Abstract
Passive thermal comfort has been widely used to test the thermal performance of a building. The science of active thermal comfort is important to be connected with the science of architecture. The currently developing active thermal comfort is adaptive thermal comfort. Vernacular houses are believed to be able to create thermal comfort for the inhabitants. The present study seeks to analyze the connection between the architectural elements of vernacular houses and adaptive thermal comfort. A mixed method was applied. A quantitative approach was used in the measurement of variables of climate, while a qualitative methodology was employed in an interview on thermal sensations. The connection between architectural elements and adaptive thermal comfort was analyzed by considering the correlation among architectural features, the analysis results of thermal comfort, and the Olgyay and psychrometric diagrams. At the beginning of the rainy season, residents of exposed stone houses had the highest comfortable percentage of 31%. In the middle of the rainy season, the highest percentage of comfort was obtained by residents of exposed brick and wooden houses on the beach at 39%. The lowest comfortable percentage experienced by residents of exposed stone houses at the beginning of the dry season was 0%. The beginning of the dry season in mountainous areas has air temperatures that are too low, making residents uncomfortable. The study results demonstrate that adaptive thermal comfort is related to using a room for adaptation to create thermal comfort for the inhabitants.
Highlights
Energy efficiency has been a significant issue considering the limited supplies of energy sources [1]
The thermal sensation zones were determined by air temperature, but later they were developed with such variables as humidity, solar radiation, and wind speed
Comparing outdoor and indoor air temperatures in the four vernacular houses shows that wooden houses make the indoor air temperature warmer
Summary
Energy efficiency has been a significant issue considering the limited supplies of energy sources [1]. Researchers have tried to seek alternative energy sources but failed to discover alternative energy equal to fossil energy. The point of energy efficiency will forever be essential despite the discovery of alternative energy. Energy efficiency will contribute to the optimal use of energy. The energy efficiency of a building is related to the thermal comfort of the building and its inhabitants [2]. Facilities that can realize thermal comfort will reduce the use of equipment to produce energy-efficient buildings. Building efficiency will be created by creating thermal comfort for its occupants [3]
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