باغ نظر

تأثیرات فضاهای بسته و نیمه‌باز انتقالی خانه‌های مسکونی بر آسایش حرارتی انسان در اقلیم گرم‌وخشک ایران (کرمان)

https://doi.org/10.22034/bagh.2025.485720.5694
دوره 22، شماره 142
فروردین 1404
صفحه 57-70
باغ نظر

نوع مقاله : مقالۀ پژوهشی

نویسندگان

رضوان خلیفه‌ای 1
مهناز محمودی زرندی 2
فاطمه مهدیزاده سراج 3

1 دانشجوی دکتری معماری،گروه معماری، واحد تهران شمال،دانشگاه آزاد اسلامی، تهران، ایران.

2 دانشیار، گروه معماری، واحد تهران شمال،دانشگاه آزاد اسلامی، تهران، ایران.

3 استاد، گروه معماری، دانشکدۀ معماری و شهرسازی، دانشگاه علم و صنعت ایران، تهران، ایران.

چکیده
بیان مسئله: در مناطق گرم‌وخشک مانند کرمان، طراحی معماری بومی با بهره‌گیری از استراتژی‌های غیرفعال اهمیت ویژه‌ای دارد؛ زیرا می‌تواند شرایط حرارتی مطلوب و آسایش بلندمدت ساکنان را در مقابل نوسانات دمایی فزاینده تضمین کند. ازاین‌رو، بررسی تأثیر فضاهای داخلی و نیمه‌باز در ساختمان‌های بومی کرمان از منظر محیط حرارتی و رفتارهای سازگاری حرارتی، اهمیت بالایی دارد. 
هدف پژوهش: تعیین و بررسی تأثیر جامع فضاهای داخلی و نیمه‌باز ساختمان‌های بومی کرمان بر محیط حرارتی، رفتارهای سازگاری حرارتی و پاسخ‌های حرارتی ساکنان در اقلیم گرم‌وخشک. 
روش پژوهش: در این تحقیق، با استفاده از روش‌های آماری پیشرفته، داده‌های یک مطالعۀ میدانی یک‌ساله جمع‌آوری و تحلیل شد. ارزیابی‌های انجام‌شده شامل اندازه‌گیری‌های محیطی در فضاهای داخلی و نیمه‌باز به‌همراه تعیین شاخص‌های آسایش حرارتی بر مبنای استانداردهای موجود است. 
نتیجه‌گیری: نتایج به‌دست‌آمده نشان می‌دهد، محیط‌های حرارتی فضاهای داخلی و نیمه‌باز به‌طور معناداری متفاوت هستند و در زمان‌های مختلف روز، شرایط متفاوتی از آسایش حرارتی را ارائه می‌کنند. همچنین، رفتارهای سازگاری حرارتی ساکنان به پیکربندی فضایی ساختمان‌ها وابسته است. ازجمله یافته‌های قابل توجه، اختلاف در شاخص‌های دمای خنثی، دمای قابل قبول (۸۰ درصد) و دمای ترجیحی است که به‌ترتیب در فصول انتقالی و تابستان به اندازه‌های 1/1 و 9/0 درجۀ سانتی‌گراد (دمای خنثی)، 2/2 و 7/2 درجۀ سانتی‌گراد (دمای قابل قبول) و 6/1 درجۀ سانتی‌گراد (دمای ترجیحی) مشاهده شده است. یافته‌ها تأیید می‌کنند، تنوع محیط‌های حرارتی موجود در ساختمان‌های بومی کرمان به‌طور معناداری بر رفتارهای سازگاری حرارتی و سطح آسایش ساکنان تأثیرگذار است. طراحی هوشمند فضاهای داخلی و نیمه‌باز با ایجاد شرایط حرارتی متفاوت، موجب تحریک سازگاری حرارتی و بهبود آسایش ساکنان می‌شود که این امر نقش حیاتی معماری بومی در سازگاری با اقلیم گرم‌وخشک را برجسته می‌سازد.

