EFFECTS OF CLIMATE ON BUILDING ORIENTATION IN TABRIZ TRADITIONAL HOUSING: THE CASE OF BENHAM HOUSING
Year 2021,
Volume: 5 Issue: 1, 15 - 26, 30.06.2021
Abbas Shadmand
,
Semra Arslan Selçuk
References
- De Dear, R. (1998). Developing an Adaptive Model of Thermal Comfort and Preference, Field Studies of Thermal Comfort and Adaptation. ASHRAE Technical Data Bulletin, 14(1), 27-49.
- De Waal, H. (1993). New Recommendations for Building in Tropucal Climates. Building and Environment, 28(3), 271-285.
- Docherty, M. J., & Szokolay, S. V. (1999). Climate Analysis: PLEA, Passive and Low Energy Architecture.
- Ebrahimi, A. N., Rahimian, F. P., & Loron, M. S. (2013). Impacts of Climate on Genesis of Vernacular Architecture of Different Parts of Iran:
- Case Study of Cold and Dry Azerbaijan–Iran. ALAM CIPTA, International Journal of Sustainable Tropical Design Research and Practice, 6(1), 69-82.
- Esmaeili Sangari, H., & Omrani, B. (2014). History and Architecture of Old Tabriz Houses. Tabriz, Iran: Foruzesh Publication.
- Flohn, H. (1969). Ein geophysikalisches Eiszeit-Modell. E&G Quaternary Science Journal, 20(1), 204-231.
- Ghobadian, V. (2013). Climetic Analysis of the Traditional Iranian Buildings. Tehran, Iran: Tehran University Publication.
- Kasmaei, M. (2003). Climate and Architecture. Esfahan, Iran: Soil Publication.
- Kasmaei, M. (2005). Climate Design, Zoning and Guidelines for Cold Climates (Eastern Azarbayjan Province). Tehran, Iran: Building
- Resarch Center, and the Cultural Heritage Organization of East Azerbayjan Province
- Keynejad, M. A., & Shirazi, M. R. (2010). Historical Houses of Tabriz (Vol. 1). Tabriz, Iran: Tabriz Islamic Art University Press.
- Khatibi, M. (2019). Typology and Solar Gain Analysis: Vernacular Courtyard Houses of Tabriz, Iran. International Journal of Environmental Science & Sustainable Development, 4(3), 56-76.
- Koenigsberger, O. H., Ingersoll, T. G., Mayhew, A., & Szokolay, S. V. (1974). Manual of Tropical Housing and Building: Part One, Climatic Design. Longman Inc., New York.
- Köppen, W. (1918). Klassifikation der Klima nach Temperatur, Niederschlag und Jahreslauf. Pet. Mitt., 64, 243-248.
- La Roche, P. M. (2004). Passive cooling strategies for buildings in hot climates with specific application to Venezuela: University of California, Los Angeles.
- Memarian, G. H., & Pirnia, M. K. (2007). Stylistics of Iranian Architecture. Tehran, Iran: Soroush-e-Danesh Publication.
- Nejad Ebrahimi, A., & Taammoli, M. (2016). Orientation in Architecture and İts Role in The Formation of Historic Houses in Tabriz. Memari Shenasi Journal, 1(5), 1-12.
- Pirnia, M. K. (2007). Iranian Islamic Architecture. Tehran, Iran: Soroushe Danesh Publication.
- Roaf, S., Crichton, D., & Nicol, F. (2009). Adapting Buildings and Cities for Climate Change: A 21st Century Survival Guide, ASHRAE
- GreenGuide: The Design, Construction, and Operation of Sustainable Buildings, Algorithmic Architecture. Journal of
- Architectural/Planning Research and Studies (JARS), 6(1), 153-153.
- Saljoughinejad, S., & Sharifabad, S. R. (2015). Classification of climatic strategies, used in Iranian vernacular residences based on spatial constituent elements. Building and Environment, 92, 475-493.
- Shaterian, R. (2013). Climate and Architecture. Tehran: Simaye Danesh Publication.
- Singery, M., & Abdolinasir, S. (2012). Comparative Comparison of The Outer Shells of Residential Buildings in Traditional and Modern Textures of Tabriz with a Sustainability Approach. Islamic Iranian City Studies Journal, 7 (2), 53-62.
