| _version_ |
1754611278979006464 |