کلیدواژه‌ها

فضاهای نیمه‌باز
فضاهای انتقالی
خانه‌ مسکونی
آسایش حراراتی
اقلیم گرم‌وخشک

عنوان مقاله English

The Influence of Enclosed and Semi-Open Transitional Spaces in Residential Houses on Human Thermal Comfort in the Hot and Arid Climate of Iran (Kerman)

نویسندگان English

Rezvan Khalifeie 1
Mahnaz Mahmoudi Zarandi 2
Fatemeh Mehdizadeh Saraj 3
1 Ph.D. Candidate in Architecture, Department of Architecture, North Tehran Branch, Islamic Azad University,Tehran, Iran.
2 Associate Professor, Department of Architecture, North Tehran Branch, Islamic Azad University, Tehran, Iran.
3 Professor, Department of Architecture and Environmental Design, Iran University of Science and Technology, Tehran, Iran.
چکیده English

Problem statement: In hot and arid regions such as Kerman, vernacular architectural design plays a crucial role in ensuring optimal thermal conditions and long-term comfort for residents amid increasing temperature fluctuations. Given this significance, assessing the impact of enclosed and semi-open spaces in Kerman’s traditional buildings from the perspectives of thermal environment and adaptive thermal behavior is of high importance.
Research objective: This study aims to comprehensively examine the influence of enclosed and semi-open spaces in Kerman’s vernacular buildings on thermal environment, thermal adaptation behaviors, and residents’ thermal responses in a hot and arid climate.
Research method: Utilizing advanced statistical methods, this research gathered and analyzed data from a year-long field study. The assessments included environmental measurements in both enclosed and semi-open spaces and the determination of thermal comfort indices based on existing standards.
Conclusion: Findings indicate a significant difference in the thermal environments of enclosed and semi-open spaces, leading to varied thermal comfort conditions at different times of the day. Furthermore, residents’ thermal adaptation behaviors are closely linked to the spatial configuration of buildings. Notable findings include differences in neutral temperature, acceptable temperature (80% satisfaction), and preferred temperature, measured at 1.1°C and 0.9°C (neutral temperature), 2.2°C and 2.7°C (acceptable temperature), and 1.6°C (preferred temperature) during transitional seasons and summer, respectively. The results confirm that the thermal diversity present in Kerman’s vernacular buildings significantly impacts adaptive thermal behaviors and residents’ comfort levels. The smart design of enclosed and semi-open spaces, by offering distinct thermal conditions, enhances thermal adaptation and improves overall comfort, emphasizing the critical role of vernacular architecture in adapting to hot and arid climates.

