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Atmospheric extinction levels of solar radiation using aerosol optical thickness satellite data. Validation methodology with measurement system

Author

Listed:
  • Carra, Elena
  • Marzo, Aitor
  • Ballestrín, Jesús
  • Polo, Jesús
  • Barbero, Javier
  • Alonso-Montesinos, Joaquín
  • Monterreal, Rafael
  • Abreu, Edgar F.M.
  • Fernández-Reche, Jesús

Abstract

In order to make the concentrating solar power (CSP) more competitive, an accurate prediction of the solar radiation incident on CSP tower plant receivers is necessary. The extinction in the heliostat-receiver pathway plays an important role in the optical loss of the solar field and therefore, in the performance of the plant. In order to correctly operate these kind of plants and to select new potential emplacements, it is necessary to know the on-site levels of extinction. A methodology was developed in another published work, called Extinction AOT method (EAM), with the purpose of finding out the levels of extinction present at a location using AERONET AOT as input data. However, there is no AERONET AOT data available at any potential site of interest for setting up a solar tower plant, so, alternative approaches were necessary. This paper proposes to determine levels of extinction at any location using AOT satellite data instead of AERONET data. These results have been compared with results obtained applying the EAM with AERONET data and using real extinction measurements obtained with the CIEMAT extinction measurement system. The extinction obtained at PSA has been 5% in all cases considering the error rates.

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  • Carra, Elena & Marzo, Aitor & Ballestrín, Jesús & Polo, Jesús & Barbero, Javier & Alonso-Montesinos, Joaquín & Monterreal, Rafael & Abreu, Edgar F.M. & Fernández-Reche, Jesús, 2020. "Atmospheric extinction levels of solar radiation using aerosol optical thickness satellite data. Validation methodology with measurement system," Renewable Energy, Elsevier, vol. 149(C), pages 1120-1132.
    • Handle: RePEc:eee:renene:v:149:y:2020:i:c:p:1120-1132
    DOI: 10.1016/j.renene.2019.10.106
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    1. Ballestrín, J. & Monterreal, R. & Carra, M.E. & Fernández-Reche, J. & Polo, J. & Enrique, R. & Rodríguez, J. & Casanova, M. & Barbero, F.J. & Alonso-Montesinos, J. & López, G. & Bosch, J.L. & Batlles,, 2018. "Solar extinction measurement system based on digital cameras. Application to solar tower plants," Renewable Energy, Elsevier, vol. 125(C), pages 648-654.
    2. Ballestrín, J. & Carra, E. & Monterreal, R. & Enrique, R. & Polo, J. & Fernández-Reche, J. & Barbero, J. & Marzo, A. & Alonso-Montesinos, J. & López, G. & Batlles, F.J., 2019. "One year of solar extinction measurements at Plataforma Solar de Almería. Application to solar tower plants," Renewable Energy, Elsevier, vol. 136(C), pages 1002-1011.
    3. Gueymard, Christian A., 2005. "Importance of atmospheric turbidity and associated uncertainties in solar radiation and luminous efficacy modelling," Energy, Elsevier, vol. 30(9), pages 1603-1621.
    4. Carra, Elena & Ballestrín, Jesús & Polo, Jesús & Barbero, Javier & Fernández-Reche, Jesús, 2018. "Atmospheric extinction levels of solar radiation at Plataforma Solar de Almería. Application to solar thermal electric plants," Energy, Elsevier, vol. 145(C), pages 400-407.
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    3. Polo, Jesús & Ballestrín, Jesús & Carra, Elena, 2020. "Assessment and improvement of modeling the atmospheric attenuation based on aerosol optical depth information with applicability to solar tower plants," Energy, Elsevier, vol. 208(C).
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    5. Cheng, Xinghong & Ye, Dong & Shen, Yanbo & Li, Deping & Feng, Jinming, 2022. "Studies on the improvement of modelled solar radiation and the attenuation effect of aerosol using the WRF-Solar model with satellite-based AOD data over north China," Renewable Energy, Elsevier, vol. 196(C), pages 358-365.

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