How to cite this paper
Mahmoodi, T & Iravani, M. (2012). Determination of bioclimatic comfort in Sirjan desert.Management Science Letters , 2(3), 769-774.
Refrences
Dili, A.S., Naseer, M.A., Zacharia Varghese, T. (2010).Thermal comfort study of Kerala traditional residential buildings based on questionnaire survey among occupants of traditional and modern buildings. Energy and Buildings, 42(11), 2139-2150
Evans, J. M. (2003). Evaluating comfort with varying temperatures: a graphic design tool. Energy and Buildings, 35(1), 87-93.
Filipp?n, C., Flores Larsen, S., Canori, M. (2010). Energy consumption of bioclimatic buildings in Argentina during the period 2001–2008. Renewable and Sustainable Energy Reviews, 14(4), 1216-1228.
Gaitani, N., Mihalakakou, G., & Santamouris, M. (2007). On the use of bioclimatic architecture principles in order to improve thermal comfort conditions in outdoor spaces. Building and Environment, 42(1), 317-324.
Hwang, R.L., Lin, T.P., Cheng, M.J., & Lo, J.H. (2010). Adaptive comfort model for tree-shaded outdoors in Taiwan. Building and Environment, 45(8), 1873-1879.
Lin, T.P., Matzarakis, A., & Hwang, R.L. (2010).Shading effect on long-term outdoor thermal comfort. Building and Environment, 45(1), 213-221.
Mahmoud, A.H.A. (2011). An analysis of bioclimatic zones and implications for design of outdoor built environments in Egypt. Building and Environment, 46(3), 605-620.
Manio?lu, G., & Y?lmaz, Z. (2006). Economic evaluation of the building envelope and operation period of heating system in terms of thermal comfort. Energy and Buildings, 38(3), 266-272.
Makaremi, N., Salleh, E., Zaky Jaafar, M., & GhaffarianHoseini, A. (2012). Thermal comfort conditions of shaded outdoor spaces in hot and humid climate of Malaysia. Building and Environment, 48, 7-14.
Omer, A.M. (2008). Renewable building energy systems and passive human comfort solutions. Renewable and Sustainable Energy Reviews, 12(2), 1562-1587.
Toy, S., Yilmaz, S., & Yilmaz, H. (2007). Determination of bioclimatic comfort in three different land uses in the city of Erzurum, Turkey. Building and Environment, 42(3), 1315-1318.
Zengin, M., Kopar, I., & Karahan, F. (2010). Determination of bioclimatic comfort in Erzurum–Rize expressway corridor using GIS. Building and Environment, 45(1), 158-164.
Evans, J. M. (2003). Evaluating comfort with varying temperatures: a graphic design tool. Energy and Buildings, 35(1), 87-93.
Filipp?n, C., Flores Larsen, S., Canori, M. (2010). Energy consumption of bioclimatic buildings in Argentina during the period 2001–2008. Renewable and Sustainable Energy Reviews, 14(4), 1216-1228.
Gaitani, N., Mihalakakou, G., & Santamouris, M. (2007). On the use of bioclimatic architecture principles in order to improve thermal comfort conditions in outdoor spaces. Building and Environment, 42(1), 317-324.
Hwang, R.L., Lin, T.P., Cheng, M.J., & Lo, J.H. (2010). Adaptive comfort model for tree-shaded outdoors in Taiwan. Building and Environment, 45(8), 1873-1879.
Lin, T.P., Matzarakis, A., & Hwang, R.L. (2010).Shading effect on long-term outdoor thermal comfort. Building and Environment, 45(1), 213-221.
Mahmoud, A.H.A. (2011). An analysis of bioclimatic zones and implications for design of outdoor built environments in Egypt. Building and Environment, 46(3), 605-620.
Manio?lu, G., & Y?lmaz, Z. (2006). Economic evaluation of the building envelope and operation period of heating system in terms of thermal comfort. Energy and Buildings, 38(3), 266-272.
Makaremi, N., Salleh, E., Zaky Jaafar, M., & GhaffarianHoseini, A. (2012). Thermal comfort conditions of shaded outdoor spaces in hot and humid climate of Malaysia. Building and Environment, 48, 7-14.
Omer, A.M. (2008). Renewable building energy systems and passive human comfort solutions. Renewable and Sustainable Energy Reviews, 12(2), 1562-1587.
Toy, S., Yilmaz, S., & Yilmaz, H. (2007). Determination of bioclimatic comfort in three different land uses in the city of Erzurum, Turkey. Building and Environment, 42(3), 1315-1318.
Zengin, M., Kopar, I., & Karahan, F. (2010). Determination of bioclimatic comfort in Erzurum–Rize expressway corridor using GIS. Building and Environment, 45(1), 158-164.