考虑历史飓风灾害的大规模合成配电网风险评估框架

Theincreasing frequency and severity of hurricane-induced disasters on power distribution networks highlight the growing importance of conducting thorough risk assessments. This paper introduces a hurricane risk assessment framework tailored for large-scale synthetic power distribution systems, aiming to enhance the practicality and accuracy of assessment significantly. The framework provides a refined method for synthesizing power distribution networks by assigning specific building types and importance levels to individual load points. This refinement enables the accurate modeling of the topological structure and physical characteristics of power distribution systems within specific geographic areas. By utilizing real historical hurricane data, the study simulates hurricane scenarios and outages closely resembling actual events, offering a more realistic portrayal of hurricane risks. Incorporating a novel risk indicator for quantitative assessment, each hurricane scenario in the assessment model undergoes evaluation through calculating weighted load reduction. Synthetic distribution networks are established for Emporia and Portsmouth to validate the approach, followed by risk assessment based on historical hurricane occurrences between 1940 and 2024 in both regions. The results underscore the importance of considering city-scale power distribution networks in hurricane risk assessment, as emphasized by the proposed method. Furthermore, the method's ability to accurately capture the impact of spatial heterogeneity of hurricane effects on risk assessment accuracy is demonstrated through comparisons of different hurricane trajectories.