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Resilient Operation of Electric Power Distribution Grids Under Progressive Wildfires

Mostafa Nazemi, Payman Dehghanian, Mohannad Alhazmi, Yousef Mohammadi Darestani

2022IEEE Transactions on Industry Applications28 citationsDOI

Abstract

Wildfires have been growingly recognized as a prominent threat in regions with high temperatures during the summer. Power distribution systems, especially those passing through forest regions, are exposed and highly vulnerable to wildfires. This article provides a general formulation to enhance the operational resilience of power distribution networks equipped with renewable energy resources, e.g., wind and solar energy, micro turbines as well as energy storage systems when exposed to progressive wildfires. The wildfire incident is characterized comprehensively and the dynamic heat balance equations of power distribution branches are used to model the impacts of wildfires on overhead line conductors. A mixed-integer quadratic optimization formulation is applied to optimally operate and coordinate all local energy resources to reduce load outages and enhance the system resilience. The applied framework is evaluated on the IEEE 33-node test system. Comprehensive sensitivity analyses are conducted to assess the efficacy of the applied framework, where the numerical results reveal the resilient operation of power distribution networks in the face of wildfire emergencies.

Topics & Concepts

Overhead (engineering)Renewable energyResilience (materials science)Electric power systemComputer scienceEnvironmental sciencePower (physics)Reliability engineeringEngineeringElectrical engineeringPhysicsOperating systemThermodynamicsQuantum mechanicsOptimal Power Flow DistributionThermal Analysis in Power TransmissionInfrastructure Resilience and Vulnerability Analysis
Resilient Operation of Electric Power Distribution Grids Under Progressive Wildfires | Litcius