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Experimental characterization of a photovoltaic solar-driven cooling system based on an evaporative chimney

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  • Ruiz, J.
  • Martínez, P.
  • Sadafi, H.
  • Aguilar, F.J.
  • Vicente, P.G.
  • Lucas, M.

Abstract

Photovoltaic systems combined with electrical compression chillers offer a high potential for energy efficient cooling with a high economic feasibility. They can significantly reduce the energy consumption in the building sector. The main goal of this study is to analyse the performance of a PV solar driven water-water chiller. The novelty of the work relies on the use of a novel system, called photovoltaic evaporative chimney, which aims to increase the efficiency of solar photovoltaic modules by evaporative cooling. The complete solar cooling system consists of four PV panels (1.02 kWp) and a 3.8 kW refrigeration capacity water-cooled chiller. A systematic study was undertaken and nine sets of experiments were conducted in summer conditions of a Mediterranean climate (Spain). The system’s ability to convert the solar energy into refrigeration capacity was observed to be 0.49 on average for the tests performed. The solar contribution (ratio of PV energy consumption to total absorbed energy) was 64.40%. The system produced on average 11.32 cooling kWh per each kWh consumed from the grid. The influence of the ambient conditions on the key performance indicators has been assessed and global correlations for use in more detailed energy analyses have been developed.

Suggested Citation

  • Ruiz, J. & Martínez, P. & Sadafi, H. & Aguilar, F.J. & Vicente, P.G. & Lucas, M., 2020. "Experimental characterization of a photovoltaic solar-driven cooling system based on an evaporative chimney," Renewable Energy, Elsevier, vol. 161(C), pages 43-54.
    • Handle: RePEc:eee:renene:v:161:y:2020:i:c:p:43-54
    DOI: 10.1016/j.renene.2020.06.111
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    References listed on IDEAS

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    1. Hartmann, N. & Glueck, C. & Schmidt, F.P., 2011. "Solar cooling for small office buildings: Comparison of solar thermal and photovoltaic options for two different European climates," Renewable Energy, Elsevier, vol. 36(5), pages 1329-1338.
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    5. Lucas, M. & Aguilar, F.J. & Ruiz, J. & Cutillas, C.G. & Kaiser, A.S. & Vicente, P.G., 2017. "Photovoltaic Evaporative Chimney as a new alternative to enhance solar cooling," Renewable Energy, Elsevier, vol. 111(C), pages 26-37.
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    7. Lucas, M. & Ruiz, J. & Aguilar, F.J. & Cutillas, C.G. & Kaiser, A.S. & Vicente, P.G., 2019. "Experimental study of a modified evaporative photovoltaic chimney including water sliding," Renewable Energy, Elsevier, vol. 134(C), pages 161-168.
    8. Bahaidarah, H. & Subhan, Abdul & Gandhidasan, P. & Rehman, S., 2013. "Performance evaluation of a PV (photovoltaic) module by back surface water cooling for hot climatic conditions," Energy, Elsevier, vol. 59(C), pages 445-453.
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    3. Pablo Casado & José M. Blanes & Francisco Javier Aguilar Valero & Cristian Torres & Manuel Lucas Miralles & Javier Ruiz Ramírez, 2021. "Photovoltaic Evaporative Chimney I–V Measurement System," Energies, MDPI, vol. 14(24), pages 1-14, December.
    4. Cengiz, Mazlum & Kayri, İsmail & Aydın, Hüseyin, 2024. "A collated overview on the evaporative cooling applications for photovoltaic modules," Renewable and Sustainable Energy Reviews, Elsevier, vol. 197(C).
    5. Omar, M.N. & Taha, A.T. & Samak, A.A. & Keshek, M.H. & Gomaa, E.M. & Elsisi, S.F., 2021. "Simulation and validation model of cooling greenhouse by solar energy (P V) integrated with painting its cover and its effect on the cucumber production," Renewable Energy, Elsevier, vol. 172(C), pages 1154-1173.

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