In an effort to help to improve the returns of farming in an environmentally acceptable way, the project’s objective is to In an effort to help to improve the returns of farming in an environmentally acceptable way, the project’s objective is to investigate the feasibility of a small size electric farming tractor, which shall be able to use locally generated renewable energy. The project’s aim is to evaluate the feasibility of an electric micro tractor system for small-scale family farming that can be propelled by locally generated renewable energy. These applications could be applied in agrivoltaic developments, which include producing renewable energy and crops.
This paper discusses solar-powered agricultural tools in India. Some of the tools used for agrivoltaic operations discussed in this paper are water-pumping systems, solar dryers, solar greenhouses and solar electric fences. The paper also states that agrivoltaic tools require less maintenance than the tools used in producing conventional energy tools.
The aim of this study is to present a potential, alternative solution regarding the covering of energy needs, required for farming activities related to the arable lands. This paper elaborates on the energy balance between solar-energy generation and the demands of the farming activities in the field. The main parts of this concept are, the solar array scheme, the electric motor of the tractor and of course the battery that will store the energy from panels and produce it to farming tractor, while operating in the field.
In this paper, a novel UGV (unmanned ground vehicle) for precision agriculture, named “Agri.q,” is presented. The Agri.q has a multiple degrees of freedom positioning mechanism and it is equipped with a robotic arm and vision sensors, which allow to challenge irregular terrains and to perform precision field operations with perception.
This guide has been developed to share knowledge and learnings from agrisolar practices around Australia and the world, to assist proponents of utility-scale solar, and the landholders and farmers who work with them to integrate agricultural activities into solar farm projects. As solar grazing is the dominant form of agrisolar for utility-scale solar, this guide has a strong focus on sharing the knowledge and learnings from Australian projects that have integrated solar grazing practices to date, providing case studies, information on solar-grazing benefits and practical guidance for agrivoltaic developers.
Written by the Center for Rural Affairs, this report reveals the benefits of mixing solar power and native vegetation. The report identifies types of solar projects, including residential, community-scale and utility-scale and their relations to native bees, monarch butterflies, pheasants and quail and soil and water quality. In the report, there is a plan available for those looking to optimize the health of native plants for the benefit of pollinators. The study discussed here also covers seed-mix selection, methods for seeding the vegetation and managing the site(s) afterwards.
This report highlights the benefits, value, and policy considerations of pollinator-friendly solar. It also explains methods to building a pollinator-friendly site. The report covers planning, costs and seeding practices as well as timing impacts for wildlife and pollinators. Policy considerations for public and private stakeholders are also discussed in this report.
This research article tested whether insect pollinators are affected at local scale by a results-based scheme scored based on plant indicators, or if landscape management is more important, and whether there were different responses between taxon-specific groups.
The study revealed that agrisolar project management should consider a range of different management measures and landscape-scale approaches where
possible, to maximize benefits for a range of pollinators, including bumble bees, hoverflies and butterflies.
This resource highlights how solar companies can provision pollinator-friendly solar through a company’s standard procurement process and provides purchase agreement language for pollinator and agriculturally friendly solar. The report provides details for planning consideration for the land under and around solar energy developments which is often overlooked. Addressing the details associated with this concern will aid in addressing climate and biodiversity crisis concurrently.
This paper presents a case study of plant-pollinator interactions at a solar energy generation site in southwestern Oregon, a water-limited, dryland ecosystem. The study focuses on plant-pollinator interactions at a solar-energy generation site in southwestern Oregon, a water-limited, dryland ecosystem.
The results of this study show that this data can inform agriculture and pollinator health advocates as they seek land for pollinator-habitat restoration in target areas, as well as local solar developers and homeowners deciding how to manage land beneath solar arrays.
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
