| 1 |
Atmospheric extinction levels of solar radiation using aerosol optical thickness satellite data. Validation methodology with measurement system
Carra E, Marzo A, Ballestrin J, Polo J, Barbero J, Alonso-Montesinos J, Monterreal R, Abreu EFM, Fernandez-Reche J
Renewable Energy, 149, 1120, 2020 |
| 2 |
Significant decrease of photovoltaic power production by aerosols. The case of Santiago de Chile
Del Hoyo M, Rondanelli R, Escobar R
Renewable Energy, 148, 1137, 2020 |
| 3 |
Fast scheme for determination of direct normal irradiance. Part I: New aerosol parameterization and performance assessment
Shi GP, Sun Z, Li JN, He YJ
Solar Energy, 199, 268, 2020 |
| 4 |
Comparison of three models to estimate the slant path atmospheric attenuation in central receiver solar thermal plants under Indian climatic conditions
Mishra BR, Hanrieder N, Modi A, Kedare SB
Solar Energy, 211, 1042, 2020 |
| 5 |
Climate-specific and global validation of MODIS Aqua and Terra aerosol optical depth at 452 AERONET stations
Bright JM, Gueymard CA
Solar Energy, 183, 594, 2019 |
| 6 |
Aerosol optical properties in central Argentina
Olcese LE, Palancar GG, Toselli BM
Journal of Aerosol Science, 68, 25, 2014 |
| 7 |
Towards downscaling of aerosol gridded dataset for improving solar resource assessment, an application to Spain
Antonanzas-Torres E, Sanz-Garcia A, Martinez-de-Pison FJ, Antonanzas J, Perpinan-Lamigueiro O, Polo J
Renewable Energy, 71, 534, 2014 |
