BishtRef
Articles Journals Publishers Authors Subjects Most Cited New Papers Year Stats Open Access
journal article Jan 08, 2026

Numerical Analysis of Mixed Convection in Vented Curved Cavity With a Metal Foam Layer

Luma F. Ali ORCID Raed G. Saihood ORCID
Heat Transfer Vol. 55 No. 3 pp. 1827-1850 · Wiley
View at Publisher Save 10.1002/htj.70167
Abstract
ABSTRACT
Heat transfer applications usually contemplated day‐to‐day are primarily spotlighted on mixed convection, such as solar collector heating arrangements, electronic cooling, and drying processes. Enhancing convection heat transmission in such appliances can be achieved by inserting porous media, inflow loci, and/or line geometry. In the present paper, convection heat transmission inside a vented curved cavity () with an inserted metal foam layer ( PPI and 0.9% porosity) saturated with water was accomplished. The bottom cavity wall was discretely heated at a constant hot temperature, and the curved wall was kept at a constant cold temperature. Governing equations comprising continuity, momentum with the Darcy–Brinkmann–Forchheimer model, and local thermal equilibrium energy equation have been used and numerically resolved by utilizing the finite element scheme. The inspirations of pertinent parameters involving metal foam layer thickness (), Richardson number (, , ), Reynolds number (), inlet port position (, , ), and partial heating position (, , ) are scrutinized. The results reveal that flow and heat transfer fields are influenced chiefly by these parameter alterations. Streamlines and isotherms were affected strongly by Reynolds number and inlet port location. The average Nusselt number highly depended on the Reynolds number and the metal foam layer insertion. When and , increasing the metal foam layer thickness enlarges cavity regions with high temperature values, but when , another performance is attained. The position at is recommended in most thermal engineering applications.
Topics

No keywords indexed for this article. Browse by subject →

References
51

Showing 50 of 51 references

Metrics
0
Citations
51
References
Details
Published
Jan 08, 2026
Vol/Issue
55(3)
Pages
1827-1850
License
View
Authors
L
Luma F. Ali

Department of Mechanical Engineering University of Baghdad Baghdad Iraq

R
Raed G. Saihood

Department of Mechanical Engineering University of Baghdad Baghdad Iraq

Cite This Article
Luma F. Ali, Raed G. Saihood (2026). Numerical Analysis of Mixed Convection in Vented Curved Cavity With a Metal Foam Layer. Heat Transfer, 55(3), 1827-1850. https://doi.org/10.1002/htj.70167
Related

You May Also Like

Unsteady squeezing flow of magnetic hybrid nanofluids within parallel plates and entropy generation

Himanshu Upreti, Alok Kumar Pandey · 2020

95 citations

Heat and mass transfer in an unsteady squeezed Casson fluid flow with novel thermophysical properties: Analytical and numerical solution

Adebowale M. Obalalu · 2021

72 citations

Multiple characteristics of three‐dimensional radiative Cross fluid with velocity slip and inclined magnetic field over a stretching sheet

Hafiz Abdul Wahab, Syed Zahir Hussain Shah · 2021

60 citations

Entropy generation minimization on electromagnetohydrodynamic radiative Casson nanofluid flow over a melting Riga plate

Adebowale Martins Obalalu, Lawal Lanre Adebayo · 2022

43 citations

Numerical study of heat and mass transfer in MHD flow of nanofluid in a porous medium with Soret and Dufour effects

Imran Haider Qureshi, M. Nawaz · 2021

42 citations