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  • The Principles of Openings and their Effects on the Natural Ventilation in Residential Buildings in Temperate and Humid Climates of Iran (Sample cases: Kolbadi house in Sari, and Shafahi house in Amol)

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Manuscript ID : JEST-1709-3918 (R1) Visit : 186 Page: 349 - 362

10.22034/jest.2021.30727.3918

Article Type: Original Research

The Principles of Openings and their Effects on the Natural Ventilation in Residential Buildings in Temperate and Humid Climates of Iran (Sample cases: Kolbadi house in Sari, and Shafahi house in Amol)

Subject Areas : Renewable Energy

Mahboobeh Pourmousa 1 , Seyed Majid Mofidi Shemirani 2 , Mahnaz Mahmoudi Zarandi 3

1 - Ph.D. Candidate, Department of Architecture, College of Art and Architecture, Science and Research Branch, Islamic Azad University, Tehran, Iran.
2 - Assistant Professor, Department of Architecture, College of Art and Architecture, Science and Research Branch, Islamic Azad University, Tehran, Iran. *(Corresponding Authors)
3 - Assistant Professor, Department of Architecture, College of Art, Tehran North Branch, Islamic Azad University, Tehran, Iran.

Received: 2017-09-27 Accepted : 2017-12-13 Published : 2020-10-22

Keywords: temperate and humid climate, Thermal Comfort, opening, Natural ventilation,

Abstract :

Background and Objective: The use of non-renewable energies in the past has led to diminished energy resources together with emission of greenhouse gases, and the serious problem of climate changes. Therefore, using an alternative model will have a significant share in reducing energy consumption, and more importantly, improving the quality of life. The improvement in indoor air quality and subsequent indoor thermal comfort using natural ventilation relies on such factors as air flow, indoor and outdoor temperatures, surrounding buildings, and most importantly, proportions of openings. Among these factors, opening and its design can be best controlled. Method: In the present article, the ventilations in Kolbadi house-Sari and Shafahi house-Amol (both belonging to the Qajar period) are analyzed in Fluent using CFD method. Findings: According to the results, there is a direct relationship between the volume of ventilation space (space configuration) and position of openings, and configuration and proportion of inlet opening to outlet opening has a direct effect on the behavior of air flow in natural cross ventilation, and can affect air flow velocity for better ventilation. In case of openings that play the role of ventilation, it is better to enlarge the inlet instead of minifying the outlets to improve the efficiency of the ventilation. Discussion and Conclusion: In the software analyzes, the results were identical for almost all areas examined. The analyses confirmed the increased airflow rate by a "2-fold" ratio of the opening area of the inlet to the outlet with similar results.  Therefore, in Cs climate of Iran, the relationship of climate with indigenous architecture, the need for natural air flow and physical specifications of opening for human comfort can be observed.  

References:


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_||_

  1. Clements-Croome, D. (Ed.). 2002. Naturally Ventilated Buildings: Building for the senses. the economy and society, Routledge.
    2.
  2. Prakash, D., & Ravikumar, P., 2015. Analysis of thermal comfort and indoor air flow characteristics for a residential building room under generalized window opening position at the adjacent walls. International Journal of Sustainable Built Environment, Vol. 4(1), pp. 42-57.
    3.
  3. Teppner, R., Langensteiner, B., Meile, W., Brenn, G., & Kerschbaumer, S., 2014. Air change rates driven by the flow around and through a building storey with fully open or tilted windows: An experimental and numerical study. Energy and buildings, Vol. 80, pp. 570-583.
    4.
  4. Gao, C. F., Lee, W. L., 2011. Evaluating the influence of openings configuration on natural ventilation performance of residential units in Hong Kong. Building and environment, Vol. 46(4), pp. 961-969.
    5.
  5. Hassan, M. A., Guirguis, N. M., Shaalan, M. R., & El-Shazly, K. M., 2007. Investigation of effects of window combinations on ventilation characteristics for thermal comfort in buildings. Desalination, Vol. 209(1-3), pp. 251-260.
    6.
  6. Allard, F., Ghiaus, C., 2005. Natural ventilation in the urban environment: assessment and design. Earthscan.
    7.
  7. Ghobadian, V., Faze Mahdavi, M., 2008. Climatic Design (Efficient building principles and practices). Watson, D., Labs, K., Tehran, University of Tehran Press, p p. 64, 214. (In Persian)
    8.
  8. Artmann, N., Manz, H., & Heiselberg, P., 2007. Climatic potential for passive cooling of buildings by night-time ventilation in Europe. Applied energy, Vol. 84(2), pp. 187-201.
    9.
  9. Favarolo, P. A., & Manz, H., 2005. Temperature-driven single-sided ventilation through a large rectangular opening. Building and Environment, Vol. 40(5), pp. 689-699.
    10.
  10. Razjouyan, M., 2014. Comfort Design with Climate. Tehran, Shahid Beheshti University, p. 160. (In Persian)
    11.
  11. Puriany, J., 2014. Historical houses of Sari. Tehran, Resanesh Novin, pp. 20-21. (In Persian)
    12.

 

 

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