Vertical axis wind turbines, which may have fewer effects on birds and nearby people, could increase public support for new wind energy installations, new research suggests.
With global carbon emissions on the rise, wind power continues to be an attractive option for states and countries looking to limit fossil fuel use and increase renewable energy. Wind already accounts for over 5 percent of electricity generation in the United States.
A number of issues plague the low-carbon energy source, however, such as complaints from nearby residents about noise and the killing of hundreds of thousands of birds and bats each year that collide with turbine blades.
Last week, in a setback to wind energy proponents, the Vermont Public Utility Commission adopted new regulations that limited the amount of sound new wind projects are allowed to produce. And in counties across California, similar restrictions have been passed limiting wind energy expansion. While some states are growing their wind power sectors, California has seen a plateau in growth over the last four years.
To better understand these concerns over wind energy, researchers conducted a poll examining how receptive people in California are to vertical axis wind turbines in various settings.
“For California, even with the state’s support for climate action and reducing emissions, wind farms can be a tough sell for residents,” says Iris Hui, a coauthor of the paper and senior researcher with the Bill Lane Center for the American West at Stanford University.
“We wanted to see if the potential for lower impacts from vertical axis turbines might persuade Californians to be more receptive to large-scale wind projects,” Hui says.
Vertical axis turbines have been around for decades but have been less popular options for large wind farms because of concerns that current models are less reliable and produce less energy per unit. But the tide could turn with public concern over the effects that wind energy has on people as well as birds and other wildlife.
“Because vertical axis turbines operate at lower speeds, lower height, and have a different visual signature than conventional wind turbines, we anticipated that they would have less impact on birds and wildlife,” says coauthor John Dabiri, professor of civil and environmental engineering and of mechanical engineering at Stanford University.
“Our field testing over the past eight years has shown this to be anecdotally true. We also expected the fact they they’re less noisy and harder to see from a distance would make them more attractive for communities. But it was important to test these assumptions in practice.”
This results of the poll could help California and other states make better use of abundant wind energy, says coauthor and political science professor Bruce Cain.
“The issue is both a technical engineering problem and a political science problem because opinion matters so much to which technologies get adopted and implemented. That’s why we brought people from both disciplines together on this,” says Cain.
Better for bats and birds
The team devised an online opt-in survey that asked respondents about their feelings on the different turbine technologies. The most desirable feature for vertical axis turbines was the idea that they may kill fewer birds and bats.
Cost remained a big concern, however, as did where to put the turbines. While support for installation was 75 percent for turbines that would be 50 miles from their home, support plummeted significantly as the distance from the turbine installation to the respondent’s home got smaller.
Dabiri’s lab is working on ways to develop vertical axis turbines that can reach parity on energy output with horizontal axis turbines and has research showing the potential of deploying smaller vertical axis turbines (about 30 feet high compared to the iconic white horizontal axis turbines stretching over 300 feet tall) in clusters to further perpetuate wind.
Due to their smaller stature, there is also more potential to deploy these turbines in a more urban setting than is possible with larger horizontal axis turbines. However, neither of these ideas gave vertical axis wind turbines a significant advantage over conventional wind turbines with the respondents.
Respondents with higher educational levels who value action on climate change were more likely to support integrating vertical axis turbines into an urban setting.
The researchers stress these findings indicate that, rather than being competing technologies, vertical and horizontal wind turbines can be complementary.
“Vertical axis turbines could be favored in areas of significance to wildlife or in certain urban settings where larger turbines are not viable,” says Hui.
In addition to this study, Dabiri’s lab has funding through the Stanford Woods Institute for the Environment’s Realizing Environmental Innovation Program to study how to lower the impacts of wind energy expansion on birds and ecosystems.
“The real challenge that remains is to do more rigorous testing on how vertical axis turbines impact birds,” says Dabiri. “If our anecdotal evidence of lower avian impacts can be supported by formal biological studies, it could make a real difference in public acceptance.”