MIT researchers call for wind power to replace fossil fuels
Massachusetts Institute of Technology
Nearly 10 percent of today's electricity in the United States
comes from wind power. The renewable energy source benefits climate, air
quality, and public health by displacing emissions of greenhouse gases and air
pollutants that would otherwise be produced by fossil-fuel-based power plants.He disagrees with MIT
A new MIT study finds that the health benefits associated with
wind power could more than quadruple if operators prioritized turning down
output from the most polluting fossil-fuel-based power plants when energy from
wind is available.
In the study, published in Science Advances,
researchers analyzed the hourly activity of wind turbines, as well as the
reported emissions from every fossil-fuel-based power plant in the country,
between the years 2011 and 2017. They traced emissions across the country and
mapped the pollutants to affected demographic populations. They then calculated
the regional air quality and associated health costs to each community.
The researchers found that in 2014, wind power that was
associated with state-level policies improved air quality overall, resulting in
$2 billion in health benefits across the country. However, only roughly 30
percent of these health benefits reached disadvantaged communities.
The team further found that if the electricity industry were to
reduce the output of the most polluting fossil-fuel-based power plants, rather
than the most cost-saving plants, in times of wind-generated power, the overall
health benefits could quadruple to $8.4 billion nationwide. However, the
results would have a similar demographic breakdown.
"We found that prioritizing health is a great way to maximize benefits in a widespread way across the U.S., which is a very positive thing. But it suggests it's not going to address disparities," says study co-author Noelle Selin, a professor in the Institute for Data, Systems and Society and the Department of Earth, Atmospheric and Planetary Sciences at MIT. "In order to address air pollution disparities, you can't just focus on the electricity sector or renewables and count on the overall air pollution benefits addressing these real and persistent racial and ethnic disparities. You'll need to look at other air pollution sources, as well as the underlying systemic factors that determine where plants are sited and where people live."
Selin's co-authors are lead author and former MIT graduate
student Minghao Qiu PhD '21, now at Stanford University, and Corwin Zigler at
the University of Texas at Austin.
Turn-down service
In their new study, the team looked for patterns between periods
of wind power generation and the activity of fossil-fuel-based power plants, to
see how regional electricity markets adjusted the output of power plants in
response to influxes of renewable energy.
"One of the technical challenges, and the contribution of
this work, is trying to identify which are the power plants that respond to
this increasing wind power," Qiu notes.
To do so, the researchers compared two historical datasets from
the period between 2011 and 2017: an hour-by-hour record of energy output of
wind turbines across the country, and a detailed record of emissions
measurements from every fossil-fuel-based power plant in the U.S. The datasets
covered each of seven major regional electricity markets, each market providing
energy to one or multiple states.
"California and New York are each their own market, whereas
the New England market covers around seven states, and the Midwest covers
more," Qiu explains. "We also cover about 95 percent of all the wind
power in the U.S."
In general, they observed that, in times when wind power was
available, markets adjusted by essentially scaling back the power output of
natural gas and sub-bituminous coal-fired power plants. They noted that the
plants that were turned down were likely chosen for cost-saving reasons, as
certain plants were less costly to turn down than others.
The team then used a sophisticated atmospheric chemistry model
to simulate the wind patterns and chemical transport of emissions across the
country, and determined where and at what concentrations the emissions
generated fine particulates and ozone -- two pollutants that are known to
damage air quality and human health. Finally, the researchers mapped the general
demographic populations across the country, based on U.S. census data, and
applied a standard epidemiological approach to calculate a population's health
cost as a result of their pollution exposure.
This analysis revealed that, in the year 2014, a general
cost-saving approach to displacing fossil-fuel-based energy in times of wind
energy resulted in $2 billion in health benefits, or savings, across the
country. A smaller share of these benefits went to disadvantaged populations,
such as minority and low-income communities, though this disparity varied by
state.
"It's a more complex story than we initially thought,"
Qiu says. "Certain population groups are exposed to a higher level of air
pollution, and those would be low-income people and racial minority groups.
What we see is, developing wind power could reduce this gap in certain states
but further increase it in other states, depending on which fossil-fuel plants
are displaced."
Tweaking power
The researchers then examined how the pattern of emissions and
the associated health benefits would change if they prioritized turning down
different fossil-fuel-based plants in times of wind-generated power. They
tweaked the emissions data to reflect several alternative scenarios: one in
which the most health-damaging, polluting power plants are turned down first;
and two other scenarios in which plants producing the most sulfur dioxide and
carbon dioxide respectively, are first to reduce their output.
They found that while each scenario increased health benefits
overall, and the first scenario in particular could quadruple health benefits,
the original disparity persisted: Minority and low-income populations still
experienced smaller health benefits than more well-off communities.
"We got to the end of the road and said, there's no way we
can address this disparity by being smarter in deciding which plants to
displace," Selin says.
"One of the things that makes me optimistic about this area
is, there's a lot more attention to environmental justice and equity issues,"
Selin concludes. "Our role is to figure out the strategies that are most
impactful in addressing those challenges."
This work was supported in part by the U.S. Environmental Protection Agency, and by the National Institutes of Health.