In this article, researchers evaluated seasonal patterns of soil moisture (SM) and diurnal variation in incident sunlight (photosynthetic photon flux density [PPFD]) in a single-axis-tracking agrivoltaic system established in a formerly managed semiarid C3 grassland in Colorado. Their goals were to (1) quantify dynamic patterns of PPFD and SM within a 1.2 MW photovoltaic array in a perennial grassland, and (2) determine how aboveground net primary production (ANPP) and photosynthetic parameters responded to the resource patterns created by the photovoltaic array. Investigators found relatively weak relationships between SM and ANPP despite significant spatial variability in both. Further, there was little evidence that light-saturated photosynthesis and quantum yield of CO2 assimilation differed for plants growing directly beneath (lowest PPFD) versus between (highest PPFD) PV panels. Overall, the AV system established in this semiarid managed grassland did not alter patterns of ANPP in ways predictable from past studies of controls of ANPP in open grasslands.
Tag Archive for: Solar
This study explores how a matching model can be utilized for empirically planning renewable energy siting using an illustrative case study in Japan. The matching algorithm enables the matching of sites and renewable energy specifications, reflecting the true preferences of local people regarding facility siting.
In this article, researchers in Korea analyze the profitability of agrivoltaics and its implications for rural sustainability. The profitability of agrivoltaics is verified in all studied regions, and the order of profitability and productivity by region are opposite to each other. Researchers suggest that regions with lower productivity may have a higher preference for installing agrivoltaics, implying the installation of agrivoltaics provides a new incentive to continue farming even in regions with low agricultural productivity.
This resource aims to guide informed decisions by landowners, investors, planners, and government officials in considering the planning and siting of grid-scale solar systems in Pennsylvania. The intent is to balance and promote the goals of sustainable income-generation and protection of water, soil, and valuable agricultural land resources.
This study focused on the photosynthetic photon flux density and employed an all-climate solar spectrum model to calculate the photosynthetic photon flux density accurately on farmland partially shaded by solar panels and supporting tubes. The researchers also described an algorithm for estimating the photosynthetic photon flux density values under solar panels, which were then validated using photosynthetic photon flux density sensors. The calculation formula enables farmers to evaluate the economic efficiency of a system before introducing it.
This life cycle assessment study investigates the environmental performance of sheep-based agrivoltaic systems and concludes that agrivoltaic systems are superior to conventional ground-mounted PV systems because they have dual purposes and reduce the environmental impacts associated with producing food and electricity.
The purpose of this paper is to systematically synthesize the potential ecosystem services of agrivoltaics and summarize how these development strategies could address several United Nations Sustainable Development Goals. Led by Agrisolar Clearinghouse partner Leroy Walston, researchers focused on four broad potential ecosystem services of agrivoltaics: (1) energy and economic benefits; (2) agricultural provisioning services of food production and animal husbandry; (3) biodiversity conservation; and (4) regulating ecosystem services such ascarbon sequestration and water and soil conservation.
DOE Solar Energy Technologies Office Announces $8 Million in Projects for Agrivoltaics Research
“The U.S. Department of Energy (DOE) Solar Energy Technologies Office announced $8 million in new projects that will research agrivoltaics—agricultural production, such as crop production, livestock grazing, and pollinator habitat underneath solar panels and/or in between rows of solar panels.
The Foundational Agrivoltaic Research for Megawatt Scale (FARMS) funding program will advance agrivoltaics practices and show how it can provide new economic opportunities to farmers, rural communities, and the solar industry. They explore different ways to implement agrivoltaics that will address concerns from the solar industry and farmers. Currently, less than 2% of solar systems utilize agrivoltaic practices.” – Energy.gov
AgriSolar Clearinghouse partner Greg-Barren Gafford from The University of Arizona is among the award recipients. Learn more about award recipients, which also include Rutgers and Ohio State University, here.
USDA Announces Climate Smart Commodity Awards
USDA Announced 71 climate-smart commodity awards in round 2 of the initiative. Among the awardees is The University of Texas Rio Grande Valley (UT-RGV), with the project “Validating Agrivoltaic Technology with Underserved Agricultural Producers.”
The AgriSolar Clearinghouse will serve as a technical assistance provider for this project. This work will include the production of outreach materials, education, and workshops to promote benefits to potential agrivoltaic adopters in the Rio Grande Valley.
JUA Technologies Develops Solar-Powered Dehydrator
“JUA Technologies, an agriculture technology start-up that manufactures solar-powered crop dehydrators, has received a two-year, $600,000 Phase II Small Business Innovation Research (SBIR) grant from the U.S. Department of Agriculture (USDA) to develop its technology.” – PV Magazine
Italian Research Shows Benefits of Growing Soybeans Using Agrivoltaics
“Scientists from Università Cattolica del Sacro Cuore in Italy have investigated different shade depth treatments on soybeans grown under an elevated agrivoltaic system in Monticelli d’Ongina, Italy. ‘Our work confirmed that soybean is shade tolerant and can be grown in combination with solar power generation. Considering not only soy but more crops and extensive crops in a large scale agrivoltaics is useful for increasing the sustainability of the agrivoltaic system itself.’ researcher Eleonora Potenza told PV magazine. – PV Magazine
Meta Obtains 720MW of Solar from Silicon Ranch
“Facebook owner Meta Platforms will power additional data center operations around the Southeast with 720 MW of new solar developments in Georgia and Tennessee with Silicon Ranch. Silicon Ranch is partnering with the Walton Electric Membership Corporation and the Tennessee Valley Authority (TVA) to supply power from seven new solar facilities to power Meta’s data centers in the two Southeast states, respectively.” – PV Magazine
In this article, researchers argue that the divide between food and energy production groups can be lessened with the co-generation of food and energy on the same land. This paper demonstrates the importance of different light spectra, and show that those spectra, if optimized in terms of their utilization, could lead to sustainable and more efficient food and energy systems.
THE LATEST
Harvesting the Sun, the Agrisolar Short Film, is Available Now!March 20, 2024 - 5:52 pm
Case Study: Alaska AgrivoltaicsMarch 20, 2024 - 10:07 am
