Validation of models for global irradiance on inclined planes

The accuracy of models to estimate irradiance on inclined planes is tested by comparing the predictions to measurements taken with four instruments of various tilt and azimuth angles in Sede Boqer, Israel. The three models investigated are: the Perez model, Hay's anisotropic model, and the isot...

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Veröffentlicht in:	Solar energy 1992, Vol.48 (1), p.59-66
Hauptverfasser:	Feuermann, D., Zemel, A.
Format:	Artikel
Sprache:	eng
Schlagworte:	140100 - Solar Energy- Resources & Availability ACCURACY Applied sciences AVAILABILITY CORRELATIONS Energy estimation Exact sciences and technology INSOLATION MATHEMATICAL MODELS measurement Natural energy prediction Radiation RADIATIONS SOLAR COLLECTORS SOLAR ENERGY SOLAR EQUIPMENT SOLAR RADIATION STELLAR RADIATION TESTING tilted surfaces VALIDATION
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creator	Feuermann, D. Zemel, A.
description	The accuracy of models to estimate irradiance on inclined planes is tested by comparing the predictions to measurements taken with four instruments of various tilt and azimuth angles in Sede Boqer, Israel. The three models investigated are: the Perez model, Hay's anisotropic model, and the isotropic model. The Perez model is found to perform significantly better than the other two, with residual errors that are comparable to the accuracy of the measuring instruments themselves. The same data are also used to evaluate the precision of empirical correlations to estimate the direct component from global horizontal radiation, and to assess the sensitivity of the predicted irradiance on tilted surfaces to the errors associated with these correlations.
doi_str_mv	10.1016/0038-092X(92)90177-C
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subjects	140100 - Solar Energy- Resources & Availability ACCURACY Applied sciences AVAILABILITY CORRELATIONS Energy estimation Exact sciences and technology INSOLATION MATHEMATICAL MODELS measurement Natural energy prediction Radiation RADIATIONS SOLAR COLLECTORS SOLAR ENERGY SOLAR EQUIPMENT SOLAR RADIATION STELLAR RADIATION TESTING tilted surfaces VALIDATION
title	Validation of models for global irradiance on inclined planes
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