Mohammadi M, Heidari Sh. Air flow window an effective element in reduction of buildings' energy consumption in Tehran. Honar-Ha-Ye-Ziba. 2015;20(2):13-22. [Persian]
Saghafi MJ, Tavassoli N. The effect of the ventilated air layer in the new open joint facade on energy performance of the building. Naqshe-Jahan. 2016;6(3):5-14. [Persian]
Afshinmehr V, Aref F, Shanehsaz M. A numerical analysis of double skin facades in summer. Naqshe-Jahan. 2015;5(2):77-85. [Persian]
Hensen J, Bartak M, Drkal F. Modeling and simulation of a double-skin façade system. ASHRAE Trans. 2002;108(2):1251-9.
Ding W, Hasemi Y, Yamada T. Natural ventilation performance of a double skin facade with a solar chimney. Energy Build. 2005;37(4):411-8.
Mahmoodi M, Nivi S. The process of climate technology development with a sustainable development approach. Naqshe-Jahan. 2011;1(1):35-52. [Persian]
Gratia E, De Herde A. Natural cooling strategies efficiency in an office building with a double-skin façade. Energy Build. 2004;36(11):1139-52.
Hashemi N, Fayaz R, Sarshar M. Termal behavior of a ventilated double skin facade in hot arid climate. Energy Build. 2010;42(10):1823-32.
Gratia E, De Herde A. Greenhouse effect in double-skin facade. Energy Build. 2007;39(2):199-211.
Jiru TE, Haghighat F. Modeling ventilated double skin façade-A zonal approach. Energy Build. 2008;40(8):1567-76.
Baldinelli G. Double skin façades for warm climate regions: Analysis of a solution with an integrated movable shading system. Build Environ. 2009;44(6):1107-18.
Mulyadi R, Yoon G, Okumiya M. Study on solar heat gain and thermal transmittance of east and west facing double skin façade in hot and humid climate. AIJ J Technol Des. 2012;18(40):989-94.
Ghanbaran A, Hosseinpour MA. Assessment of design parameter influence on energy efficiency in educational buildings in Tehran’s climate. Naqshe-Jahan. 2016;6(3):51-62. [Persian]
نقش جهان - مطالعات نظری و فناوری های نوین معماری و شهرسازی