A Study on Evaporative Resistances of Two Skins Designed for Thermal Manikin Tore under Different Environmental Conditions
(2009) International Symposium of Textile Bioengineering and Informatics (TBIS) held at the 4th World-Association-for-Chinese-Biomedical-Engineers (WACBE) p.211-215- Abstract
- A cotton skin and Gore-Tex skin were designed for thermal manikin "Tore" to simulate different sweating styles (wet cotton skin inside and Gore-Tex outside to simulate sweating style of thermal manikin "Walter", and Gore-Tex skin inside with wet cotton skin outside to simulate sweating style of thermal manikins "Newton". The evaporative resistances of two skin combinations with clothing ensembles were compared at two different environmental conditions. In addition, the total evaporative resistance of clothing ensemble was calculated by both heat loss method (option 1) and mass loss method (option 2) according to ASTM F 2370. We found that the effect of different sweating mechanisms on clothing evaporative resistance should be considered.... (More)
- A cotton skin and Gore-Tex skin were designed for thermal manikin "Tore" to simulate different sweating styles (wet cotton skin inside and Gore-Tex outside to simulate sweating style of thermal manikin "Walter", and Gore-Tex skin inside with wet cotton skin outside to simulate sweating style of thermal manikins "Newton". The evaporative resistances of two skin combinations with clothing ensembles were compared at two different environmental conditions. In addition, the total evaporative resistance of clothing ensemble was calculated by both heat loss method (option 1) and mass loss method (option 2) according to ASTM F 2370. We found that the effect of different sweating mechanisms on clothing evaporative resistance should be considered. The results showed that the total evaporative resistances obtained by option 2 were more accurate than values by option 1 under an isothermal condition. It was also found that total evaporative resistance differences between two skin combinations with clothing ensembles decreased with increasing clothing ensemble layer. In a non-isothermal condition, the total evaporative resistance calculated by option 1 was more accurate than value obtained by option 2, which was due to lower ambient temperature and condensation between each adjacent layer. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/1489824
- author
- Wang, Faming LU ; Gao, Chuansi LU ; Kuklane, Kalev LU and Holmér, Ingvar LU
- organization
- publishing date
- 2009
- type
- Chapter in Book/Report/Conference proceeding
- publication status
- published
- subject
- keywords
- thermal manikin, sweating, skin, evaporative resistance, heat loss, isothermal
- host publication
- Textile Bioengineering And Informatics Symposium Proceedings, Vols 1 And 2
- pages
- 211 - 215
- publisher
- Hong Kong Polytechnic University
- conference name
- International Symposium of Textile Bioengineering and Informatics (TBIS) held at the 4th World-Association-for-Chinese-Biomedical-Engineers (WACBE)
- conference location
- Hong Kong, China
- conference dates
- 2009-07-26 - 2009-07-29
- external identifiers
-
- wos:000270182100039
- ISSN
- 1942-3438
- DOI
- 10.3993/tbis2009039
- language
- English
- LU publication?
- yes
- id
- 27ef6187-3058-41d4-b543-af0677dc9c19 (old id 1489824)
- date added to LUP
- 2016-04-01 13:32:18
- date last changed
- 2018-11-21 20:17:14
@inproceedings{27ef6187-3058-41d4-b543-af0677dc9c19, abstract = {{A cotton skin and Gore-Tex skin were designed for thermal manikin "Tore" to simulate different sweating styles (wet cotton skin inside and Gore-Tex outside to simulate sweating style of thermal manikin "Walter", and Gore-Tex skin inside with wet cotton skin outside to simulate sweating style of thermal manikins "Newton". The evaporative resistances of two skin combinations with clothing ensembles were compared at two different environmental conditions. In addition, the total evaporative resistance of clothing ensemble was calculated by both heat loss method (option 1) and mass loss method (option 2) according to ASTM F 2370. We found that the effect of different sweating mechanisms on clothing evaporative resistance should be considered. The results showed that the total evaporative resistances obtained by option 2 were more accurate than values by option 1 under an isothermal condition. It was also found that total evaporative resistance differences between two skin combinations with clothing ensembles decreased with increasing clothing ensemble layer. In a non-isothermal condition, the total evaporative resistance calculated by option 1 was more accurate than value obtained by option 2, which was due to lower ambient temperature and condensation between each adjacent layer.}}, author = {{Wang, Faming and Gao, Chuansi and Kuklane, Kalev and Holmér, Ingvar}}, booktitle = {{Textile Bioengineering And Informatics Symposium Proceedings, Vols 1 And 2}}, issn = {{1942-3438}}, keywords = {{thermal manikin; sweating; skin; evaporative resistance; heat loss; isothermal}}, language = {{eng}}, pages = {{211--215}}, publisher = {{Hong Kong Polytechnic University}}, title = {{A Study on Evaporative Resistances of Two Skins Designed for Thermal Manikin Tore under Different Environmental Conditions}}, url = {{http://dx.doi.org/10.3993/tbis2009039}}, doi = {{10.3993/tbis2009039}}, year = {{2009}}, }