A computational study of steady, laminar, natural convective fluid flow in a partially open square enclosure with a highly conductive thin fin of arbitrary length attached to the hot wall at various levels is considered. The horizontal walls and the partially open vertical wall are adiabatic while the vertical wall facing the partial opening is isothermally hot. The current work investigates the flow modification due to the (a) attachment of a highly conductive thin fin of length equal to 20%, 35%, or 50% of the enclosure width, attached to the hot wall at different heights, and (b) variation of the size and height of the aperture located on the vertical wall facing the hot wall. Furthermore, the study examines the impact of Rayleigh number and inclination of the enclosure. The problem is put into dimensionless formulation and solved numerically by means of the finite-volume method. The results show that the presence of the fin has counteracting effects on flow and temperature fields. These effects are dependent, in a complex way, on the fin level and length, aperture altitude and size, cavity inclination angle, and Rayleigh number. In general, Nusselt number is directly related to aperture altitude and size. However, after reaching a peak Nusselt number, Nusselt number may decrease slightly if the aperture’s size increases further. The impact of aperture altitude diminishes for large aperture sizes because the geometrical differences decrease. Furthermore, a longer fin causes higher rate of heat transfer to the fluid, although the equivalent finless cavity may have higher heat transfer rate. In general, the volumetric flow rate and the rate of heat loss from the hot surfaces are interrelated and are increasing functions of Rayleigh number. The relationship between Nusselt number and the inclination angle is nonlinear.
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Natural Convection Heat Transfer in a Partially Open Square Cavity With a Thin Fin Attached to the Hot Wall
Abdullatif Ben-Nakhi,
Abdullatif Ben-Nakhi
Mechanical Power & Refrigeration Department, College of Technological Studies,
e-mail: abdnakhi@yahoo.com
PAAET
, P.O. Box 3665, Salmiya 22037, State of Kuwait
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M. M. Eftekhari,
M. M. Eftekhari
Department of Civil and Building Engineering,
Loughborough University
, Loughborough, Leicestershire LE11 3TU, UK
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D. I. Loveday
D. I. Loveday
Department of Civil and Building Engineering,
Loughborough University
, Loughborough, Leicestershire LE11 3TU, UK
Search for other works by this author on:
Abdullatif Ben-Nakhi
Mechanical Power & Refrigeration Department, College of Technological Studies,
PAAET
, P.O. Box 3665, Salmiya 22037, State of Kuwaite-mail: abdnakhi@yahoo.com
M. M. Eftekhari
Department of Civil and Building Engineering,
Loughborough University
, Loughborough, Leicestershire LE11 3TU, UK
D. I. Loveday
Department of Civil and Building Engineering,
Loughborough University
, Loughborough, Leicestershire LE11 3TU, UKJ. Heat Transfer. May 2008, 130(5): 052502 (9 pages)
Published Online: April 10, 2008
Article history
Received:
November 19, 2006
Revised:
August 25, 2007
Published:
April 10, 2008
Citation
Ben-Nakhi, A., Eftekhari, M. M., and Loveday, D. I. (April 10, 2008). "Natural Convection Heat Transfer in a Partially Open Square Cavity With a Thin Fin Attached to the Hot Wall." ASME. J. Heat Transfer. May 2008; 130(5): 052502. https://doi.org/10.1115/1.2885166
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