Enhancing Power Grid Resilience: A Novel Labeling System for Assessing Climate Vulnerabilities in US Substations
Abstract
Power grids are essential infrastructure networks composed of components including transformers, circuit breakers, and
substations, which guarantee the reliable delivery of electricity throughout the world. Climate change poses significant
risks to these systems through factors, such as increased flood risk and extreme weather events. To address the
vulnerability of power grids to these climate impacts, our study develops an innovative system for labeling the
components of power substations, enabling a detailed analysis of their exposure to external stressors. Our research
catalogs over 1300 substations across the United States using this labeling system. In our ongoing research, we aim to
use our comprehensive database and intersect it with tropical storm data under various climate scenarios, creating visual
representations of our hazard analysis. These visualizations will highlight the specific vulnerabilities within the power grid
when exposed to different storm conditions, allowing for precise simulations of their performance during extreme
weather events. Additionally, our ongoing research aims to provide deeper insights into the long-term degradation and
economic costs associated with these impacts. Initial results demonstrate the potential of our approach to enhance the
predictive accuracy of climate impact models on power infrastructure. The findings for our study prove to be significant,
offering critical information that can inform future strategies to bolster the resilience of the US power grid against
climate-related challenges, ensuring the reliability and stability of electricity delivery for all across the globe.
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