Solar irradiance data on various inclined surfaces at different orientations are important information for active solar-system analyses and passive energy-efficient building designs. In many parts of the world, however, the basic solar irradiance data for the surfaces of interest are not always readily available. Traditionally, different mathematical models have been developed to predict the solar irradiance on various inclined surfaces using "horizontal" data. Alternatively, the diffuse irradiance of a sloping plane can be calculated by integrating the radiance distribution generated with a sky radiance model. This paper presents the evaluation of two slope irradiance models, namely, the Perez point-source model (PEREZSIM) and the Muneer m...
In this paper, hourly terrestrial radiation: direct beam, diffuse and global solar radiation are mod...
Solar irradiation data is required in many applications to obtain the solar energy output. However, ...
Solar radiation is the driving force for the surface energy balance in buildings such as greenhouses...
An anisotropic model for predicting inclined surface solar irradiation has previously been reported ...
Global solar radiation is generally measured on a horizontal surface, whereas the maximum amount of ...
Global solar radiation is generally measured on a horizontal surface, whereas the maximum amount of ...
In this work new measurements of global and diffuse solar irradiance on the horizontal plane and glo...
Solar radiation data are essential in the design of solar energy conversion devices. In this regard,...
The validity of various models for predicting irradiance on inclined surfaces was investigated by em...
This report presents the first evaluations of 5 algorithms for converting global horizontal and dire...
The validity of an isotropic model for predicting daily irradiation on inclined surfaces was tested ...
Generally, in the weather stations, the global solar radiation is measured on horizontal surfaces. H...
A new, more accurate and considerably simpler version of the Perez[1] diffuse irradiance model is pr...
This thesis investigates variations in solar irradiance incident upon sloping surfaces under deciduo...
This work assesses the performance of five transposition models that estimate the global and diffuse...
In this paper, hourly terrestrial radiation: direct beam, diffuse and global solar radiation are mod...
Solar irradiation data is required in many applications to obtain the solar energy output. However, ...
Solar radiation is the driving force for the surface energy balance in buildings such as greenhouses...
An anisotropic model for predicting inclined surface solar irradiation has previously been reported ...
Global solar radiation is generally measured on a horizontal surface, whereas the maximum amount of ...
Global solar radiation is generally measured on a horizontal surface, whereas the maximum amount of ...
In this work new measurements of global and diffuse solar irradiance on the horizontal plane and glo...
Solar radiation data are essential in the design of solar energy conversion devices. In this regard,...
The validity of various models for predicting irradiance on inclined surfaces was investigated by em...
This report presents the first evaluations of 5 algorithms for converting global horizontal and dire...
The validity of an isotropic model for predicting daily irradiation on inclined surfaces was tested ...
Generally, in the weather stations, the global solar radiation is measured on horizontal surfaces. H...
A new, more accurate and considerably simpler version of the Perez[1] diffuse irradiance model is pr...
This thesis investigates variations in solar irradiance incident upon sloping surfaces under deciduo...
This work assesses the performance of five transposition models that estimate the global and diffuse...
In this paper, hourly terrestrial radiation: direct beam, diffuse and global solar radiation are mod...
Solar irradiation data is required in many applications to obtain the solar energy output. However, ...
Solar radiation is the driving force for the surface energy balance in buildings such as greenhouses...