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Dimensionless solutions and general characteristics of bioheat transfer during thermal therapy
Okajima, Junnosuke ; Maruyama, Shigenao ; Takeda, Hiroki ; Komiya, Atsuki
Journal of thermal biology, 2009-12, Vol.34 (8), p.377-384
[Peer Reviewed Journal]
Elsevier Ltd
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Title:
Dimensionless solutions and general characteristics of bioheat transfer during thermal therapy
Author:
Okajima, Junnosuke
;
Maruyama, Shigenao
;
Takeda, Hiroki
;
Komiya, Atsuki
Subjects:
Analytical solution
;
Bioheat transfer equation
;
Dimensionless analysis
;
Temperature estimation
;
Thermal therapy
Is Part Of:
Journal of thermal biology, 2009-12, Vol.34 (8), p.377-384
Notes:
ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 23
Description:
The derivation and application of the general characteristics of bioheat transfer for medical applications are shown in this paper. Two general bioheat transfer characteristics are derived from solutions of one-dimensional Pennes’ bioheat transfer equation: steady-state thermal penetration depth, which is the deepest depth where the heat effect reaches; and time to reach steady-state, which represents the amount of time necessary for temperature distribution to converge to a steady-state. All results are described by dimensionless form; therefore, these results provide information on temperature distribution in biological tissue for various thermal therapies by transforming to dimension form.
Publisher:
Elsevier Ltd
Language:
English
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