کلیدواژه‌ها English

  • Semi-open spaces
  • transitional spaces
  • residential house
  • thermal comfort
  • hot and arid climate
Azami, A., Yasrebi, S. H., & Salehipour, A. (2005). Climate-responsive architecture in Iran’s hot and arid regions. The International Conference on Passive and Low Energy Cooling for the Built Environment, Santorini, Greece. https://www.researchgate.net/publication/351387906_Climatic_responsive_architecture_in_hot_and_dry_regions_of_Iran 
Pourvahidi , P., & Özdeniz, M.. (2013). Bioclimatic analysis of Iran’s climate for energy conservation in architecture. Scientific Research and Articles, 8(1), 6-16. https://www.researchgate.net/publication/282332528_Bioclimatic_analysis_of_Iranian_climate_for_energy_conservation_in_architecture 
Rajabi, F., Zare, L., & Hosseini, S. B. (2022). A technical synergy of cognitive maps and space syntax in recognition and analysis of the sociability of physical spaces influenced by spatial territories (Case study: Ekbatan Town). Bagh-e Nazar, 19(108), 5-16. https://doi.org/10.22034/bagh.2021.293678.4933 
Rodriguez, I., Fereidouni, N. A., Fernandez, M. S., & Gaspar, A. R. (2023). Climate change and the optimal heat transfer of residential buildings in Iran. Journal of Building Engineering, 74, 106919. https://doi.org/10.1016/j.jobe.2023.106919 
Tayari, N., & Nikpour, M. (2022). Effect of Different Proportions of Courtyard Buildings in Hot-Dry Climate on Energy Consumption (Case Study: Traditional Courtyard Houses of Kerman, Iran). Iranica Journal of Energy & Environment, 13(1), 39-45.  https://doi.org/10.5829/ijee.2022.13.01.05
Farnad, F., Kamran Kasmaei, H., Khakzand, M., & Memarian, G. (2022). Morphology and correlation study of variables of the courtyard system in Kashan. Journal of Urban Ecology Researches, 13(3, Series 28), 61-80. https://doi.org/10.30473/grup.2022.62449.2678 
Kamran Kasmaei, H., Daneshjou, K., & Mofidi Shemirani, S. M. (2017). Comparative study of vernacular architecture adapted to the temperate and humid climate of western Guilan plains (Case study: Villages of Gasht, Shalma, and Gilaneh). International Journal of Architecture and Urban Studies, 7(3), 9-16. https://www.researchgate.net/publication/361249395_A_Comparative_Study_of_Vernacular_Architecture_Compatible_with_Mild_and_Humid_Weather_in_Gilan%27s_Western_Plains_Case_study_Gasht_Shalma_and_Gilandeh_villages 
Kamlipour, H., Memarian, G. H., Faizi, M., & Mousavian, S. M. F. (2012). Formal classification & spatial configuration in vernacular housing: A comparative study on the zoning of the reception area in traditional houses of Kerman Province. Journal of Housing and Rural Environment (JHRE), 31(138), 3-16. http://jhre.ir/article-1-404-fa.html 
Keshtkaran, S. (2011). Harmonization between climate and architecture in vernacular heritage: a case study in Yazd, Iran. Procedia Engineering, 21, 428-438. https://www.academia.edu/33342876/Harmonization_between_climate_and_architecture_in_vernacular_heritage_a_case_study_in_Yazd_Iran 
Memarian, G., & Brown, F. E. (2003). Climate, culture, and religion: Aspects of the traditional courtyard house in Iran. Journal of Architectural and Planning Research, 20(3), 181-198. https://www.jstor.org/stable/43030659 
Al-Hemiddi, N. A., & Al-Saud, K. A. M. (2001). The effect of a ventilated interior courtyard on the thermal performance of a house in a hot-arid region. Renewable Energy, 24(3–4), 581–595. https://doi.org/10.1016/S0960-1481(01)00045-3 
ASHRAE. (2017). Standard 55-2017, Thermal Environmental Conditions for Human Occupancy. ASHRAE & The American National Standards Institute. https://www.google.com/url?sa=t&source=web&rct=j&opi=89978449&url=https://www.ashrae.org/technical-resources/bookstore/standard-55-thermal-environmental-conditions-for-human-occupancy&ved=2ahUKEwiL9PLrre2LAxU_QkEAHV-uIx4QFnoECBMQAQ&usg=AOvVaw3kK8CPM9qpfTiZzBJXTAFQ 
Chen, S., Wang, X., Lun, I., Chen, Y., Wu, J., & Ge, J. (2020). Effect of inhabitant behavioral responses on adaptive thermal comfort under hot summer and cold winter climate in China. Building and Environment, 168. https://doi.org/10.1016/j.buildenv.2019.106492 
