Drbem Solution of the Natural Convective Flow of Micropolar Fluids
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Date
2010
Authors
Gümgüm, Sevin
Journal Title
Journal ISSN
Volume Title
Publisher
Taylor & Francis Inc
Open Access Color
Green Open Access
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No
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Average
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Top 10%
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Top 10%
Abstract
The main purpose of this article is to present the use of the dual reciprocity boundary element method (DRBEM) in the analysis of the unsteady natural convective flow of micropolar fluids in a differentially heated rectangular cavity. The finite-difference method (FDM) is used for time discretization. All the convective terms and vorticity boundary condition are evaluated in terms of DRBEM coordinate matrix. Solutions are obtained for several values of microstructure parameter (k), Rayleigh number (Ra), and aspect ratio (A). Prandtl number values are taken as 0.71 and 7.0. The heat transfer rate (average Nusselt number) of micropolar fluids is found to be smaller than that of Newtonian fluid. Numerical results at steady-state are given in terms of streamlines, isotherms, vorticity contours, and velocity profiles, as well as a table containing Nusselt number values for several Ra and k.
Description
ORCID
Keywords
Boundary-Element Method, Time Integration Scheme, Square Cavity, Stokes Equations, Porous-Media, Enclosure, Simulation
Fields of Science
0103 physical sciences, 0101 mathematics, 01 natural sciences
Citation
WoS Q
Q2
Scopus Q
Q2
OpenCitations Citation Count
16
Source
Numerıcal Heat Transfer Part A-Applıcatıons
Volume
57
Issue
10
Start Page
777
End Page
798
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Citations
CrossRef : 9
Scopus : 18
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Mendeley Readers : 5
SCOPUS™ Citations
18
checked on Mar 16, 2026
Web of Science™ Citations
15
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Page Views
4
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