Language
English
German
^M
Dutch
Spanish
Title:
Part A: Assessing the performance of the COMFA outdoor thermal comfort model on subjects performing physical activity
Source:
International Journal of Biometeorology [0020-7128] Kenny, Natasha yr:2009
Basic
Sorry, no full text available...
Please use the document delivery service (see below)
Holding information
Holdings in library search engine
ALBERT
Document delivery
Request document via
Library/Bibliothek
Users interested in this article also expressed an interest in the following:
description
1.
Vanos, Jennifer K.
"Thermal comfort modelling of body temperature and psychological variations of a human exercising in an outdoor environment."
International journal of biometeorology
56.1 (2010): 1-12.
description
2.
Fong, K F.
"Comfort zone of air speeds and temperatures for air-conditioned environment in the subtropical Hong Kong."
Indoor + built environment
19.3 (2010): 375-381.
description
3.
Kenny, N.
"Part B: Revisions to the COMFA outdoor thermal comfort model for application to subjects performing physical activity."
International journal of biometeorology
53.5 (2009): 429-41.
description
4.
Cruthers, N. M.
"Differences in wearer response to garments for outdoor activity."
Ergonomics
51.4 (2008): 492-510.
description
5.
Mui, K W.
"Neutral temperature in subtropical climates—A field survey in air-conditioned offices."
Building and environment
42.2 (2007): 699-706.
description
6.
Mui, K.
"An energy performance assessment for indoor environmental quality (IEQ) acceptance in air-conditioned offices."
Energy conversion and management
50.5 (2009): 1362-1367.
description
7.
Yau, B. T. H.
"A Field Study on Thermal Comfort of Occupants and Acceptable Neutral Temperature at the National Museum in Malaysia."
Indoor + built environment
22.2 (2013): 433-444.
description
8.
Zhou, Z.
"A field study of thermal comfort in outdoor and semi-outdoor environments in a humid subtropical climate city."
Journal of Asian Architecture and Building Engineering
12.1 (2013): 73-79.
description
9.
Liu, J.
"A method to weight three categories of adaptive thermal comfort."
Energy and buildings
47 (Apr 1.C (2012): 312-312.
description
10.
Matsushita, S.
"Re-evaluation of Stolwijk's 25-node human thermal model under thermal-transient conditions: Prediction of skin temperature in low-activity conditions."
Building and environment
44.9 (2009): 1777-1787.
description
11.
Fong, K F.
"Effect of neutral temperature on energy saving of centralized air-conditioning systems in subtropical Hong Kong."
Applied thermal engineering
30.13 (2010): 1659-1665.
description
12.
Kenny, Natasha A.
"Review of the physiology of human thermal comfort while exercising in urban landscapes and implications for bioclimatic design."
International journal of biometeorology
54.4 (2010): 319-334.
description
13.
Xing,, Yan, Patricia L.
"Factors associated with proportions and miles of bicycling for transportation and recreation in six small US cities."
Transportation research. Part D, Transport and environment
15.2 (2010): 73-81.
description
14.
Cena,, Krzysztof, K.
"Thermal comfort and clothing insulation of resting tent occupants at high altitude."
Applied ergonomics
34.6 (2003): 543-550.
description
15.
Fukazawa, T.
"Heat and water vapour transfer of protective clothing systems in a cold environment, measured with a newly developed sweating thermal manikin."
European journal of applied physiology
92.6 (2004): 645-648.
description
16.
Budd, Grahame M M.
"Wet-bulb globe temperature (WBGT)-its history and its limitations."
Journal of science and medicine in sport
11.Aug (2007): 20-32.
description
17.
Gupta, B.
"Moisture Vapor Transport Behavior of Polyester Knit Fabrics."
Textile research journal
75.4 (2005): 346-351.
description
18.
Yosefy, C.
"End tidal carbon dioxide as a predictor of the arterial PCO2 in the emergency department setting."
Emergency medicine journal
21.5 (2004): 557-9.
description
19.
Webster J, J.
"A light-weight cooling vest enhances performance of athletes in the heat."
Ergonomics
48.7 (2005): 821-837.
description
20.
Gaitani, N.
"On the use of bioclimatic architecture principles in order to improve thermal comfort conditions in outdoor spaces."
Building and environment
42.1 (2007): 317-324.
View More...
View Less...
Select All
Clear All
Save Citations
Select Format
ProCite
EndNote
RefWorks
Reference Manager
Submit citation export
Advanced
Author
Other articles by this author? -- in
GeoRef
author:
Kenny, Natasha A
Warland, Jon S
Brown, Robert D
Gillespie, Terry G
last name
initials
Other articles by this author? -- in
Online Contents Geosciences
author:
Kenny, Natasha A
Warland, Jon S
Brown, Robert D
Gillespie, Terry G
last name
initials
Other articles by this author? -- using
Web of Science
author:
Kenny, Natasha A
Warland, Jon S
Brown, Robert D
Gillespie, Terry G
last name
initials
Web Search
Find related information in
a Web Search Engine
Excite
Google
HotBot
Ixquick
ZOO
Ask
Yahoo!
Bing
Naver
Search Terms:
Search for related information in
Google Scholar
Article Title
Author Name
Journal Title
Other Search
Search Terms:
A service provided by the
Library of the Wissenschaftspark Albert Einstein
, Potsdam, Germany.
© 2005 SFX by Ex Libris Inc.