TEBRİZ GELENEKSEL KONUTLARINDA İKLİMİN BİNA YÖNLENDİRİLİŞİ ÜZERİNDEKİ ETKİLERİ: BENHAM KONUTU ÖRNEĞİ
Year 2021,
Volume: 5 Issue: 1, 15 - 26, 30.06.2021
Abbas Shadmand
,
Semra Arslan Selçuk
Abstract
İklimin mimari tasarım sürecini etkilediği akademik ortamda sürekli gündeme gelen konulardan biri olmuştur. Tasarım sürecinde binaların yönlendiriliş durumunda alınan karar da bu etkileşimin bir parçası olarak bilinmektedir. Ayrıca binaların yönlendiriliş durumu binalarda kullanılan enerji miktarını da doğrudan doğruya etkilemektedir. Bu makale, Tebriz kentinin geleneksel konutlarının yönlendiriliş durumunu incelemeye ve konutların yönlendiriliş durumlarının bulunduğu iklimle etkileşimini anlamaya çalışmıştır. Yapılan araştırma ile literatüre giren 10 geleneksel konut incelenmiş ve elde edilen veriler doğrultusunda geleneksel Tebriz konutunda iklimin bina yönlendiriliş durumu ile enerji tüketimindeki etkisi üzerinde durulmuştur ve bir bina örnek alınarak enerji tüketimi miktarı farklı yönlerde analiz edilmiştir.
References
- De Dear, R. (1998). Developing an Adaptive Model of Thermal Comfort and Preference, Field Studies of Thermal Comfort and Adaptation. ASHRAE Technical Data Bulletin, 14(1), 27-49.
- De Waal, H. (1993). New Recommendations for Building in Tropucal Climates. Building and Environment, 28(3), 271-285.
- Docherty, M. J., & Szokolay, S. V. (1999). Climate Analysis: PLEA, Passive and Low Energy Architecture.
- Ebrahimi, A. N., Rahimian, F. P., & Loron, M. S. (2013). Impacts of Climate on Genesis of Vernacular Architecture of Different Parts of Iran:
- Case Study of Cold and Dry Azerbaijan–Iran. ALAM CIPTA, International Journal of Sustainable Tropical Design Research and Practice, 6(1), 69-82.
- Esmaeili Sangari, H., & Omrani, B. (2014). History and Architecture of Old Tabriz Houses. Tabriz, Iran: Foruzesh Publication.
- Flohn, H. (1969). Ein geophysikalisches Eiszeit-Modell. E&G Quaternary Science Journal, 20(1), 204-231.
- Ghobadian, V. (2013). Climetic Analysis of the Traditional Iranian Buildings. Tehran, Iran: Tehran University Publication.
- Kasmaei, M. (2003). Climate and Architecture. Esfahan, Iran: Soil Publication.
- Kasmaei, M. (2005). Climate Design, Zoning and Guidelines for Cold Climates (Eastern Azarbayjan Province). Tehran, Iran: Building
- Resarch Center, and the Cultural Heritage Organization of East Azerbayjan Province
- Keynejad, M. A., & Shirazi, M. R. (2010). Historical Houses of Tabriz (Vol. 1). Tabriz, Iran: Tabriz Islamic Art University Press.
- Khatibi, M. (2019). Typology and Solar Gain Analysis: Vernacular Courtyard Houses of Tabriz, Iran. International Journal of Environmental Science & Sustainable Development, 4(3), 56-76.
- Koenigsberger, O. H., Ingersoll, T. G., Mayhew, A., & Szokolay, S. V. (1974). Manual of Tropical Housing and Building: Part One, Climatic Design. Longman Inc., New York.
- Köppen, W. (1918). Klassifikation der Klima nach Temperatur, Niederschlag und Jahreslauf. Pet. Mitt., 64, 243-248.
- La Roche, P. M. (2004). Passive cooling strategies for buildings in hot climates with specific application to Venezuela: University of California, Los Angeles.
- Memarian, G. H., & Pirnia, M. K. (2007). Stylistics of Iranian Architecture. Tehran, Iran: Soroush-e-Danesh Publication.
- Nejad Ebrahimi, A., & Taammoli, M. (2016). Orientation in Architecture and İts Role in The Formation of Historic Houses in Tabriz. Memari Shenasi Journal, 1(5), 1-12.
- Pirnia, M. K. (2007). Iranian Islamic Architecture. Tehran, Iran: Soroushe Danesh Publication.
- Roaf, S., Crichton, D., & Nicol, F. (2009). Adapting Buildings and Cities for Climate Change: A 21st Century Survival Guide, ASHRAE
- GreenGuide: The Design, Construction, and Operation of Sustainable Buildings, Algorithmic Architecture. Journal of
- Architectural/Planning Research and Studies (JARS), 6(1), 153-153.
- Saljoughinejad, S., & Sharifabad, S. R. (2015). Classification of climatic strategies, used in Iranian vernacular residences based on spatial constituent elements. Building and Environment, 92, 475-493.
- Shaterian, R. (2013). Climate and Architecture. Tehran: Simaye Danesh Publication.
- Singery, M., & Abdolinasir, S. (2012). Comparative Comparison of The Outer Shells of Residential Buildings in Traditional and Modern Textures of Tabriz with a Sustainability Approach. Islamic Iranian City Studies Journal, 7 (2), 53-62.