Unequal power outages induced by natural disasters

Bo Wang; Han Shi; Yueming ‘Lucy’ Qiu; Nana Deng; Destenie Nock; Xingchi Shen; Zhaohua Wang; Yi ‘David’ Wang

doi:10.1038/s41467-025-64012-x

Unequal power outages induced by natural disasters

Bo Wang
, Han Shi^*
, Yueming ‘Lucy’ Qiu^*
, Nana Deng^*
, Destenie Nock
, Xingchi Shen
, Zhaohua Wang^*
, Yi ‘David’ Wang

^*此作品的通讯作者

Beijing Institute of Technology
Ministry of Industry and Information Technology
University of Maryland, College Park
Carnegie Mellon University
Shanghai Jiao Tong University
Virginia Polytechnic Institute and State University

科研成果: 期刊稿件 › 文章 › 同行评审

2 引用（Scopus）

摘要

Natural disasters increasingly threaten energy system reliability. However, little empirical research has examined the unequal impact of such events on power outages. Here, we employ a nationwide high-frequency point-level power outage and natural disasters dataset in China, spanning from 2019 to 2021, to empirically assess the impact of natural disasters on power outages. We focus on the poverty counties, identified by the Chinese government, based on income, infrastructure, geographical location, and other criteria. We find that these impacts of natural disasters on power outage are not distributed evenly between poverty counties (5.19% and 8.96% increase in frequency and duration, respectively) and non-poverty counties (3.80% and 5.34%). Long-term projections under SSP-RCP scenarios suggest that climate change exacerbates the disparity. This paper highlights the need for planners to evaluate disaster-induced outages in vulnerable regions to target climate funds to areas with the utmost necessity.

源语言	英语
文章编号	8947
期刊	Nature Communications
卷	16
期	1
DOI	https://doi.org/10.1038/s41467-025-64012-x
出版状态	已出版 - 12月 2025
已对外发布	是

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title = "Unequal power outages induced by natural disasters",

abstract = "Natural disasters increasingly threaten energy system reliability. However, little empirical research has examined the unequal impact of such events on power outages. Here, we employ a nationwide high-frequency point-level power outage and natural disasters dataset in China, spanning from 2019 to 2021, to empirically assess the impact of natural disasters on power outages. We focus on the poverty counties, identified by the Chinese government, based on income, infrastructure, geographical location, and other criteria. We find that these impacts of natural disasters on power outage are not distributed evenly between poverty counties (5.19\% and 8.96\% increase in frequency and duration, respectively) and non-poverty counties (3.80\% and 5.34\%). Long-term projections under SSP-RCP scenarios suggest that climate change exacerbates the disparity. This paper highlights the need for planners to evaluate disaster-induced outages in vulnerable regions to target climate funds to areas with the utmost necessity.",

author = "Bo Wang and Han Shi and Qiu, \{Yueming {\textquoteleft}Lucy{\textquoteright}\} and Nana Deng and Destenie Nock and Xingchi Shen and Zhaohua Wang and Wang, \{Yi {\textquoteleft}David{\textquoteright}\}",

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doi = "10.1038/s41467-025-64012-x",

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AU - Wang, Bo

AU - Shi, Han

AU - Qiu, Yueming ‘Lucy’

AU - Deng, Nana

AU - Nock, Destenie

AU - Shen, Xingchi

AU - Wang, Zhaohua

AU - Wang, Yi ‘David’

PY - 2025/12

Y1 - 2025/12

N2 - Natural disasters increasingly threaten energy system reliability. However, little empirical research has examined the unequal impact of such events on power outages. Here, we employ a nationwide high-frequency point-level power outage and natural disasters dataset in China, spanning from 2019 to 2021, to empirically assess the impact of natural disasters on power outages. We focus on the poverty counties, identified by the Chinese government, based on income, infrastructure, geographical location, and other criteria. We find that these impacts of natural disasters on power outage are not distributed evenly between poverty counties (5.19% and 8.96% increase in frequency and duration, respectively) and non-poverty counties (3.80% and 5.34%). Long-term projections under SSP-RCP scenarios suggest that climate change exacerbates the disparity. This paper highlights the need for planners to evaluate disaster-induced outages in vulnerable regions to target climate funds to areas with the utmost necessity.

AB - Natural disasters increasingly threaten energy system reliability. However, little empirical research has examined the unequal impact of such events on power outages. Here, we employ a nationwide high-frequency point-level power outage and natural disasters dataset in China, spanning from 2019 to 2021, to empirically assess the impact of natural disasters on power outages. We focus on the poverty counties, identified by the Chinese government, based on income, infrastructure, geographical location, and other criteria. We find that these impacts of natural disasters on power outage are not distributed evenly between poverty counties (5.19% and 8.96% increase in frequency and duration, respectively) and non-poverty counties (3.80% and 5.34%). Long-term projections under SSP-RCP scenarios suggest that climate change exacerbates the disparity. This paper highlights the need for planners to evaluate disaster-induced outages in vulnerable regions to target climate funds to areas with the utmost necessity.

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Unequal power outages induced by natural disasters

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