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Research Article | Open Access

Numerical solution for heat transfer in a staggered enclosure with wavy insulated baffles

Rashid Mahmood1Nusrat Rehman1Afraz Hussain Majeed1Khalil Ur Rehman2,3( )Wasfi Shatanawi2,4
Faculty of Basic Applied Sciences, Department of Mathematics, Air University, PAF Complex E-9, Islamabad 44000, Pakistan
Department of Mathematics and Sciences, College of Humanities and Sciences, Prince Sultan University, Riyadh 11586, Saudi Arabia
Department of Mathematics, Air University, PAF Complex E-9, Islamabad 44000, Pakistan
Department of Mathematics, Faculty of Science, The Hashemite University, P.O Box 330127, Zarqa 13133, Jordan
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Abstract

The present study contains examination on partial differential equations narrating heat transfer aspects in magnetized staggered cavity manifested with wavy insulated baffles. The nanoparticles namely Aluminium oxide are suspended in the flow regime within staggered enclosure having purely viscous fluid. The flow is modelled mathematically in terms of partial differential equations and the finite element is used to discretized the flow differential equations. The effects of several parameters such as Hartmann number ( 0 H a 100 ) , Volume fraction ( 0.00 ϕ 0.08 ) , Rayleigh number ( 10 3 R a 10 5 ) , and angle of inclinaton ( 0 o γ 60 o ) on the thermal flow and distribution of nanomaterials for natural convection are inspected. It is calculated how much Ha will affect velocities and isotherms wit h R a = 10 4 and ϕ = 0.02. With Ha = 20 and ϕ = 0.02, the effect of Ra on velocity and isotherms is also estimated. The average Bejan number and average Nusselt number against Hartmann number are investigated. When the walls move in an opposite direction, line graphs of velocity distribution are created for both the u and v components. The presence of Hartmann number leads to increase in Bejan number while, opposite behavior can be observed in case of average Nusselt number. When the volume fraction is large, the velocity increases significantly. The flow strength is greater when the Rayleigh number is smaller. On the other hand, as Ra drops, or when R a = 10 4 , flow strength drops.

CLC number: 35A25, 65MO6, 76D05, 76M10

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AIMS Mathematics
Pages 8332-8348

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Cite this article:
Mahmood R, Rehman N, Majeed AH, et al. Numerical solution for heat transfer in a staggered enclosure with wavy insulated baffles. AIMS Mathematics, 2023, 8(4): 8332-8348. https://doi.org/10.3934/math.2023420

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Received: 12 September 2022
Revised: 31 December 2022
Accepted: 09 January 2023
Published: 15 April 2023
©2023 the Author(s), licensee AIMS Press.

This is an open access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0)