Palavras-chave: Iluminação natural; Orientação das aberturas; Largura de via; Altura da edificação obstruidora.
AbstractThis study presents a discussion related to daylighting in the indoor environment, with the research goal of examining the relationship between urban geometry and the orientation of openings in the availability of daylighting in the indoor environment. The ratio between road width (L) and the height of obstructing buildings (H) was used in urban geometry, adopting the H=2,0.L, H=2,5.L and H=3,0.L ratios. North, South, East, West, Northeast, Southeast, Northwest, and Southwest orientations were used for the openings. The overall average illuminance values of the indoor environment were compared with intervals of UDI (Useful Daylight Illuminance). For that, the overall average illuminance values were generated by simulation using the Tr opLux program, in a rectangular environment inserted in an urban setting in the city of Vitória, latitude 20°19' S. Simulations were carried out for three types of sky patterns from CIE (Commission Internationale L´aclairage). It is noted that, for all three analyzed sky types, illuminance was reduced as the ratio between H and L increased. For sky type 3 (cloudy), it was revealed that, for all urban geometry ratios for all orientations of the openings, all illuminance values are within a sufficient range but in need of additional lighting. Sky type 3 (partly cloudy) and sky type 12 (clear), most illuminances are in the sufficient range, with a few exceptions observed in openings with South, Southwest, West, and Southeast orientations. The highest rates of the indoor illuminance for all sky types was also found to occur when the urban geometry ratios vary from H=2,0.L to H=2,5.L. For sky type 7 (partly cloudy) and sky type 12 (clear), as the ratio between the width of road and height the obstructing buildings increases, the variation in the orientation of the openings has increasingly less influence on illuminance.
