José A. Ruiz‐Arias scite author profile

WRF-Solar is a specific configuration and augmentation of the Weather Research and Forecasting (WRF) Model designed for solar energy applications. Recent upgrades to the WRF Model contribute to making the model appropriate for solar power forecasting and comprise 1) developments to diagnose internally relevant atmospheric parameters required by the solar industry, 2) improved representation of aerosol–radiation feedback, 3) incorporation of cloud–aerosol interactions, and 4) improved cloud–radiation feedback. The WRF-Solar developments are presented together with a comprehensive characterization of the model performance for forecasting during clear skies. Performance is evaluated with numerical experiments using a range of different external and internal treatment of the atmospheric aerosols, including both a model-derived climatology of aerosol optical depth and temporally evolving aerosol optical properties from reanalysis products. The necessity of incorporating the influence of atmospheric aerosols to obtain accurate estimations of the surface shortwave irradiance components in clear-sky conditions is evident. Improvements of up to 58%, 76%, and 83% are found in global horizontal irradiance, direct normal irradiance, and diffuse irradiance, respectively, compared to a standard version of the WRF Model. Results demonstrate that the WRF-Solar model is an improved numerical tool for research and applications in support of solar energy.

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Evaluation of the WRF model solar irradiance forecasts in Andalusia (southern Spain)

Lara-Fanego

et al. 2012

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A comparative analysis of DEM‐based models to estimate the solar radiation in mountainous terrain

Ruiz‐Arias

Tovar‐Pescador

Pozo‐Vázquez

et al. 2009

International Journal of Geographical Information Science

105

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Extensive worldwide validation and climate sensitivity analysis of direct irradiance predictions from 1-min global irradiance

Gueymard¹,

Ruiz‐Arias

2016

Solar Energy

243

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