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Showing 2 results for zomorodian

Zahra Sadat Zomorodian, Farshad Nasrollahi,
Volume 23, Issue 1 (6-2013)
Abstract

School buildings as a major part of public buildings are considered as one of the basic consumers of energy in Iran. Based on building typology and occupancy patterns, school buildings have a great potentiality for energy optimization while providing thermal comfort. This study investigates the architectural design parameters such as orientation, optimum window to wall ratio, space organization, sun shading, building shape etc. which have a great impact on the energy demand. For the purpose of this study a typical elementary school has been selected, modeled and analyzed by integrating different design measures using a dynamic simulation software tool. The optimum amounts for various architectural design parameters are calculated. The results reveal that through energy efficient architectural design the primary energy demand of the studied case has reduced by 31% while keeping visual and thermal comfort compared to the existing building.
Z. S. Zomorodian, S.s. Korsavi, M. Tahsildoost,
Volume 26, Issue 1 (6-2016)
Abstract

Daylight in classrooms is a critical factor in school design, in terms of its impact on students’ health, learning and visual performance. Providing adequate amount of evenly distributed daylight and glare prevention are important challenges in classroom design. Window configuration significantly affects the intensity and uniformity of daylight. This paper aims to investigate the effect of window configuration on daylight performance through parametric analysis. Different window configurations such as window to wall ratio, incorporating light shelves and roof monitors have been analyzed on a typical south-east facing classroom in Kashan based on results from DesignBuilder Radiance simulation which has first been validated against field measurements. Daylighting credits of green building rating tools; Leed EQ 8.1 and BREEAM HEA1 have been used as indices for evaluating and comparing different window configurations. Results show that by increasing the window-wall-ratio to 35, 40 and 50% and by installing a roof monitor, the daylight credits of the BREEAM and LEED could be achieved respectively. According to the fact that none of these window configurations have reached the standards required by both rating tools, the authors believe that a combination of installing monitor roof and light shelves and increasing window-wall-ratio may result in enhanced daylight levels.



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