Title of article
Finite element analysis of natural convection flow in a isosceles triangular enclosure due to uniform and non-uniform heating at the side walls
Author/Authors
Tanmay Basak، نويسنده , , S. Roy، نويسنده , , S. Krishna Babu، نويسنده , , A.R. Balakrishnan، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2008
Pages
10
From page
4496
To page
4505
Abstract
A penalty finite element analysis with bi-quadratic elements is carried out to investigate the effects of uniform and non-uniform heating of inclined walls on natural convection flows within a isosceles triangular enclosure. Two cases of thermal boundary conditions are considered; case I: two inclined walls are uniformly heated while the bottom wall is cold isothermal and case II: two inclined walls are non-uniformly heated while the bottom wall is cold isothermal. The numerical solution of the problem is presented for various Rayleigh numbers (Ra), (image) and Prandtl numbers (Pr), (image). It has been found that at small Prandtl numbers, geometry does not have much influence on flow structure while at image, the stream function contours are nearly triangular showing that geometry has considerable effect on the flow pattern. In addition, the presence of multiple circulations are observed for small image which causes wavy distribution of local Nusselt number. It is observed that non-uniform heating produces greater heat transfer rates at the center of the walls than the uniform heating; however, average Nusselt numbers show overall lower heat transfer rates for the non-uniform heating case. Critical Rayleigh numbers for conduction dominant heat transfer cases have been obtained and for convection dominant regimes, power law correlations between average Nusselt number and Rayleigh numbers are presented for specific Prandtl numbers.
Keywords
Penalty finite element method , Triangular enclosure , Non-uniform heating , Natural convection
Journal title
INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER
Serial Year
2008
Journal title
INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER
Record number
1075568
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