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Hazard Resistance-Based Spatiotemporal Risk Analysis for Distribution Network Outages During Hurricanes

Luo Xu, Ning Lin, Dazhi Xi, Kairui Feng, H. Vincent Poor

2024IEEE Transactions on Power Systems12 citationsDOIOpen Access PDF

Abstract

In recent decades, blackouts have shown an increasing prevalence of power outages due to extreme weather events such as hurricanes. Precisely assessing the spatiotemporal outages in distribution networks, the most vulnerable part of power systems, is critical to enhancing power system resilience. The Sequential Monte Carlo (SMC) simulation method is widely used for spatiotemporal risk analysis of power systems during extreme weather hazards. However, it is found here that the SMC method can lead to large errors as it repeatedly samples the failure probability from the time-invariant fragility functions of system components in time-series analysis, particularly overestimating damages under evolving hazards with high-frequency sampling. To address this issue, a novel hazard resistance-based spatiotemporal risk analysis (HRSRA) method is proposed. This method converts the failure probability of a component into a hazard resistance and uses it as a time-invariant value in time-series analysis. The proposed HRSRA provides an adaptive framework for incorporating high-spatiotemporal-resolution meteorology models into power outage simulations. By leveraging the geographic information system data of the power system and a physics-based hurricane wind field model, the superiority of the proposed method is validated using real-world time-series power outage data from Puerto Rico, including data collected during Hurricane Fiona in 2022.

Topics & Concepts

HazardHazard analysisComputer scienceNetwork analysisReliability engineeringResistance (ecology)Risk analysis (engineering)EngineeringEnvironmental scienceBusinessElectrical engineeringChemistryEcologyOrganic chemistryBiologyInfrastructure Resilience and Vulnerability AnalysisTechnology and Security Systems
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