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Energy Efficiency
Erschienen in: Energy Efficiency 4/2012

01.11.2012 | Original Article

Experimental study on the thermal performance of a traditional house with one-sided wind catcher during summer and winter

verfasst von: R. Shanthi Priya, M. C. Sundarraja, S. Radhakrishnan

Erschienen in: Energy Efficiency | Ausgabe 4/2012

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Abstract

The Nagapattinam district lies on the east coast to the south of Cuddalore and is bordered by the Bay of Bengal. The general geological formation of the district is plain and coastal. Energy conservation issues and environmental problems in recent years have increased interest in traditional architecture which is well known for its energy saving designs. This paper presents the quantitative evaluation of traditional buildings in the coastal region of Nagappattinam during summer and winter periods with the custom-made instrument called Mini-meteorological station to understand the various solar passive elements used in the traditional buildings that provide thermal comfort. In this paper, the comparison of thermal performance during winter and summer is explained.
Vorheriger Artikel Assessment of CO2 emission reduction and identification of CDM potential in a township
Nächster Artikel Investment in energy efficiency: do the characteristics of investments matter?

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Literatur
Auliciems, A. (1981). Towards a psycho physiological model of thermal perception. International Journal of Biometeorology, 25(2), 109–122.CrossRef
A'zami, A., Yasrebi, S.H., & Salehipoor, A. (2005). International conference, passive and low energy cooling 613 for the built environment. Santorini, Greece Climatic responsive architecture in hot and dry regions of Iran, May 2005
Bouden, C., & Ghrab, N. (2005). An adaptive thermal comfort model for the Tunisian context: a field study results. Energy and Buildings, 37(9), 952–963.CrossRef
Dili, A. S., Naseer, M. A., & Zacharia Varghese, T. (2010). Passive control methods of Kerala traditional architecture for a comfortable indoor environment: a comparative investigation during winter and summer. Building and Environment, 45, 1134–1143.CrossRef
El-Shorbagy, A.M. (2003) Design with nature: wind catcher as a paradigm of natural ventilation device in buildings. International Journal of Civil & Environmental Engineering, 10(03), 1–5.
Fathy, H. (1986). Natural energy and vernacular architecture: Principles and examples with reference to hot arid climates. Chicago: The University of Chicago press.
Feriadi, H., & Wong, N. H. (2004a). Thermal comfort for naturally ventilated houses in Indonesia. Energy and Buildings, 36(7), 614–626.CrossRef
Feriadi, H., & Wong, N. H. (2004b). Thermal comfort for naturally ventilated houses in Indonesia. Energy and Buildings, 36, 614–626.CrossRef
Helena, C. (1998). Bioclimatism in vernacular architecture. Renewable and Sustainable Energy Reviews, 2(1–2), 67–87.
International Conference, Passive and Low Energy Cooling 699 for the Built Environment. (2005). Santorini, Greece Traditional Indian architecture — The future solar buildings D. Vyas School of Architecture. India: IPS Academy.
Koeinsberger, O.H., Ingersoll, T.G., Mayhew, A., & Szokolay, S.V. (1975). Manual of tropical housing and building – climatic design. India: Orient Longman.
Krishnan, A., Baker, A., Yannas, N., & Szokolay, S. V. (2001). Climate responsive architecture — a design hand book for energy efficient buildings. New Delhi: Tata McGraw-Hill.
Montazeri, H., & Azizian, R. (2010). Experimental study on natural ventilation performance of one-sided wind catcher. Building and Environment, 45, 320–329.CrossRef
Olesen, B. W., & Parsons, K. C. (2002). Introduction to thermal comfort standards and to the proposed new version of EN ISO 7730. Energy and Buildings, 34(6), 537–548.CrossRef
Paradise, C., & Forster W. (1998) The vernacular as a model for sustainable design. Cardiff, Wales: Welsh School of Architecture, Cardiff University.
PLEA (2006). The 23rd Conference on passive and low energy architecture, Geneva, Switzerland, 6–8 September 2006.
Radhakrishnan, S., Shanthi Priya, R., Nagan, S., & Sundarraja, M. C. (2011). Climate responsive traditional architecture of Chettinadu Housing in Tamilnadu — a qualitative and quantitative analysis during summer. International Journal of Ventilation, 10(1), 42.
Singh, M. K., Mahapatra, S., & Atreya, S. K. (2010). Thermal performance study and evaluation of comfort temperatures in vernacular buildings of North-East India. Building and Environment, 45, 320–329.CrossRef
Metadaten
Titel
Experimental study on the thermal performance of a traditional house with one-sided wind catcher during summer and winter
verfasst von
R. Shanthi Priya
M. C. Sundarraja
S. Radhakrishnan
Publikationsdatum
01.11.2012
Verlag
Springer Netherlands
Erschienen in
Energy Efficiency / Ausgabe 4/2012
Print ISSN: 1570-646X
Elektronische ISSN: 1570-6478
DOI
https://doi.org/10.1007/s12053-012-9155-9

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