Prolonged power outages, often caused by weather events, hit some parts
of the U.S. harder than others

Date:
May 1, 2023
Source:
University of Washington
Summary:
New research found that Americans already bearing the brunt of
climate change and health inequities are most at risk of impact
by a lengthy power outage.


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FULL STORY ==========================================================================
Joan Casey lived through frequent wildfire-season power outages when
she lived in northern California. While waiting for the power to return,
she wondered how the multi-day blackouts affected a community's health.

"For me it was an inconvenience, but for some people it could be life- threatening," said Casey, now an assistant professor in the University
of Washington's Department of Environmental and Occupational Health
Sciences. "If you had an uncle that had an electric heart pump, basically,
his heart wouldn't work without power. You could use a backup battery for
eight hours, but after that, if you don't have access to electricity, you
have to go to the emergency room. This is a really dangerous situation."
Years later, Casey has answers. A study published April 29 in the
journal Nature Communicationsanalyzed three years of power outages
across the U.S., finding that Americans already bearing the brunt of
climate change and health inequities are clustered in four regions -- Louisiana, Arkansas, central Alabama and northern Michigan -- and that
they are most at risk of impact by a lengthy blackout.

The findings could help shape the future of local energy infrastructure, especially as climate change intensifies and the American power grid
continues to age. Last year's Inflation Reduction Act included billions
of dollars to revamp energy systems, and Casey hopes federal agencies
will consult the newly published findings to target energy upgrades.

The study is the first county-level analysis of power outages, which the federal government reports only at the state level. That poses a problem
for researchers: a federally reported outage in Washington state could
occur in Seattle, Spokane, or somewhere in between, making it difficult
to understand specifically which population is affected.

Casey and her team found that between 2018 and 2020, more than 231,000
power outages lasting more than an hour occurred nationwide. Of those,
17,484 stretched at least eight hours -- a duration widely viewed as
medically relevant.

Most counties that experienced an electrical outage had at least one event lasting more than eight hours. These counties were most concentrated in
the South, Northeast and Appalachia.

Next, researchers looked at how power outages overlapped with severe
weather.

They wanted to know which weather events are most likely to cause
an outage, and which parts of the U.S. are most often hit with a blackout-causing storm.

They found that heavy precipitation in a given area makes a power
outage five times more likely. Tropical cyclones, storms with high winds
that originate over tropical oceans, make a power outage 14 times more
likely. And a tropical cyclone with heavy precipitation on a hot day --
like the hurricanes that each fall hit the Gulf Coast? They make power
outages 52 times more likely.

"We look at weather reports and decide whether or not to bring an
umbrella or stay home," Casey said. "But thinking about being prepared
for an outage when one of these events is rolling through is a new
element to consider." Then came questions of equity. Incorporating a combination of socioeconomic and medical factors, Casey's team identified communities that would likely be especially vulnerable during a long
power outage. Using that data, the researchers were able to identify communities that experienced both high social vulnerability and frequent
power outages.

A map of those counties shows a bright cluster in Louisiana and Arkansas,
with more clusters in central Alabama and northern Michigan. In
those places especially, the country's inevitable change in energy infrastructure provides the greatest opportunity to improve public health.

"Any time we can identify another factor that we can intervene on to get
closer to health equity, it's exciting," Casey said. "I think we're going
to see tremendous change, especially in the way our energy systems are
set up, in the next couple decades. It's this huge opportunity to get
equity into every conversation and talk about what we're going to do to
make two decades from now look different from where we are." This study
began while Casey was a professor in Columbia University's Mailman School
of Public Health. Other authors are Vivian Do (first author), Heather
McBrien, Nina Flores, Alexander Northrop and Jeffrey Schlegelmilch at
Columbia University and Mathew Kiang at Stanford University. The research
was funded by the National Institute on Aging and the National Institute
of Environmental Health Sciences.

* RELATED_TOPICS
o Matter_&_Energy
# Electricity # Energy_Technology # Solar_Energy
o Earth_&_Climate
# Energy_and_the_Environment # Renewable_Energy #
Severe_Weather
o Science_&_Society
# Energy_Issues # STEM_Education # Public_Health
* RELATED_TERMS
o Environmental_impact_assessment o Global_warming_controversy
o Kyoto_Protocol o Effects_of_global_warming
o Global_climate_model o Energy_development o
Consensus_of_scientists_regarding_global_warming o
Climate_change_mitigation

========================================================================== Story Source: Materials provided by University_of_Washington. Original
written by Alden Woods. Note: Content may be edited for style and length.


========================================================================== Journal Reference:
1. Vivian Do, Heather McBrien, Nina M. Flores, Alexander J. Northrop,
Jeffrey Schlegelmilch, Mathew V. Kiang, Joan
A. Casey. Spatiotemporal distribution of power outages with climate
events and social vulnerability in the USA. Nature Communications,
2023; 14 (1) DOI: 10.1038/s41467-023-38084-6 ==========================================================================

Link to news story: https://www.sciencedaily.com/releases/2023/05/230501164012.htm

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