Stanford: Look to cities for utility-scale solar
There is a scene in the movie "Gattaca" in which Ethan Hawke and Uma Thurman’s characters walk through a giant concentrating solar power plant spread across a broad, flat California desert.
It’s a striking moment in the film, partly because it illustrates how visually imposing and vast utility-scale solar power plants can be as they sprawl across the desert.
But what if those solar power plants could be built in developed areas between or atop buildings and homes without having to affect the desert, many parts of which are environmentally sensitive? A Stanford University study published Monday in the journal Nature Climate Change stated that can be achieved in many California’s cities, which are often overlooked as areas ideal for both utility-scale photovoltaic and concentrating solar power generations.
Energy up on the rooftop
The research looked at developed land more efficiently by encouraging the construction of utility-scale solar development there rather than building large solar installations in environmentally sensitive undeveloped places. The study specifically modeled land-use efficiency for solar only in California because the state leads the U.S. in solar power generation.
In California’s developed areas, which the study calls its “built environment,” there is so much solar development potential that more than 20,000 terawatt hours of power could be produced there annually — enough power to meet the state’s electricity demand more than three times over, the study stated. In all, California has more than 17,500 square miles of land within cities and other developed areas that is ideal for utility-scale photovoltaic and dry-cooled concentrating solar power development, an area roughly twice the size of New Hampshire.
The study’s authors modeled dry-cooled concentrating-solar development because they assumed that the drought-stricken state would want to develop solar power stations that use less water than many that exist today.
Cities and utilities looking for places to build solar generating stations often don’t consider sites in urban areas, Rebecca Hernandez, study lead author and an environmental earth system scientist at Stanford University, said.
Deciding not to build a solar power plant locally may facilitate its development elsewhere, possibly in natural areas, she said.
“Our results show that we do not need to trade these places of environmental value for the production of renewable energy as ample land and space exists elsewhere. Additionally, developing renewable power generation in places close to where it is consumed reduces costs and loss of electricity associated with transmission.”
Hernandez pointed to rooftops, vacant lands and industrial sites within urban areas as ideal areas for solar development.
“Using degraded or contaminated lands or places with the least environmental conflict for renewable energy development is another option,” Hernandez said. Where to put solar power generating stations long has been controversial because solar panels and concentrating-solar mirrors can crowd out other land uses and affect wildlife habitat. The advantage of building solar plants on land already used for other things is that their environmental impact is greatly reduced and it is an efficient use of land, especially if they’re built atop large buildings.
Assessing potential in context
Virginia Dale, director of the Center for BioEnergy Sustainability at the Oak Ridge National Laboratory in Tennessee, said Hernandez’s study is important because it documents solar power potential in California.
“It is important that renewable options be assessed with careful consideration of local context,” Dale said. “For example, this paper discusses the influences of California’s water shortages as well as high-energy demands and solar potential.”
Laura Wisland, a senior energy analyst for the Union of Concerned Scientists who formerly worked for the California Public Utilities Commission to implement its renewable portfolio standard, said the study affirms the value of siting solar in developed areas where land already has been disturbed.
Building solar in those places can lower the costs and time associated with new clean energy development, she said, adding that the study can help cities and counties assess their solar energy potential.
“Ultimately, I think we should not say solar only belongs in urban areas, or solar only belongs in rural areas,” Wisland said. “We should build it where it makes environmental and economic sense, and the beauty of clean energy development, especially for solar, is many times there are great options in both types of environment.”
This article first appeared at Climate Central.