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A multi-model probabilistic framework for seismic risk assessment and retrofit planning of electric power networks

Author

Listed:
  • Liang, Huangbin
  • Moya, Beatriz
  • Chinesta, Francisco
  • Chatzi, Eleni

Abstract

Electric power networks are critical lifelines, and their disruption during earthquakes can lead to severe cascading failures and significantly hinder post-disaster recovery. Enhancing their seismic resilience requires identifying and strengthening vulnerable components in a cost-effective and system-aware manner. However, existing studies often overlook the systemic behavior of power networks under seismic loading. Common limitations include isolated component analyses that neglect network-wide interdependencies, oversimplified damage models assuming binary states or damage independence, and the exclusion of electrical operational constraints. These simplifications can result in inaccurate risk estimates and inefficient retrofit decisions. This study proposes a multi-model probabilistic framework for seismic risk assessment and retrofit planning of electric power systems. The approach integrates: (1) regional seismic hazard characterization with ground motion prediction and spatial correlation models; (2) component-level damage analysis using fragility functions and multi-state damage–functionality mappings; (3) system-level cascading impact evaluation through graph-based island detection and constrained optimal power flow analysis; and (4) retrofit planning via heuristic optimization to minimize expected annual functionality loss (EAFL) under budget constraints. Uncertainty is propagated throughout the framework using Monte Carlo simulation. The methodology is demonstrated on the IEEE 24-bus Reliability Test System, showcasing its ability to capture cascading failures, identify critical components, and generate effective retrofit strategies. Results underscore the framework’s potential as a scalable, data-informed decision-support tool for enhancing the seismic resilience of power infrastructure.

Suggested Citation

  • Liang, Huangbin & Moya, Beatriz & Chinesta, Francisco & Chatzi, Eleni, 2026. "A multi-model probabilistic framework for seismic risk assessment and retrofit planning of electric power networks," Reliability Engineering and System Safety, Elsevier, vol. 268(C).
  • Handle: RePEc:eee:reensy:v:268:y:2026:i:c:s0951832025012001
    DOI: 10.1016/j.ress.2025.112001
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    References listed on IDEAS

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