Slip flow forced convection in a microporous duct of rectangular cross-section

Hooman, K. (2009) Slip flow forced convection in a microporous duct of rectangular cross-section. Applied Thermal Engineering, 29 5-6: 1012-1019. doi:10.1016/j.applthermaleng.2008.05.007

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Author Hooman, K.
Title Slip flow forced convection in a microporous duct of rectangular cross-section
Journal name Applied Thermal Engineering   Check publisher's open access policy
ISSN 1359-4311
Publication date 2009-04
Year available 2008
Sub-type Article (original research)
DOI 10.1016/j.applthermaleng.2008.05.007
Open Access Status File (Author Post-print)
Volume 29
Issue 5-6
Start page 1012
End page 1019
Total pages 8
Editor D. A. Reay
Place of publication Oxford, UK
Publisher Pergamon/Elsevier
Language eng
Subject 09 Engineering
0913 Mechanical Engineering
091306 Microelectromechanical Systems (MEMS)
091305 Energy Generation, Conversion and Storage Engineering
C1
Abstract Applying a Fourier series approach, closed form solutions for fully developed velocity and temperature distribution in a porous-saturated microduct of rectangular cross-section are presented in the slip-flow regime. The Brinkman flow model is applied. Invoking the temperature jump equation, the H1 thermal boundary condition is investigated. Expressions are presented for the local and average velocity and temperature profiles, the friction factor, and the slip coefficient in terms of the key parameters. The present results, which are applicable to microducts of rectangular cross-section filled with or without a porous medium, are found to be in complete agreement with those available in the literature for both no-slip and slip flow regime.
Keyword MEMS
Fourier series approach
Microporous
Slip flow
Temperature jump
Heat removal
theoretical
Q-Index Code C1
Q-Index Status Provisional Code

Document type: Journal Article
Sub-type: Article (original research)
Collection: School of Mechanical & Mining Engineering Publications
 
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Citation counts: TR Web of Science Citation Count  Cited 24 times in Thomson Reuters Web of Science Article | Citations
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Created: Mon, 02 Feb 2009, 13:58:35 EST by Kamel Hooman on behalf of CRCMining