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The potential for agrivoltaics to enhance solar farm cooling

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  • Williams, Henry J.
  • Hashad, Khaled
  • Wang, Haomiao
  • Max Zhang, K.

Abstract

Human society is at a critical point where rapid adoption of renewable energy alternatives is necessary to mitigate climate change effects while meeting global energy demands. At the same time, agricultural production must increase significantly by midcentury to feed an anticipated 10 billion people worldwide. These impending food-energy needs create land-use competition between crops and energy production, particularly with solar photovoltaics (PV). Co-locating agriculture and solar PV (agrivoltaics) is one attractive solution, but its widespread adoption is hindered by the perception that co-located sites will see major tradeoffs between food and energy production. Here we investigate the potential for agrivoltaic design features to influence the solar farm microclimate and surface temperature of solar PV modules. We develop a CFD-based microclimate model, evaluated against extensive experimental data, to investigate the effects of panel height, ground albedo, and evapotranspiration in a solar PV site. We show that an agrivoltaic solar farm mounted at 4 m with soybeans underneath exhibits solar module temperature reductions of up to 10 °C compared to a solar farm mounted at 0.5 m over bare soil. These results indicate that ground conditions and panel height play important roles in solar farm cooling, and that agrivoltaic systems can potentially help to resolve the global food-energy crisis by improving solar PV conversion efficiency while enabling agricultural production on the same land.

Suggested Citation

  • Williams, Henry J. & Hashad, Khaled & Wang, Haomiao & Max Zhang, K., 2023. "The potential for agrivoltaics to enhance solar farm cooling," Applied Energy, Elsevier, vol. 332(C).
  • Handle: RePEc:eee:appene:v:332:y:2023:i:c:s0306261922017354
    DOI: 10.1016/j.apenergy.2022.120478
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    5. Hong, Wenpeng & Mu, Yuhan & Lan, Jingrui & Jin, Xu & Wang, Xinzhi & Li, Haoran, 2024. "Improving vapor condensation via copper foam in capillary-fed photovoltaic membrane distillation," Energy, Elsevier, vol. 296(C).
    6. Rittick Maity & Kumarasamy Sudhakar & Amir Abdul Razak & Alagar Karthick & Dan Barbulescu, 2023. "Agrivoltaic: A Strategic Assessment Using SWOT and TOWS Matrix," Energies, MDPI, vol. 16(8), pages 1-18, April.
    7. Varo-Martínez, M. & Fernández-Ahumada, L.M. & Ramírez-Faz, J.C. & Ruiz-Jiménez, R. & López-Luque, R., 2024. "Methodology for the estimation of cultivable space in photovoltaic installations with dual-axis trackers for their reconversion to agrivoltaic plants," Applied Energy, Elsevier, vol. 361(C).
    8. Fernández-Solas, Álvaro & Fernández-Ocaña, Ana M. & Almonacid, Florencia & Fernández, Eduardo F., 2023. "Potential of agrivoltaics systems into olive groves in the Mediterranean region," Applied Energy, Elsevier, vol. 352(C).
    9. Cuppari, Rosa Isabella & Branscomb, Allan & Graham, Maggie & Negash, Fikeremariam & Smith, Angelique Kidd & Proctor, Kyle & Rupp, David & Tilahun Ayalew, Abiyou & Getaneh Tilaye, Gizaw & Higgins, Chad, 2024. "Agrivoltaics: Synergies and trade-offs in achieving the sustainable development goals at the global and local scale," Applied Energy, Elsevier, vol. 362(C).
    10. Shalom, Ben Aviad & Mittelman, Gur & Kribus, Abraham & Vitoshkin, Helena, 2023. "Optical and electrical performance of an agrivoltaic field with spectral beam splitting," Renewable Energy, Elsevier, vol. 219(P1).
    11. Chang, Ling-Yu & Chang, Ching-Cheng & Rinawati, Mia & Chang, Yu-Hsin & Cheng, Yao-Sheng & Ho, Kuo-Chuan & Chen, Chia-Chin & Lin, Chia-Her & Wang, Chia-Hsin & Yeh, Min-Hsin, 2024. "Near-infrared photoelectrochromic device with graphene quantum dot modified WO3 thin film toward fast-response thermal management for self-powered Agrivoltaics," Applied Energy, Elsevier, vol. 361(C).
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