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After COVID-19, Here Comes More & Better Farming With Solar Panels


Solar panels are sprouting on farmland like mushrooms after the rain, but there’s no such thing as a free lunch. If too many solar panels replace too much cropland, there goes the food supply. However, farmers are beginning to learn how to do their farming within solar arrays, and in a new green twofer, solar arrays could actually help push the regenerative agriculture movement into the mainstream.

Solar Panels + Farming, Good

The first twist in the field of solar + farming was a relatively simple one. Raise the solar panels just a few extra feet off the ground, and you can graze sheep and other animals on the same land. You can also use the land for pollinator habitat. Et voilà, there you have something new called agrivoltaics.

Of course, raised solar panels can involve some extra cost, but that could be counterbalanced by an increase in efficiency. Researchers are beginning to amass evidence that allowing plants to flourish under a raised solar array can improve solar cell efficiency by creating a cooling microclimate.

As for growing human-edible crops, that’s a tougher row to hoe. For starters, the solar panel racks would limit the width and height of motorized farm equipment. That’s not necessarily a deal breaker, but then another challenge is to identify crops that can grow efficiently in the shade.

Either way, the solar + farming movement has already caught the attention of the US Energy Department’s National Renewable Energy Laboratory, which is looking for ways to protect farmland against overpopulation by utility-scale solar arrays. The agency’s Office of Renewable Energy and Energy Efficiency has also published a handy “Farmer’s Guide to Going Solar.”

Solar Panels + Regenerative Agriculture, Better

All of this is good stuff, but it gets even better. A new solar project soon to start construction on a farm in Grafton, Massachusetts is aiming to do double duty as a holistic preservation tool that helps improve soil and enhance nutrition for grazing animals.

The ultimate goal is to create a more sustainable farm economy and cultivate the next generation of farmers. That’s an especially important consideration in Massachusetts, where farmers need to stay in the business of farming in order to maintain good standing with the state’s SMART solar incentive program for farmers.

The Boston-based developer BlueWave Solar is spearheading the project, and CleanTechnica recently spoke with the company’s head of sustainability, Drew Pierson, for some additional details.

“BlueWaveBW has been around for just under 10 years as community solar developer, and we’ve always had an ethos of doing right by people and planet and furthering environmental conservation,” Pierson explained.

The company was an early agrivoltaic adopter and has been working closely with the University of Massachusetts, which administers the SMART program among other solar initiatives. The collaboration with BlueWave includes a shade modeling tool for solar arrays to help with agricultural land use planning.

The Grafton solar project includes 12 acres set aside for grazing, and two acres for raising vegetables, such as strawberries, leafy greens and pumpkins.

For both arrays, Pierson explained, the solar panels will be raised about 10 feet off the ground, and every third panel will be removed in order to let more sunlight in.

Taking advantage of yet another twist in the farm + solar saga, the solar panels will be bifacial, meaning their back side can convert solar energy reflected from the ground. Researchers are already exploring ways to enhance this “ground albedo” effect with different types of ground coverings, including vegetation. That could lead to additional enhancements in solar cell efficiency on farmland.

Solar Panels On Farms: But Wait, There’s More

If all goes according to plan, the regenerative agriculture part of the project will really kick in when monitoring equipment is installed.

“This might be the basis for putting carbon back in the soil,” Pierson said. “We can measure how the land responds to this kind of management technique, including the infiltration of stormwater, the density of grass, and the beneficial microclimate of the solar panels.”

The human factor also comes into play. The new solar development includes a manger who will facilitate communication between the farmer, the SMART incentive program, and the various stakeholders in the solar project. Part of the aim is to help smooth compliance issues for the farmer, but that’s just for starters.

The manager will also help support the farmer with agricultural planning and resources. In addition to keeping individual farms in business, the overall aim of the manager-assisted program is to create new opportunities for starting new farming operations and reviving dormant ones.

The Grafton farm, for example, was worked by the same family for decades until the financials stopped working. With a new solar array in hand, the land will go back into production for the first time in about 20 years.


태양+농사 분야의 첫 반전은 비교적 간단한 것이었다. 태양 전지판을 땅에서 몇 피트만 더 올라가면 양과 다른 동물들을 같은 땅에서 방목할 수 있다. 연구자들은 높은 태양열 배열 아래서 식물이 번성하도록 허용하면 냉각 미세 기후를 만들어 태양전지 효율을 향상시킬 수 있다는 증거를 모으기 시작하고 있다. 인간이 먹을 수 있는 작물을 재배하는 것에 대해서는, 그것은 괭이질하기가 더 힘든 일이다. 우선 태양 전지판 랙은 전동식 농기구의 폭과 높이를 제한할 것이다. 태양열 + 농업 운동은 이미 미국 에너지부의 국립 재생 에너지 연구소의 주목을 받고 있는데, 이 연구소는 전력 규모의 태양열 집열장치에 의한 인구 과잉으로부터 농지를 보호할 방법을 찾고 있다.

메사추세츠주 그라프턴의 한 농장에서 곧 공사를 시작할 새로운 태양 프로젝트는 방목 동물들의 토양 개선과 영양 증진에 도움을 주는 총체적인 보존 도구로서 이중의 의무를 다하는 것을 목표로 하고 있다. 농장 + 태양계의 또 다른 반전을 이용하여, 태양 전지판은 양분될 것이며, 이것은 그들의 뒷면이 땅에서 반사된 태양 에너지를 변환할 수 있다는 것을 의미한다. 연구자들은 이미 식물을 포함한 다른 종류의 지반 덮개로 이 "지반 알베도" 효과를 높일 방법을 연구하고 있다. 그것은 농지의 태양전지 효율의 추가적인 향상으로 이어질 수 있다.

새로운 태양 개발에는 농부, SMART 인센티브 프로그램, 그리고 태양 프로젝트의 다양한 이해관계자들 사이의 의사소통을 용이하게 해줄 관리인이 포함되어 있다. 목표의 일부는 농부의 원활한 문제를 해결하기 위해 돕는 것이다. 



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  • 기사등록 2020-04-22 11:17:01
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