The effect of turbulence intensity on local skin temperature and subjective responses to draft

• We studied the relationship between turbulence intensity, local skin temperature drop before and after exposure on the back of the neck, and subjects’ response to draft. • We found that local skin temperature drop is larger under higher turbulence intensity than that under lower turbulence intensi...

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Published inEnergy and buildings Vol. 43; no. 10; pp. 2678 - 2683
Main Authors Wang, Yuemei, Lian, Zhiwei, Lan, Li
Format Journal Article
LanguageEnglish
Published Oxford Elsevier B.V 01.10.2011
Elsevier
Subjects
Applied sciences
Building insulation
Buildings
Buildings. Public works
Draft
Exact sciences and technology
Exposure
External envelopes
Fluid dynamics
Fluid flow
Low turbulence
Necks
Skin temperature
Thermal comfort
Thermal discomfort
Turbulence
Turbulence intensity
Draft
Turbulence intensity
Thermal discomfort
Skin temperature
Thermal comfort
Temperature
Turbulence
Statistical analysis
Cooling
Impact study
Experimental study
Skin
Comparative study
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Abstract • We studied the relationship between turbulence intensity, local skin temperature drop before and after exposure on the back of the neck, and subjects’ response to draft. • We found that local skin temperature drop is larger under higher turbulence intensity than that under lower turbulence intensity. • Percentage of subjects dissatisfied to draft was correlated to the local skin temperature. • Local skin temperature can be considered to be an indicator to build the model predicting draft under non-uniform environments. The aim of the present study was to investigate whether turbulence intensity affects local skin temperature drop, and whether subjects’ dissatisfaction with draft can be correlated to the local skin temperature drop. Eighteen subjects were exposed to two levels of turbulence intensity (15% and 30%) at mean air velocities of 0.3 and 0.6m/s respectively for 1h. Subjective responses to draft were registered every 10min and skin temperatures at the back of the neck were recorded throughout the sessions. More subjects felt uncomfortable due to draft when exposed to high turbulence than exposed to low turbulence. Skin temperature drop after 1h exposure under high turbulence intensity is significantly larger than that under low turbulence intensity. Percentage of subjects dissatisfied with draft positively correlated to the local skin temperature drop.
AbstractList The aim of the present study was to investigate whether turbulence intensity affects local skin temperature drop, and whether subjects' dissatisfaction with draft can be correlated to the local skin temperature drop. Eighteen subjects were exposed to two levels of turbulence intensity (15% and 30%) at mean air velocities of 0.3 and 0.6 m/s respectively for 1 h. Subjective responses to draft were registered every 10 min and skin temperatures at the back of the neck were recorded throughout the sessions. More subjects felt uncomfortable due to draft when exposed to high turbulence than exposed to low turbulence. Skin temperature drop after 1 h exposure under high turbulence intensity is significantly larger than that under low turbulence intensity. Percentage of subjects dissatisfied with draft positively correlated to the local skin temperature drop.
• We studied the relationship between turbulence intensity, local skin temperature drop before and after exposure on the back of the neck, and subjects’ response to draft. • We found that local skin temperature drop is larger under higher turbulence intensity than that under lower turbulence intensity. • Percentage of subjects dissatisfied to draft was correlated to the local skin temperature. • Local skin temperature can be considered to be an indicator to build the model predicting draft under non-uniform environments. The aim of the present study was to investigate whether turbulence intensity affects local skin temperature drop, and whether subjects’ dissatisfaction with draft can be correlated to the local skin temperature drop. Eighteen subjects were exposed to two levels of turbulence intensity (15% and 30%) at mean air velocities of 0.3 and 0.6m/s respectively for 1h. Subjective responses to draft were registered every 10min and skin temperatures at the back of the neck were recorded throughout the sessions. More subjects felt uncomfortable due to draft when exposed to high turbulence than exposed to low turbulence. Skin temperature drop after 1h exposure under high turbulence intensity is significantly larger than that under low turbulence intensity. Percentage of subjects dissatisfied with draft positively correlated to the local skin temperature drop.
Author Lan, Li
Lian, Zhiwei
Wang, Yuemei
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Issue 10
Keywords Draft
Turbulence intensity
Thermal discomfort
Skin temperature
Thermal comfort
Temperature
Turbulence
Statistical analysis
Cooling
Impact study
Experimental study
Skin
Comparative study
Language English
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Snippet • We studied the relationship between turbulence intensity, local skin temperature drop before and after exposure on the back of the neck, and subjects’...
The aim of the present study was to investigate whether turbulence intensity affects local skin temperature drop, and whether subjects' dissatisfaction with...
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SubjectTerms Applied sciences
Building insulation
Buildings
Buildings. Public works
Draft
Exact sciences and technology
Exposure
External envelopes
Fluid dynamics
Fluid flow
Low turbulence
Necks
Skin temperature
Thermal comfort
Thermal discomfort
Turbulence
Turbulence intensity
Title The effect of turbulence intensity on local skin temperature and subjective responses to draft
URI https://dx.doi.org/10.1016/j.enbuild.2011.06.021
https://www.proquest.com/docview/1777088962
https://www.proquest.com/docview/918046968
Volume 43
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