Studi lapangan variabel iklim rumah vernakular pantai dan gunung dalam menciptakan kenyamanan termal adaptif
Abstract
Microclimate variables are one of the variables that affect adaptive thermal comfort. The microclimate variables are air temperature, solar radiation temperature, air humidity and wind speed. In this study the discussion of microclimate variables is specific to air temperature and air humidity. This is based on other studies which mention that the most influential climate variables are air temperature and humidity. This research is a field study that will compare air temperature and humidity in coastal and mountain areas. Measurements are carried out in 3 seasons, namely the dry season to rain, the rainy season and the rainy season to the dry season. Measurement of air and humidity temperature variables in two rooms in the building and outside space and terrace. The results of the study show that there are significant differences between coastal and mountain dwellings. This difference is related to adaptive thermal comfort through thermal sensation. Thermal sensation results show that the location of the mountain is that most residents feel cool, while at the beach location, the residents are mostly comfortable or neutral.
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Alkies Kotopouleas, M. N. (2016). Thermal Comfort conditions in airport terminals: Indoor or transition spaces? Building and Environment , 184-199.
Fanger, P. O. (1982). Thermal Comfort : Analysis and Applications in Environmental Engineering. Florida: Robert E.Krieger Publishing Company.
Haoran Ning, Z. W. (2016). Adaptive termal comfort in university dormitories in severe cold area of China. Building and Environment 99 , 161-169.
Hermawan and Prianto, E., 2017, Thermal evaluation for exposed stone house with quantitative and qualitative approach in mountainous area, Wonosobo, Indonesia, IOP Conf. Series: Earth and Environmental Science 99 (2017) 012017, pp.1-10. do i :10.1088/1755-1315/99/1/012017
Hermawan, Prianto, E., and Setyowati, E., 2015, The difference of thermal performance between houses with wooden walls and exposed brick walls in tropical coasts, Procedia Environmental Sciences 23 (2015) 168 – 174
Hermawan, Prianto, E., Setyowati, E., and Sunaryo, 2017, The comparison of vernacular residences’ thermal comfort in coastal with that in mountainous regions of tropical areas, AIP Conference Proceedings 1903, 080001 (2017), pp. 080001-1 - 080001-8. https://doi.org/10.1063/1.5011589
Hoppe, P. (2002). Different Aspects of Assessing of Indoor & Outdoor Thermal Comfort. Energy and Buildings Journal .
Humphreys, M. A., & Nicol, J. F. (1998). Understanding the Adaptive Approach to Thermal Comfort. ASHRAE Transactions, ProQuest Science Journals.
Lakitan, B. (1994). Dasar-dasar Klimatologi. Jakarta: Raja Grafindo Persada.
Luo, M., Cao, B., Damiens, J., Lin, B., & Zhu, Y. (2014). Evaluating thermal comfort in mixed-mode buildings: A field study in a subtropical climate. Building and Environment , 1-9.
Maohui Luo, W. J. (2016). Indoor climate and thermal physiological adaptation: Evidences from migrants ith different cold indoor eposures. Building and Environment 98 , 30-38.
Nematchoua, M. K., Tchinda, R., Ricciardi, P., & Djongyang, N. (2014). A field study on thermal comfort in naturally-ventilated buildings located in the equatorial climatic region of Cameroon. Renewable and Sustainable Energy Reviews , 381–393.
Nur Dalilah Dahlan, Y. Y. (2016). Thermal sensations and comfort investigations in transient conditions in tropical office. Applied Ergonomics , 169-176.
Samodra, F. T., & Santosa, M. (2006). Pola Penghunian dalam Transformasi Altitude dan Kontribusinya dalam Sistem Ventilasi Rumah Tinggal Pedesaan, Seminar Nasional : Transformasi Teknologi untuk Peningkatan Kualitas Hidup Manusia. Yogyakarta: Universitas Teknologi Yogyakarta.
Singh, M. K., M. S., & Teller, J. (2015). Development of thermal comfort models for various climatic zones of North-East India. Sustainable Cities and Society , 133–145.
DOI: https://doi.org/10.17509/jaz.v1i2.12467
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