A mathematical model of the dynamic heat transfer from the respiratory tract of a chicken

Cole, G. W. ; Scott, N. R.
Springer
Published 1977
ISSN:
1522-9602
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
Mathematics
Notes:
Abstract A mathematical model of the dynamic (periodic) heat exchange from the respiratory tract of a chicken is postulated and solved analytically. The model expresses the periodic respiratory heat loss as a function of respiration rate, respiratory air velocity, ambient temperature and humidity ratio, and body (trachea) temperature. It is unique in that previous models have been formulated for steady state heat transfer. The processes of sensible and latent heat exchange are considered as uncoupled processes.
Type of Medium:
Electronic Resource
URL:
_version_ 1798296340048904192
autor Cole, G. W.
Scott, N. R.
autorsonst Cole, G. W.
Scott, N. R.
book_url http://dx.doi.org/10.1007/BF02462921
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identnr NLM207544328
issn 1522-9602
journal_name Bulletin of mathematical biology
materialart 1
notes Abstract A mathematical model of the dynamic (periodic) heat exchange from the respiratory tract of a chicken is postulated and solved analytically. The model expresses the periodic respiratory heat loss as a function of respiration rate, respiratory air velocity, ambient temperature and humidity ratio, and body (trachea) temperature. It is unique in that previous models have been formulated for steady state heat transfer. The processes of sensible and latent heat exchange are considered as uncoupled processes.
package_name Springer
publikationsjahr_anzeige 1977
publikationsjahr_facette 1977
publikationsjahr_intervall 8024:1975-1979
publikationsjahr_sort 1977
publisher Springer
reference 39 (1977), S. 415-433
search_space articles
shingle_author_1 Cole, G. W.
Scott, N. R.
shingle_author_2 Cole, G. W.
Scott, N. R.
shingle_author_3 Cole, G. W.
Scott, N. R.
shingle_author_4 Cole, G. W.
Scott, N. R.
shingle_catch_all_1 Cole, G. W.
Scott, N. R.
A mathematical model of the dynamic heat transfer from the respiratory tract of a chicken
Abstract A mathematical model of the dynamic (periodic) heat exchange from the respiratory tract of a chicken is postulated and solved analytically. The model expresses the periodic respiratory heat loss as a function of respiration rate, respiratory air velocity, ambient temperature and humidity ratio, and body (trachea) temperature. It is unique in that previous models have been formulated for steady state heat transfer. The processes of sensible and latent heat exchange are considered as uncoupled processes.
1522-9602
15229602
Springer
shingle_catch_all_2 Cole, G. W.
Scott, N. R.
A mathematical model of the dynamic heat transfer from the respiratory tract of a chicken
Abstract A mathematical model of the dynamic (periodic) heat exchange from the respiratory tract of a chicken is postulated and solved analytically. The model expresses the periodic respiratory heat loss as a function of respiration rate, respiratory air velocity, ambient temperature and humidity ratio, and body (trachea) temperature. It is unique in that previous models have been formulated for steady state heat transfer. The processes of sensible and latent heat exchange are considered as uncoupled processes.
1522-9602
15229602
Springer
shingle_catch_all_3 Cole, G. W.
Scott, N. R.
A mathematical model of the dynamic heat transfer from the respiratory tract of a chicken
Abstract A mathematical model of the dynamic (periodic) heat exchange from the respiratory tract of a chicken is postulated and solved analytically. The model expresses the periodic respiratory heat loss as a function of respiration rate, respiratory air velocity, ambient temperature and humidity ratio, and body (trachea) temperature. It is unique in that previous models have been formulated for steady state heat transfer. The processes of sensible and latent heat exchange are considered as uncoupled processes.
1522-9602
15229602
Springer
shingle_catch_all_4 Cole, G. W.
Scott, N. R.
A mathematical model of the dynamic heat transfer from the respiratory tract of a chicken
Abstract A mathematical model of the dynamic (periodic) heat exchange from the respiratory tract of a chicken is postulated and solved analytically. The model expresses the periodic respiratory heat loss as a function of respiration rate, respiratory air velocity, ambient temperature and humidity ratio, and body (trachea) temperature. It is unique in that previous models have been formulated for steady state heat transfer. The processes of sensible and latent heat exchange are considered as uncoupled processes.
1522-9602
15229602
Springer
shingle_title_1 A mathematical model of the dynamic heat transfer from the respiratory tract of a chicken
shingle_title_2 A mathematical model of the dynamic heat transfer from the respiratory tract of a chicken
shingle_title_3 A mathematical model of the dynamic heat transfer from the respiratory tract of a chicken
shingle_title_4 A mathematical model of the dynamic heat transfer from the respiratory tract of a chicken
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timestamp 2024-05-06T09:50:32.430Z
titel A mathematical model of the dynamic heat transfer from the respiratory tract of a chicken
titel_suche A mathematical model of the dynamic heat transfer from the respiratory tract of a chicken
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