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Hydroclimate-coupled framework for assessing power system resilience under summer drought and climate change

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  • Shuai, Hang
  • Li, Fangxing
  • Zhu, Jinxiang
  • Tingen, William Jerome
  • Mukherjee, Srijib

Abstract

Extreme drought, exacerbated by climate change, increasingly threatens power system resilience, and a systematic assessment of such impacts is challenging due to the unpredictability of drought and their associated modeling complexity. To address the challenge, this research develops a hydroclimate-coupled power system resilience assessment framework that enables systematic modeling of drought and climate change impacts on generation, transmission, and demand sectors. Applying the framework to the 2025 Eastern U.S. power grid — comprising 6,055 at-risk generators — under climate-induced summer drought scenarios (including SSP126, SSP245, SSP370, and SSP585) from 2023 to 2100, the study finds that climate-induced droughts could jeopardize the power system’s reliability to a greater extent than historical events, potentially leading to widespread load shedding. More specifically, the study reveals that under the twenty-one representative drought scenarios, the loss of load expectation (LOLE) of the grid could range from 34.77 to 91.48 days per summer. The simulations indicate that implementing resilience enhancement strategies is crucial to ensure reliable system operation, which encompasses initiatives such as demand response, upgrading open cooling systems, and transmission expansion. In all, these findings underscore the urgent need for proactive planning and investment in resilient U.S. power systems to mitigate the impacts of extreme drought events.

Suggested Citation

  • Shuai, Hang & Li, Fangxing & Zhu, Jinxiang & Tingen, William Jerome & Mukherjee, Srijib, 2025. "Hydroclimate-coupled framework for assessing power system resilience under summer drought and climate change," Renewable and Sustainable Energy Reviews, Elsevier, vol. 213(C).
  • Handle: RePEc:eee:rensus:v:213:y:2025:i:c:s136403212500070x
    DOI: 10.1016/j.rser.2025.115397
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