Laminar natural convection in differentially heated square cavity with right cold wavy wall and horizontal conducting fin attached to its left hot wall has been investigated numerically. The vertical walls are maintained at different isothermal temperatures, while the horizontal walls are insulated. The fluid that filled the cavity is air with Prandtl number of 0.71. The investigation has been performed for Rayleigh number in the range of 103–106, the thermal conductivity ratio was varied from 10 to 105, three fin lengths and positions have been examined (0.25, 0.5, and 0.75), and three numbers of undulation were tested (one, two, and three undulations). The wave amplitude and the fin thickness were kept constant at 0.05 and 0.04, respectively. The results obtained show that increasing the fin thermal conductivity or the Rayleigh number increases the average Nusselt number especially when the fin length increases. It was also found that the fin position enhances the heat transfer when the fin is placed opposite to the crest of the wavy wall. The trend of the local Nusselt number is wavy. The effect of undulations number appears when the fin length is greater than 0.5. The average Nusselt number enhanced when a conducting fin is added to the cavity with wavy wall and without fin by 51.23% and 56.85% for one and three undulations, respectively, when the Rayleigh number is 105 and the fin length is 0.75.
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Numerical Investigation of Laminar Natural Convection in a Square Cavity With Wavy Wall and Horizontal Fin Attached to the Hot Wall
Ahmed Kadari,
Ahmed Kadari
Laboratory of Industrial Technologies,
Department of Mechanical Engineering,
University Ibn Khaldoun,
Tiaret 14000, Algeria
e-mail: Kaduniv14@hotmail.fr
Department of Mechanical Engineering,
University Ibn Khaldoun,
Tiaret 14000, Algeria
e-mail: Kaduniv14@hotmail.fr
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Nord-Eddine Sad Chemloul,
Nord-Eddine Sad Chemloul
Laboratory of Industrial Technologies,
Department of Mechanical Engineering,
University Ibn Khaldoun,
Tiaret 14000, Algeria
e-mail: sad_2412@yahoo.fr
Department of Mechanical Engineering,
University Ibn Khaldoun,
Tiaret 14000, Algeria
e-mail: sad_2412@yahoo.fr
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Said Mekroussi
Said Mekroussi
Laboratory of Industrial Technologies,
Department of Mechanical Engineering,
University Ibn Khaldoun,
Tiaret 14000, Algeria
e-mail: Mekroussi_said@yahoo.fr
Department of Mechanical Engineering,
University Ibn Khaldoun,
Tiaret 14000, Algeria
e-mail: Mekroussi_said@yahoo.fr
Search for other works by this author on:
Ahmed Kadari
Laboratory of Industrial Technologies,
Department of Mechanical Engineering,
University Ibn Khaldoun,
Tiaret 14000, Algeria
e-mail: Kaduniv14@hotmail.fr
Department of Mechanical Engineering,
University Ibn Khaldoun,
Tiaret 14000, Algeria
e-mail: Kaduniv14@hotmail.fr
Nord-Eddine Sad Chemloul
Laboratory of Industrial Technologies,
Department of Mechanical Engineering,
University Ibn Khaldoun,
Tiaret 14000, Algeria
e-mail: sad_2412@yahoo.fr
Department of Mechanical Engineering,
University Ibn Khaldoun,
Tiaret 14000, Algeria
e-mail: sad_2412@yahoo.fr
Said Mekroussi
Laboratory of Industrial Technologies,
Department of Mechanical Engineering,
University Ibn Khaldoun,
Tiaret 14000, Algeria
e-mail: Mekroussi_said@yahoo.fr
Department of Mechanical Engineering,
University Ibn Khaldoun,
Tiaret 14000, Algeria
e-mail: Mekroussi_said@yahoo.fr
1Corresponding author.
Contributed by the Heat Transfer Division of ASME for publication in the JOURNAL OF HEAT TRANSFER. Manuscript received July 4, 2017; final manuscript received December 9, 2017; published online March 30, 2018. Assoc. Editor: Zhixiong Guo.
J. Heat Transfer. Jul 2018, 140(7): 072503 (15 pages)
Published Online: March 30, 2018
Article history
Received:
July 4, 2017
Revised:
December 9, 2017
Citation
Kadari, A., Sad Chemloul, N., and Mekroussi, S. (March 30, 2018). "Numerical Investigation of Laminar Natural Convection in a Square Cavity With Wavy Wall and Horizontal Fin Attached to the Hot Wall." ASME. J. Heat Transfer. July 2018; 140(7): 072503. https://doi.org/10.1115/1.4039081
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