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GROWING TOWARDS SUSTAINABLE AGRICULTURE

ABOUT

GROWING GREEN

Growing Green is a 501 (c)(3) non-profit organization that focuses on improving agriculture while decreasing our negative impact on the environment. Inspired by volunteering at community gardens and working with organizations such as Tiger Mountain Foundation, Sarah Bendok, a freshman high school student at Phoenix Country Day School, founded Growing Green.

OUR MISSION

Our goal is to promote technologies at the intersection of sustainability and agriculture to grow toward a greener future.

CONTACT US

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Research sustainable technologies relating to agriculture

Implement these technologies in farms

Promote the use of these innovations

Educate the community on the importance of sustainable agriculture and related technologies

Raise money to fund projects and support other organizations that work towards improving agriculture and local communities

OUR GOALS

AgriSolar Clearinghouse

University of Arizona

Fundusol

Tiger Mountain Foundation

Spaces of Opportunity

Sonoran Photovoltaic Lab

COLLABORATING WITH

PROJECTS
2022-2023

We are developing an agrivoltaics project to benefit Tiger Mountain Foundation and Spaces of Opportunity in South Phoenix. Under the mentorship of the University of Arizona Professor Greg Barron-Gafford and his team, AgriSolar ClearingHouse, and Fundusol, we will create an agrivoltaic system that will increase crop yield, decrease water consumption, and allow Spaces of Opportunity to run on a renewable source: solar panels. 

PROJECTS
2022-2023

We are developing an agrivoltaics project to benefit Tiger Mountain Foundation and Spaces of Opportunity in South Phoenix. Under the mentorship of the University of Arizona Professor Greg Barron-Gafford and his team, AgriSolar ClearingHouse, and Fundusol, we will create an agrivoltaic system that will increase crop yield, decrease water consumption, and allow Spaces of Opportunity to run on a renewable source: solar panels. 

AGRIVOLTAICS

Agrivoltaics is the process of putting solar panels over plants at a height that the farmers and machinery could still work under. Agrivoltaics has been proven to increase crop yield, improve working conditions, enhance soil quality, and decrease water consumption, especially in the hot sun of Arizona. The shade provided by the solar panel cools the air underneath to create a better environment for the plant below it. At the same time, the plant’s evapotranspiration increases air moisture, which also reduces the air temperature, cooling the solar panels and increasing their efficiency. The result is a microclimate effect.

PROJECTS
2022-2023

We are developing an agrivoltaics project to benefit Tiger Mountain Foundation and Spaces of Opportunity in South Phoenix. Under the mentorship of the University of Arizona Professor Greg Barron-Gafford and his team, AgriSolarn ClearingHouse, and Fundusol, we will create an agrivoltaic system that will increase crop yield, decrease water consumption, and allow Spaces of Opportunity to run on a renewable source: solar panels. 

PROJECTS
2022-2023

We are developing an agrivoltaics project to benefit Tiger Mountain Foundation and Spaces of Opportunity in South Phoenix. Under the mentorship of the University of Arizona Professor Greg Barron-Gafford and his team, AgriSolarn ClearingHouse, and Fundusol, we will create an agrivoltaic system that will increase crop yield, decrease water consumption, and allow Spaces of Opportunity to run on a renewable source: solar panels. 

PROJECTS
2022-2023

We are developing an agrivoltaics project to benefit Tiger Mountain Foundation and Spaces of Opportunity in South Phoenix. Under the mentorship of the University of Arizona Professor Greg Barron-Gafford and his team, AgriSolar, and Fundusol, we will create an agrivoltaic system that will increase crop yield, decrease water consumption, and allow Spaces of Opportunity to run on a renewable source: solar panels. 

PROJECTS

AGRIVOLTAICS
SOLAR PANELS

Agrivoltaics is the process of putting solar panels over plants at a height that the farmers and machinery could still work under. Agrivoltaics has been proven to increase crop yield, improve working conditions, enhance soil quality, and decrease water consumption, especially in the hot sun of Arizona. The shade provided by the solar panel cools the air underneath to create a better environment for the plant below it. At the same time, the plant’s evapotranspiration increases air moisture, which also reduces the air temperature, cooling the solar panels and increasing their efficiency. The result is a microclimate effect.

AGRIVOLTAICS

We are developing an agrivoltaics project to benefit Spaces of Opportunity, an urban farm in South Phoenix. Under the mentorship of the University of Arizona Professor Greg Barron-Gafford and his team, AgriSolar, and Fundusol, we are creating an agrivoltaic system that will increase crop yield, decrease water consumption, provide better working conditions, and allow Spaces of Opportunity to run on a renewable source: solar panels. 

PROJECTS
2022-2023
AGRIVOLTAICS
 

Agrivoltaics is the process of putting solar panels over plants at a height that the farmers and machinery could still work under. Agrivoltaics has been proven to increase crop yield, improve working conditions, enhance soil quality, and decrease water consumption, especially in the hot sun of Arizona. The shade provided by the solar panel cools the air underneath to create a better environment for the plant below it. At the same time, the plant’s evapotranspiration increases air moisture, which also reduces the air temperature, cooling the solar panels and increasing their efficiency. The result is a microclimate effect.

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