People who live in a cold climate: thermal adaptation differences based on availability of heating

Are there differences in thermal adaptation to cold indoor environments between people who are used to living in heating and non‐heating regions in China? To answer this question, we measured thermal perceptions and physiological responses of young men from Beijing (where there are indoor space heat...

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Published inIndoor air Vol. 23; no. 4; pp. 303 - 310
Main Authors Yu, J., Cao, G., Cui, W., Ouyang, Q., Zhu, Y.
Format Journal Article
LanguageEnglish
Published England Blackwell Publishing Ltd 01.08.2013
John Wiley & Sons, Inc
Subjects
Online AccessGet full text
ISSN0905-6947
1600-0668
1600-0668
DOI10.1111/ina.12025

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Abstract Are there differences in thermal adaptation to cold indoor environments between people who are used to living in heating and non‐heating regions in China? To answer this question, we measured thermal perceptions and physiological responses of young men from Beijing (where there are indoor space heating facilities in winter) and Shanghai (where there are not indoor space heating facilities in winter) during exposures to cold. Subjects were exposed to 12°C, 14°C, 16°C, 18°C, 20°C for 1 h. Subjects from Beijing complained of greater cold discomfort and demonstrated poorer physiological acclimatization to cold indoor environments than those from Shanghai. These findings indicate that people's chronic indoor thermal experience might be an important determinant of thermal adaptation.
AbstractList Are there differences in thermal adaptation to cold indoor environments between people who are used to living in heating and non-heating regions in China? To answer this question, we measured thermal perceptions and physiological responses of young men from Beijing (where there are indoor space heating facilities in winter) and Shanghai (where there are not indoor space heating facilities in winter) during exposures to cold. Subjects were exposed to 12 degree C, 14 degree C, 16 degree C, 18 degree C, 20 degree C for 1 h. Subjects from Beijing complained of greater cold discomfort and demonstrated poorer physiological acclimatization to cold indoor environments than those from Shanghai. These findings indicate that people's chronic indoor thermal experience might be an important determinant of thermal adaptation.
Are there differences in thermal adaptation to cold indoor environments between people who are used to living in heating and non-heating regions in China? To answer this question, we measured thermal perceptions and physiological responses of young men from Beijing (where there are indoor space heating facilities in winter) and Shanghai (where there are not indoor space heating facilities in winter) during exposures to cold. Subjects were exposed to 12°C, 14°C, 16°C, 18°C, 20°C for 1 h. Subjects from Beijing complained of greater cold discomfort and demonstrated poorer physiological acclimatization to cold indoor environments than those from Shanghai. These findings indicate that people's chronic indoor thermal experience might be an important determinant of thermal adaptation.Are there differences in thermal adaptation to cold indoor environments between people who are used to living in heating and non-heating regions in China? To answer this question, we measured thermal perceptions and physiological responses of young men from Beijing (where there are indoor space heating facilities in winter) and Shanghai (where there are not indoor space heating facilities in winter) during exposures to cold. Subjects were exposed to 12°C, 14°C, 16°C, 18°C, 20°C for 1 h. Subjects from Beijing complained of greater cold discomfort and demonstrated poorer physiological acclimatization to cold indoor environments than those from Shanghai. These findings indicate that people's chronic indoor thermal experience might be an important determinant of thermal adaptation.
Are there differences in thermal adaptation to cold indoor environments between people who are used to living in heating and non-heating regions in China? To answer this question, we measured thermal perceptions and physiological responses of young men from Beijing (where there are indoor space heating facilities in winter) and Shanghai (where there are not indoor space heating facilities in winter) during exposures to cold. Subjects were exposed to 12°C, 14°C, 16°C, 18°C, 20°C for 1 h. Subjects from Beijing complained of greater cold discomfort and demonstrated poorer physiological acclimatization to cold indoor environments than those from Shanghai. These findings indicate that people's chronic indoor thermal experience might be an important determinant of thermal adaptation. [PUBLICATION ABSTRACT]
Are there differences in thermal adaptation to cold indoor environments between people who are used to living in heating and non-heating regions in China? To answer this question, we measured thermal perceptions and physiological responses of young men from Beijing (where there are indoor space heating facilities in winter) and Shanghai (where there are not indoor space heating facilities in winter) during exposures to cold. Subjects were exposed to 12°C, 14°C, 16°C, 18°C, 20°C for 1 h. Subjects from Beijing complained of greater cold discomfort and demonstrated poorer physiological acclimatization to cold indoor environments than those from Shanghai. These findings indicate that people's chronic indoor thermal experience might be an important determinant of thermal adaptation.
Are there differences in thermal adaptation to cold indoor environments between people who are used to living in heating and non‐heating regions in China? To answer this question, we measured thermal perceptions and physiological responses of young men from Beijing (where there are indoor space heating facilities in winter) and Shanghai (where there are not indoor space heating facilities in winter) during exposures to cold. Subjects were exposed to 12°C, 14°C, 16°C, 18°C, 20°C for 1 h. Subjects from Beijing complained of greater cold discomfort and demonstrated poorer physiological acclimatization to cold indoor environments than those from Shanghai. These findings indicate that people's chronic indoor thermal experience might be an important determinant of thermal adaptation.
Author Yu, J.
Ouyang, Q.
Cao, G.
Cui, W.
Zhu, Y.
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Issue 4
Keywords Thermal comfort
Thermal adaptation
Indoor thermal experience
Physiological acclimatization
Space heating
Skin temperature
Language English
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Brager (10.1111/ina.12025-BIB0002|ina12025-cit-0002) 1998; 27
Busch (10.1111/ina.12025-BIB0003|ina12025-cit-0003) 1992; 18
Liu (10.1111/ina.12025-BIB0009|ina12025-cit-0009) 2008; 103
ASHRAE (10.1111/ina.12025-BIB0001|ina12025-cit-0001) 2005
Wakabayashi (10.1111/ina.12025-BIB0013|ina12025-cit-0013) 2012; 56
Zhang (10.1111/ina.12025-BIB0021|ina12025-cit-0021) 2010; 45
Jansky (10.1111/ina.12025-BIB0008|ina12025-cit-0008) 1996; 432
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Snippet Are there differences in thermal adaptation to cold indoor environments between people who are used to living in heating and non‐heating regions in China? To...
Are there differences in thermal adaptation to cold indoor environments between people who are used to living in heating and non-heating regions in China? To...
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SubjectTerms Acclimatization
Adaptation
Adult
China
Cold Climate
Exposure
Heating
Humans
Indoor
Indoor environments
Indoor thermal experience
Male
Perception
Physiological acclimatization
Physiological responses
Physiology
Skin Temperature
Space heating
Thermal adaptation
Thermal comfort
Winter
Young Adult
Title People who live in a cold climate: thermal adaptation differences based on availability of heating
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Volume 23
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