Abstract
The increasing occurrence of extreme weather events urges us to reevaluate the resiliency and vulnerability aspects of our most critical infrastructures — such as power grids — as their failures result in both economic loss and severe human hardship. Seen through the lens of alleviating human suffering, it is crucial to be able to identify critical system components of the infrastructure for targeted hardening given resource constraints. This effort is of particular importance in islanded areas such as Puerto Rico where hurricanes are frequent and resources are limited, and where the spatially diverse effects of power loss on human suffering are all the more severe. Recent studies on evaluating infrastructure networks during extreme weather events have taken a simulation based approach that incorporates a variety of component models, such as weather realizations, topological network models, fragility models, and power flow models to estimate expected loss of service. In this work, we expand such a Component Based Event Simulation (CBES) methodology proposed in the literature and integrate it with a social vulnerability modeling component. This paradigm-advancing approach of synthesizing the cutting edge capability of power network modeling and the social impacts of the power transmission network failure is demonstrated for the island of Puerto Rico. Our work exemplifies the efficacy of this integrated modeling framework in developing a decision metric for targeted transmission line hardening.
Original language | English |
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Article number | 103357 |
Journal | International Journal of Disaster Risk Reduction |
Volume | 82 |
DOIs | |
State | Published - Nov 2022 |
Funding
This research was partially funded by U.S. National Science Foundation grant, NSF-CRISP 2.0 1832678 . The authors would like to thank colleagues of the NSF-CRISP Enhancing Resilience in Islanded Communities team (eric21.org) for fruitful discussions which influenced this work.
Funders | Funder number |
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NSF-CRISP | 2.0 1832678 |
National Science Foundation |
Keywords
- Grid hardening
- Power networks
- Social vulnerability