شارک

عنوان URL للمقالة


رقم المقالة : SOIJ-1704-1009 (R1) زيارة : 360 الصفحة: 33 - 48

20.1001.1.23456450.2017.6.4.3.0

نوع المخطوط: ابحاث

Thermal Behavior of Double Skin Facade in Terms of Energy Consumption in the Climate of North of Iran-Rasht

الموضوعات : Space Ontology International Journal

Narges Rezazadeh 1 , Hossein Medi 2

1 - Department of Architecture, Faculty of Architecture and Urbanism Engineering, Qazvin Islamic Azad University, Qazvin, Iran
2 - Assistant Professor, Department of Architecture, Faculty of Architecture and Urban Development, Imam Khomeini International University

تاريخ الإرسال : 25 السبت , رجب, 1438 تاريخ التأكيد : 05 الأربعاء , جمادى الثانية, 1439 تاريخ الإصدار : 13 الجمعة , ربيع الأول, 1439

الکلمات المفتاحية: optimizing, Double Skin Facade, Reducing energy consumption, office buildings, moderate climate,

ملخص المقالة :

Industrialization and increasing demand for the consumption of fossil fuels cause that energy becomes a strategic factor. Energy crisis and the emergence of modern architecture led designers to pay more attention to the important task of building's envelope. Building skins play an important role in building thermal behavior and reduce energy consumption. If Double Skin Facades properly designed it can improve thermal comfort conditions and can reduce energy consumption. DSF's efficiency in each region highly depends on the climate. The number of DSFs is few especially in Moderate and humid climate of north of Iran, but there is an increasing tendency to use them. This study seeks to prove this hypothesis: It seems by changing the size of cavity between Double Skin Facades, it can achieve a favorable temperature for indoor thermal comfort. For this purpose a theoretical framework based on literature studies as a first step. Theoretical thermal performance of DSF was studied before it was applied on designed building by using thermal simulation software then absorption of direct and indirect solar gain in the building simulated in ECOTECT and various states were examined. For the assessments the number of hours of employee's comfort, direct and indirect solar gains and hourly temperature of floors in the building designed using DSF were calculated. Suitable width of air voids has been studied in this research too. It was found that designed building with DSF-Shaft box type with 75 cm cavity width is more suitable for the climate of Rasht.

المصادر:


  1. Azarbaijani, M. (2010). Beyond Arrows: Energy Performance of a new, naturally ventilated Double Skin Façade configuration for a high Rise office building in Chicago. PhD thesis, Department of Architecture, University of Illinois, Urbana-Champaign, USA.
    2.
  2.  Diba, D.and Yaghini, Sh. (1993)  'Analysis of vernacular architecture of Gilan', Journal of Architecture and Urbanism, 24 (October-November): 6–16.(In persian)
    3.
  3.  Enayati, K., Tarkashvan, A., (2014) ' Evaluation of some features of the two southern skins in the temperate climate of Rasht', The Journal of  Fine Arts(TARH-O-NAMAD),6(7), PP.75–90. (In persian)
    4.
  4.  Faggembauu, D., Costa, M., Soria, M., Et al. (2003) 'Numerical analysis of the thermal behaviour of ventilated glazed facades in Mediterranean climates. Part I: development and validation of a numerical model', Journal of Solar Energy, 75 (3): 217–228.
    5.
  5.  Ghabaklou, Z. (2009) Introduction to EcoTech Software. Amirkabir University Jihad unit, Tehran. (In Persian)
    6.
  6.  Gratia, E., De Herde, A. (2004-A) 'Optimal operation of a south double-skin facade', Journal of Energy and Buildings, 36 (1): 41–60.
    7.
  7. Gratia, E., De Herde, A. (2004-B) 'Is day natural ventilation still possible in office buildings with a double-skin façade?', Journal of Energy and Buildings, 39 (4): 399-409.
    8.
  8. Hadianpour, M., MahdaviNejad, M.J., Bemanian, M.R., Haghshenas, M., (2014) 'Feasibility Study of Using Double Skin Façade in Architectural Design of Hot-Dry Climate of Iran, in order to Save Energy (Case Study Yazd City) ', HONAR-HA-YE-ZIBA MEMARI-VA-SHAHRSAZI, 19(3), PP. 29–38. (In persian)
    9.
  9. Hamza, H., (2008) 'Double versus single skin facades in hot arid areas', Journal of Building and Environment, 40(3):240–248.
    10.
  10. Høseggen, R., Wachenfeldt, B.J., Hanssen, S.O.,(2008) 'Building simulation as an assisting tool in decision making: Case study: With or without a double-skin facade?, Journal of Energy and Buildings, 40 (5), 821–827.
    11.
  11. Kasmaei, M. (2009) Climatic Design,Zoning and Guidelines for Moderate Climates(Gilan and Mazandaran Provinces).Tehran: BHRC. (In persian)
    12.
  12. Mahdizadeh, F., Danesh, M.M., Sanayeian, H.,(2014) ' The Effects of Inner and Outer layers of Double Glazed Facade on the Rate of Energy Consumption in Official and Educational Buildings (Case study: Iran University of Science and Technology)', Journal of Environmental Science and Technology (JEST), 16(3),PP. 181–190.(In persian)
    13.
  13. Oesterle, E., Lieb, R-D., Lutz, M., Et al. (2001) Double Skin Facades Integrated Planning. Munich: Prestel Publishing.
    14.
  14. Poirazis, H.(2004) Double Skin Facades for office buildings. Sweden: Lund Institude of Technology.
    15.
  15. Saelens, D., Roles, S., Hense, H., (2008) 'Strategies to improve the energy performance of multiple-skin facades', Journal of Building and Environment, 43: 638-650.
    16.
  16. Torres, M., Alavedra, P., Guzman, A., Et al. (2007) 'Double Skin Facades-Cavity and exterior opening dimensions for saving energy in a Mediterranean climate' Proceedings building simulation. http://www.ibpsa.org/?page_id=111(accessed 28 September 2016).
    17.
  17. Wong, P.C., Prasad, D. Behnia, M.,(2008) 'A new type of double-skin façade configuration for the hot and humid climate', Journal of Energy and Buildings, 40 (10): 1941–1945.
    18.
  18. Medi, H. (2011) ECOTECT Application Guide. Pendarepars, Tehran. (In Persian)
    19.
  19. Zolfaghari, A., Sa'adati Nasab, M., Nourozi Jajarm, E.,(2015) ' Enery analysis of using double skin façade with phase change materials in a high-rise bilding under climatic conditions of Tehran', Journal of Modares Mechanical Engineering, 15(5), PP. 34–40. (In persian)
    20.

 

Website  References



  1. http://cajaislant.com/blog-cajaislant/, 2018.
    2.
  2. http://www.altechiran.com/project_item_f.aspx?id=
    169510863, 2018.
    3.

سند

Sanad is a platform for managing Azad University publications

الروابط

المراكز ذات الصلة

دعامة

الصفحات الرسمية

حقوق هذا الموقع الإلكتروني مملوكة لنظام SANAD Press Management. © 1442-1446

الصفحة الرئيسية| دخول| معلومات عنا| اتصل بنا|
[English] [فارسی] [en] [fa]