Add to ORKGThe effectiveness of simple shading devices in reducing the direct, diffuse and ground reflected components of solar radiation has been measured and compared to simulation predictions of the same. The simulation results were found to be very sensitive to the value assumed for ground reflectance, and to the level of detail of the geometrical modelling of the shading devices. The best agreement total incident radiation was within 3 % over the course of a day
Solar simulators are common laboratory devices to artificially reproduce the Sun emission spectrum. ...
Empirical validations are integral components in assessing the overall accuracies of building energy...
THE SHADOWPACK PACKAGE OF COMPUTER PROGRAMS HAS BEEN DEVELOPED TO FACILITATE SHADING E...
In this paper an approach for pre-calculating building façade incident irradiance levels under a typ...
The solar protection feature of shading devices is characterized by the Solar Heat Gain Coefficient ...
In this paper, simplified algorithms to assess the indoor natural illuminance on a prefixed point wi...
Design of shading systems is essential, since they plays an important role in the modulation of dayl...
The calculation of sunlit surfaces in a building has always been a relevant aspect in building energ...
In the sixties of the last century solar calorimetric outdoor experiments have been performed on the...
Calculating the dynamic effects of surface overshadowing is a major part of most thermal analysis en...
Solar shading designs are important for reduction of building energy consumption and improvement of ...
Computer modeling and simulation has a relatively long history in the prediction of thermal and ligh...
The presented study describes a method for evaluating control strategies for shading devices. The me...
none5noSolar simulators are widely adopted devices to artificially reproduce the emission spectrum o...
Abstract – A method to determine the optimum total solar energy transmittance (G value) of a shading...
Solar simulators are common laboratory devices to artificially reproduce the Sun emission spectrum. ...
Empirical validations are integral components in assessing the overall accuracies of building energy...
THE SHADOWPACK PACKAGE OF COMPUTER PROGRAMS HAS BEEN DEVELOPED TO FACILITATE SHADING E...
In this paper an approach for pre-calculating building façade incident irradiance levels under a typ...
The solar protection feature of shading devices is characterized by the Solar Heat Gain Coefficient ...
In this paper, simplified algorithms to assess the indoor natural illuminance on a prefixed point wi...
Design of shading systems is essential, since they plays an important role in the modulation of dayl...
The calculation of sunlit surfaces in a building has always been a relevant aspect in building energ...
In the sixties of the last century solar calorimetric outdoor experiments have been performed on the...
Calculating the dynamic effects of surface overshadowing is a major part of most thermal analysis en...
Solar shading designs are important for reduction of building energy consumption and improvement of ...
Computer modeling and simulation has a relatively long history in the prediction of thermal and ligh...
The presented study describes a method for evaluating control strategies for shading devices. The me...
none5noSolar simulators are widely adopted devices to artificially reproduce the emission spectrum o...
Abstract – A method to determine the optimum total solar energy transmittance (G value) of a shading...
Solar simulators are common laboratory devices to artificially reproduce the Sun emission spectrum. ...
Empirical validations are integral components in assessing the overall accuracies of building energy...
THE SHADOWPACK PACKAGE OF COMPUTER PROGRAMS HAS BEEN DEVELOPED TO FACILITATE SHADING E...