Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Indoor climate and thermal physiological adaptation: Evidences from migrants with different cold indoor exposures
Abstract Previous adaptive thermal comfort research mainly emphasized the correlations between outdoor climate and thermal adaptation. In this paper, we explore the influence of indoor thermal experience on occupants' thermal adaptation, especially with regard to physiological adaptation. We also investigate whether people with distinct cold indoor exposures have different levels of physiological adaptation to cold environment. A comparative experiment, including both physiological measurements and subjective questionnaires, was conducted in China where winter indoor climates in the northern region (with pervasive district heating) are much warmer than the southern region (without district heating). Two subject groups were recruited, namely: (a) N–N group - subjects who had lived in the northern China with district heating all their life, and (b) S–N group - subjects who grew up in the southern region without district heating but recently moved to the north. The results indicate that S–N subjects who had lived their entire lives in cold wintertime indoor climates had slither physiological response and felt less uncomfortable in mild cold exposures than N–N subjects who lived in neutral-to-warm wintertime indoor climates. The findings suggest that indoor thermal exposures can also influence occupants' thermal adaptation, which can reserve as a reference to the future adaptive thermal comfort model.
Highlights The study explores the correlation between indoor climate and thermal adaptation. Experiment including physiological and subjective measurements was conducted. Human body itself can adapt to cold environment to some extent. Subjects live in cold indoors had slighter physiological response to cold exposure. Indoor thermal experience have significant impacts on thermal adaptation.
Indoor climate and thermal physiological adaptation: Evidences from migrants with different cold indoor exposures
Abstract Previous adaptive thermal comfort research mainly emphasized the correlations between outdoor climate and thermal adaptation. In this paper, we explore the influence of indoor thermal experience on occupants' thermal adaptation, especially with regard to physiological adaptation. We also investigate whether people with distinct cold indoor exposures have different levels of physiological adaptation to cold environment. A comparative experiment, including both physiological measurements and subjective questionnaires, was conducted in China where winter indoor climates in the northern region (with pervasive district heating) are much warmer than the southern region (without district heating). Two subject groups were recruited, namely: (a) N–N group - subjects who had lived in the northern China with district heating all their life, and (b) S–N group - subjects who grew up in the southern region without district heating but recently moved to the north. The results indicate that S–N subjects who had lived their entire lives in cold wintertime indoor climates had slither physiological response and felt less uncomfortable in mild cold exposures than N–N subjects who lived in neutral-to-warm wintertime indoor climates. The findings suggest that indoor thermal exposures can also influence occupants' thermal adaptation, which can reserve as a reference to the future adaptive thermal comfort model.
Highlights The study explores the correlation between indoor climate and thermal adaptation. Experiment including physiological and subjective measurements was conducted. Human body itself can adapt to cold environment to some extent. Subjects live in cold indoors had slighter physiological response to cold exposure. Indoor thermal experience have significant impacts on thermal adaptation.
Indoor climate and thermal physiological adaptation: Evidences from migrants with different cold indoor exposures
Luo, Maohui (Autor:in) / Ji, Wenjie (Autor:in) / Cao, Bin (Autor:in) / Ouyang, Qin (Autor:in) / Zhu, Yingxin (Autor:in)
Building and Environment ; 98 ; 30-38
19.12.2015
9 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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