Wind power is booming in the United States.
It's expanded 35-fold since 2000, and now provides 8 percent of the nation's electricity. The US Department of Energy expects wind turbine capacity to more than quadruple again by 2050.
But a new study by a pair of Harvard researchers finds that a high amount of wind power could mean more climate warming, at least regionally and in the immediate decades ahead. The paper raises serious questions about just how much the United States or other nations should look to wind power to clean up electricity systems.
The study, published in the journal Joule, found that if wind power supplied all US electricity demands, it would warm the surface of the continental United States by 0.24 ˚C. That could significantly exceed the reduction in US warming achieved by decarbonizing the nation's electricity sector this century, which would be around 0.1 ˚C.
"If your perspective is the next 10 years, wind power actually has – in some respects – more climate impact than coal or gas," co-author David Keith, a professor of applied physics and public policy at Harvard, said in a statement. "If your perspective is the next thousand years, then wind power is enormously cleaner than coal or gas."
Specifically, the "avoided warming" achieved by eliminating fossil fuel sources could surpasses any warming from wind in about a century in the studied scenario, as emissions reductions accumulate.
Keith and lead author Lee Miller, a postdoc at Harvard, stress the conclusions mean scientists and policymakers should take this side-effect of wind power seriously – and carefully consider what role the resource should play in the shift to clean energy.
"Our analysis suggests that—where feasible—it may make sense to push a bit harder on developing solar power and a bit less hard on wind," Keith said in an email.
Notably, the warming effect from wind in the studied scenario was 10 times greater than the climate effect from solar farms, which can also have a tiny warming effect.
The core problem is that wind turbines generate electricity by extracting energy out of the air, slowing down wind and otherwise altering "the exchange of heat, moisture and momentum between the surface and the atmosphere,” the study explains. That can produce some level of warming.
Previous studies also pointed out the effect, but generally either looked at small-scale or global impacts. The new study sought to explore a "plausible scale" of wind power in a single large country, and compared model results against direct observations at wind farms, finding they matched.
The study notes the warming effect depends strongly on local weather conditions, as well as the type and placement of turbines. It also didn’t analyze impacts outside of the continental United States or time periods beyond a year.
Stanford professor John Dabiri is critical of the study, saying the simulations relied on a proxy for wind turbines that increases aerodynamic drag at the earth’s surface (see "John Dabiri: Innovators Under 35").
"It is well known that this type of modeling assumption does a poor job of predicting the flow in real wind farms," he said in an email.
Dabiri, an expert on wind turbine designs, says a "more realistic" earlier simulation found "little temperature change near the surface."
The Harvard researchers said their findings closely matched directly observed effects from hundreds of US wind farms.
Keith, an outspoken proponent of clean energy to combat global warming, says he’s sure the paper will be misinterpreted or misrepresented by some to argue against the rollout of wind power.
"But it would be unethical for the research community to hide impacts from renewables because we think they should be promoted," he said.
