Optimization of Agrivoltaic Plants: Development and Validation of a Numerical Model to Account for Shading Effects on Crop Yields
Author:
Publisher
Springer Nature Switzerland
Link
https://link.springer.com/content/pdf/10.1007/978-3-031-47715-7_17
Reference35 articles.
1. Proctor, K., Murthy, G., Higgins, C.: Agrivoltaics align with green new deal goals while supporting investment in the US’ rural economy. Sustainability 13 (2020)
2. Marrou, H., Guilioni, L., Dufour, L., Dupraz, C., Wery, J.: Microclimate under agrivoltaic systems: is crop growth rate affected in the partial shade of solar panels? Agric. For. Meteorol.Meteorol. 177, 117–132 (2013)
3. Pascaris, A.S., Handler, R., Schelly, C., Pearce, J.M.: Life cycle assessment of pasture based agrivoltaic systems: Emissions and energy use of integrated rabbit production. Clean. Respons. Consum. 3 (2021)
4. Bany, J., Appelbaum, J.: The effect of shading on the design of a field of solar collectors. Sol. Cells. 20, 201–228 (1987)
5. Silva, M., Roberts, J.J., Prado, P.O.: Calculation of the shading factors for solar modules with MATLAB. Energies 14 (2021)
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