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Co-Optimizing Substation Hardening and Transmission Expansion Against Earthquakes: A Decision-Dependent Probability Approach

Diego Alexander Garzón Alvarado, Rodrigo Moreno, Alexandre Street, Mathaios Panteli, Pierluigi Mancarella, Goran Štrbac

2022IEEE Transactions on Power Systems31 citationsDOI

Abstract

In light of the rising frequency and impact of natural hazards on power systems, planning resilient network investments is becoming increasingly important. This task, however, needs, in addition to widely accepted investment options focused on installing new infrastructure, explicit recognition of investment propositions to harden existing infrastructure such as substations. Hardening networks is fundamentally challenging to incorporate in optimization problems since it affects outage probabilities. Therefore, we propose an optimization approach to determine optimal portfolios of resilient network investments, considering endogenous probabilities that change with hardening investment options. This decision-dependent-probability model finds the optimal network enhancements in a cost-benefit fashion, minimizing investment plus operational costs, including demand curtailments. The proposed model also considers distributed energy resources (DER), which can displace costly network investments. Additionally, the model takes into account the lack of fully accurate fragility curves; thus, outage probabilities are not only affected by hardening decisions but also by the inherent uncertainty associated with fragility modeling. This is a key concern in practical resilience assessment and is addressed in this work through a global-convergent exact algorithm. Case studies applied on earthquakes in Chile demonstrate the benefits of our proposed network planning approach.

Topics & Concepts

FragilityInvestment decisionsRisk analysis (engineering)Computer scienceKey (lock)Investment (military)Investment strategyPower transmissionOperations researchReliability engineeringMathematical optimizationEngineeringEconomicsPower (physics)BusinessMicroeconomicsProduction (economics)Profit (economics)Computer securityMathematicsPhysical chemistryQuantum mechanicsChemistryLawPhysicsPolitical sciencePoliticsInfrastructure Resilience and Vulnerability AnalysisRisk and Portfolio OptimizationElectric Power System Optimization