Dili, A., Naseer, M., & Varghese, T. Z. (2010). Thermal comfort study of Kerala traditional residential buildings based on questionnaire survey among occupants of traditional and modern buildings. Energy and Buildings, 42(11), 2139–2150. https://doi.org/10.1016/j.enbuild.2010.07.004
Du, X., Bokel, R., & van den Dobbelsteen, A. (2014). Building microclimate and summer thermal comfort in free-running buildings with diverse spaces: a Chinese vernacular house case. Building. 
Fernandes, J., Mateus, R., Gervásio, H., Silva, S. M., & Bragança, L. (2019). Passive strategies used in Southern Portugal vernacular rammed earth buildings and their influence in thermal performance. Renewable Energy, 142, 345-363. https://doi.org/10.1016/j.renene.2019.04.098
Han, J., Zhang, G., Zhang, Q., Zhang, J., Liu, J., Tian, L., Zheng, C., Hao, J., Lin, J., Liu, Y., & Moschandreas, D. J. (2007). Field study on occupants thermal comfort and residential thermal environment in a hot-humid climate of China. Building and Environment, 42(12), 4043-4050. https://doi.org/10.1016/j.buildenv.2006.06.028 
Indraganti, M. (2010). Behavioral adaptation and the use of environmental controls in summer for thermal comfort in apartments in India. Energy and Buildings, 42(7), 1019–1025. https://doi.org/10.1016/j.enbuild.2010.01.014
Li, T., Horton, R. M., Bader, D. A., Liu, F., Sun, Q., & Kinney, P. L. (2018). Long-term projections of temperature-related mortality risks for ischemic stroke, hemorrhagic stroke, and acute ischemic heart disease under changing climate in Beijing, China. Environment International, 112, 1-9. https://doi.org/10.1016/j.envint.2017.12.006
Liu, J., Wang, L., Yoshino, Y., & Liu, Y. (2011). The thermal mechanism of warm in winter and cool in summer in China traditional vernacular dwellings. Building and Environment, 46(8), 1709–1715. https://doi.org/10.1016/j.buildenv.2011.02.012
Rijal, H. B. (2021). Thermal adaptation of buildings and people for energy saving in extreme cold climate of Nepal. Energy and Buildings, 230, 110551. https://doi.org/10.1016/j.enbuild.2020.110551
Rijal, H., Yoshida, H., & Umemiya, N. (2010). Seasonal and regional differences in neutral temperatures in Nepalese traditional vernacular houses. Building and Environment, 45(12), 2743–2753. https://doi.org/10.1016/j.buildenv.2010.06.002
Shao, N., Ma, L., & Zhang, J. (2018). Study on the rural residence heating temperature based on the residents’ behavior pattern in South Liaoning province. Energy and Buildings, 174, 179-189. https://doi.org/10.1016/j.enbuild.2018.06.023
Soleymanpour, R., Parsaee, N., & Banaei, M. (2015). Climate comfort comparison of vernacular and contemporary houses of Iran. Procedia - Social and Behavioral Sciences, 201, 49–61. https://doi.org/10.1016/j.sbspro.2015.08.118
Toe, D. H. C., & Kubota, T. (2015). Comparative assessment of vernacular passive cooling techniques for improving indoor thermal comfort of modern terraced houses in hot–humid climate of Malaysia. Solar Energy, 114, 229–258. https://doi.org/10.1016/j.solener.2015.01.035
Xiong, Y., Liu, J., & Kim, J. (2019). Understanding differences in thermal comfort between urban and rural residents in hot summer and cold winter climate. Building and Environment, 165, 106393. https://doi.org/10.1016/j.buildenv.2019.106393
Yan, H., Yang, L., Zheng, W., He, W., & Li, D. (2016). Analysis of behaviour patterns and thermal responses to a hot–arid climate in rural China. Journal of Thermal Biology, 59, 92–102. https://doi.org/10.1016/j.jtherbio.2016.05.004
Yu, W., Li, B., Yao, R., Wang, D., & Li, K. (2017). A study of thermal comfort in residential buildings on the Tibetan Plateau, China. Building and Environment, 119, 71-98. https://doi.org/10.1016/j.buildenv.2017.04.009 
Zakaria, M. A., Kubota, T., & Toe, D. H. C. (2015). The effects of courtyards on indoor thermal conditions of Chinese Shophouse in Malacca. Procedia Engineering, 121, 468-476. https://doi.org/10.1016/j.proeng.2015.08.1094 
Zhang, Z., Zhang, Y., & Jin, L. (2018). Thermal comfort in interior and semi-open spaces of rural folk houses in hot-humid areas. Building and Environment, 128, 336–347. https://doi.org/10.1016/j.buildenv.2017.10.028 

صفحه اصلی

ارسال مقاله

تماس با ما