Tag Archive for: AgriSolar

Indiana Sheep Farm Goes Agrisolar

Local farmers in Columbus, Indiana, have partnered with Hoosier Energy to create clean energy by installing solar panels over grazing land on a local sheep farm. Of Hoosier Energy’s 10 solar arrays, this is the first farm to have an array of solar panels on local farmland. 

“We’re able to continue to use it as an agricultural value by partnering with a farmer on using sheep to graze the site, so it’s really good because we get … more benefit than just solar. It’s actually an agricultural benefit to the community as well,” said John Cisney, a technical analyst at Hoosier Energy.  

The farm and solar partnership is a win-win situation. Sheep continue to graze the land but with the solar panels in place, there is an added benefit of producing clean energy, which benefits the environment. “It’s cleaner. There are no CO2 emissions. It’s sustainable. It’s renewable,” said Curt Durnil, communications director at Hoosier Energy. 

These panels are capable of harnessing energy from the sun throughout the day, as they follow the sun from east to west, unlike a typical solar panel on a residential home that operates in a fixed position. 

[W]hat that allows us to do is capture more energy from the sun, up to 15-20% more in a year’s time period than if they were just fixed facing the sun throughout the day,” Cisney said. 

To learn more about the Agrisolar farm in Indiana, click here.  

Maine Blueberry Farm Pioneers Agrivoltaic Project

Blueberries are big business in Maine, contributing upwards of $250 million to the state economy each year. That’s why a new partnership among blueberry growers, researchers, and the solar industry to harness the power of sun caught our attention.

The potential for this project to pave the way in providing farmers with alternative income streams while still producing the iconic Maine wild blueberry is exciting, and we’re thrilled to be a part of it,” said Dr. Lily Calderwood, University of Maine Extension Wild Blueberry Specialist.

Currently, 38 U.S. blueberry farms contribute more than $4.7 billion to the economy annually. In Maine, blueberries contribute to $250 million to the economy.

We’re pleased to be working alongside the University of Maine as well as industry leaders like Navisun and BlueWave Solar on this innovative project that will help promote the growth of the agrivoltaics market as well as support local farmers,” said Chris Ichter, director of business development at CS Energy.

Research indicates that the co-location of solar arrays with crops may reduce water usage by 30% and increase crop production by 70%. With an already large contribution to Maine’s economy, blueberry farmers, as well as others, may benefit greatly from combining crops and solar.

The pilot program outlined what are known as “dual-use challenges.” This study will attempt to understand some of those concerns by using half of the 10-acre project as a control group to study “optimal solar construction techniques.”

CS Energy, Navisun and BlueWave Solar have all been incredibly engaged and cooperative throughout the whole process, which is crucial, as this is not only the first project of its kind for the University of Maine, but also for the entire state,” said Dr. Lily Calderwood, University of Maine Extension Wild Blueberry Specialist.

The research findings of this program will not only help future developers plan and execute effective dual-use systems, but ultimately will help support local farmers through advancing clean energy and discovering new income streams.

The Maces Pond Agrivoltaics Pilot Project in Rockport, Maine is the result of a collaboration between Bluewave Solar, Navisun LLC, and CS Energy, and the University of Maine. Read more about this partnership, here.

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The AP Reports on the Benefits of AgriSolar Development

The Associated Press is reporting on the benefits of agrisolar development, that is, the co-location of solar panels on appropriate farm land.

“There’s lots of spaces where solar could be integrated with really innovative uses of land,” said Brendan O’Neill, a University of Michigan environmental scientist who’s monitoring how planting at a new 1,752-panel facility in Cadillac, Michigan, stores carbon.

Elsewhere, solar installations host sheep that reduce need for mowing. And researchers are experimenting with crop growing beneath solar panels, while examining other potential upsides: preventing soil erosion, and conserving and cleansing water.

The Associated Press

As the AP reports, the U.S. Department of Energy is searching for the best agrisolar ideas in a project it has called InSPIRE.

The U.S. has about 2,500 solar operations on the electric grid, most generating one to five megawatts, according to the Energy Information Administration. A five-megawatt facility needs around 40 acres (16 hectares). While some occupy former industrial sites, larger installations often take space once used for row crops.

Depending on how quickly the nation switches to renewable electricity, up to 10 million acres (4 million hectares) could be needed for solar by 2050 — more than the combined area of Massachusetts and New Jersey, an analysis by Argonne found. Solar developers and researchers hope projects with multiple land uses will ease pushback from rural residents who don’t want farmland taken out of production or consider solar panels a blight.

“We need healthy agricultural communities, but we also need renewable energy,” said Jordan Macknick, the renewable energy lab’s lead analyst for InSPIRE.

The Associated Press

Jordan Macknick and others featured in this article including Greg Barron-Gafford, Rob Davis, and Lexie Hain are partners of the AgriSolar Clearinghouse.

Read the full story, here.

WATCH: Pollinators, Prairie, and Power

The relationship among plants, soil, insects, and water is complex. This film by Prairie Restorations, Inc. explains the unique opportunity to rebuild America’s prairies and power the country, by co-locating solar arrays with pollinator habitat.

“What better use than to make it into a win-win situation. Now we can generate electricity, but under those solar panels, we can generate pollinator habitat, plant habitat, soil enhancement – it’s just absolutely a no-brainer,” says Prairie Restorations Founder Ron Bowen.

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