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dc.contributor.author
Brühwiler, Paul A.
dc.contributor.author
Buyan, Munkhbayar
dc.contributor.author
Huber, Roman
dc.contributor.author
Bogerd, Cornelis P.
dc.contributor.author
Sznitman, Josué
dc.contributor.author
Graf, Siegfried F.
dc.contributor.author
Rösgen, Thomas
dc.date.accessioned
2020-10-02T13:00:55Z
dc.date.available
2017-06-09T11:27:37Z
dc.date.available
2020-10-02T13:00:55Z
dc.date.issued
2006
dc.identifier.issn
0264-0414
dc.identifier.issn
1466-447X
dc.identifier.other
10.1080/02640410500457877
en_US
dc.identifier.uri
http://hdl.handle.net/20.500.11850/36022
dc.description.abstract
Bicycle helmets exhibit complex structures so as to combine impact protection with ventilation. A quantitative experimental measure of the state of the art and variations therein is a first step towards establishing principles of bicycle helmet ventilation. A thermal headform mounted in a climate-regulated wind tunnel was used to study the ventilation efficiency of 24 bicycle helmets at two wind speeds. Flow visualization in a water tunnel with a second headform demonstrated the flow patterns involved. The influence of design details such as channel length and vent placement was studied, as well as the impact of hair. Differences in heat transfer among the helmets of up to 30% (scalp) and 10% (face) were observed, with the nude headform showing the highest values. On occasion, a negative role of some vents for forced convection was demonstrated. A weak correlation was found between the projected vent cross-section and heat transfer variations when changing the head tilt angle. A simple analytical model is introduced that facilitates the understanding of forced convection phenomena. A weak correlation between exposed scalp area and heat transfer was deduced. Adding a wig reduces the heat transfer by approximately a factor of 8 in the scalp region and up to one-third for the rest of the head for a selection of the best ventilated helmets. The results suggest that there is significant optimization potential within the basic helmet structure represented in modern bicycle helmets. © 2006 Taylor & Francis.
en_US
dc.language.iso
en
en_US
dc.publisher
Taylor & Francis
en_US
dc.subject
helmet ventilation
en_US
dc.subject
bicycle
en_US
dc.subject
comfort
en_US
dc.subject
heat exchange
en_US
dc.title
Heat transfer variations of bicycle helmets
en_US
dc.type
Journal Article
dc.date.published
2007-02-18
ethz.journal.title
Journal of Sports Sciences
ethz.journal.volume
24
en_US
ethz.journal.issue
9
en_US
ethz.journal.abbreviated
J. Sports Sci.
ethz.pages.start
999
en_US
ethz.pages.end
1011
en_US
ethz.identifier.wos
ethz.identifier.nebis
005535518
ethz.publication.place
London
en_US
ethz.publication.status
published
en_US
ethz.leitzahl
ETH Zürich::00002 - ETH Zürich::00012 - Lehre und Forschung::00007 - Departemente::02130 - Dep. Maschinenbau und Verfahrenstechnik / Dep. of Mechanical and Process Eng.::02628 - Institut für Fluiddynamik / Institute of Fluid Dynamics::03479 - Rösgen, Thomas (emeritus) / Rösgen, Thomas (emeritus)
en_US
ethz.leitzahl.certified
ETH Zürich::00002 - ETH Zürich::00012 - Lehre und Forschung::00007 - Departemente::02130 - Dep. Maschinenbau und Verfahrenstechnik / Dep. of Mechanical and Process Eng.::02628 - Institut für Fluiddynamik / Institute of Fluid Dynamics::03479 - Rösgen, Thomas (emeritus) / Rösgen, Thomas (emeritus)
ethz.date.deposited
2017-06-09T11:27:55Z
ethz.source
ECIT
ethz.identifier.importid
imp59364e1e21e5c56325
ethz.ecitpid
pub:57590
ethz.eth
yes
en_US
ethz.availability
Metadata only
en_US
ethz.rosetta.installDate
2017-07-15T20:53:27Z
ethz.rosetta.lastUpdated
2023-02-06T20:30:21Z
ethz.rosetta.versionExported
true
ethz.COinS
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