The optical properties of the curve

The optical properties of the curved venetian blind with thickness are now compared with the optical properties calculated
from three previous models, EnergyPlus, Pfrommer and Parmelee model (EnergyPlus, 2005; Pfrommer et al.,1996; Parmelee and Aubele, 1952).
EnergyPlus model was originally developed by Simmler et al. (1996) for DOE-2 building energy calculation program (Chantrasrisalai and Fisher, 2004). The EnergyPlus model is only applicable for a flat slat blind with diffuse reflecting surfaces.
It employs the net radiosity method to solve radiative energy exchange within the closed enclosure formed by two consecutive slats.
EnergyPlus model also applies the correction factor to account for the slat thickness. Pfrommer et al.(1996) developed a single optical blind model for both specular and diffuse reflecting slat surfaces.
The model can describe the slat surface that neither purely specular nor purely diffuse.
Parmelee and Aubele (1952) present two optical models; one for a specular reflecting surface and one for a diffuse reflecting surface.
For a diffuse reflecting surface, Parmelee model considers infinite reflections between slats whereas Pfrommer model considers only two reflections.
Among three models, EnergyPlus model and Parmelee model have the correction for the slat thickness but they do not have correction for the slat curvature.
Pfrommer model has corrections to account for the effect of slat curvature but Pfrommer model does not have the correction for slat thickness.
In this study, only a diffuse reflecting slat surface is considered. The optical properties for a flat slat blind from Parmelee model is calculated by using Monte Carlo ray tracing method.