Earth’s power needs could be met by converting farmland to solar

Global energy demands could be met if just one per cent of the world’s agricultural land was converted to solar panels, a new report has found.

The study, published in the journal Scientific Reports, also bring into question the current common practice of constructing large arrays of solar panels in deserts.

The report’s findings indicate that croplands are the most productive places to place a solar panel, while snowy or icy environments are the least productive.

The research team, led by Oregon State University, analysed power production data collected by a Tesla solar electric array installed on farmland owned by the university and combined the that information with data from microclimate research stations installed at the array, which recorded variables like mean air temperature, wind speed and direction and incoming solar energy. Based on the results, the university created a model for photovoltaic efficiency based on air temperature, wind speed and relative humidity

Chad Higgins, associate professor in Oregon State University (OSU)’s College of Agricultural Sciences and corresponding author of the study, claims that the results indicate that there’s a huge potential for solar and agriculture to work together to provide reliable energy.

“There’s an old adage that agriculture can overproduce anything. That’s what we found in electricity, too. It turns out that 8,000 years ago, farmers found the best places to harvest solar energy on Earth,” he said.

“Our study shows that when it’s cool outside the efficiency gets better. If it’s hot the efficiency gets worse. When it is dead calm the efficiency is worse, but some wind makes it better. As the conditions became more humid, the panels did worse. Solar panels are just like people and the weather, they are happier when it’s cool and breezy and dry.”

The researchers used global satellite imagery to apply their model worldwide, crossing 17 classes of land cover including croplands, mixed forests, urban and savanna.

The scientists then re-evaluated their model to assess agrivoltaics’ potential to meet the projected global electric demand determined by the World Bank.

The findings follow previous research by OSU that found that placing solar panels on agricultural fields could improve crop yield.

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