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Ali J. Chamkha
Researcher at King Abdulaziz University
Publications - 1064
Citations - 40575
Ali J. Chamkha is an academic researcher from King Abdulaziz University. The author has contributed to research in topics: Heat transfer & Nanofluid. The author has an hindex of 88, co-authored 901 publications receiving 27550 citations. Previous affiliations of Ali J. Chamkha include American University of Ras Al Khaimah & Prince Mohammad bin Fahd University.
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MHD natural convection in an inclined cavity filled with a fluid saturated porous medium with heat source in the solid phase
TL;DR: In this article, a numerical investigation of unsteady magnetohydrodynamic free convection in an inclined square cavity filled with a fluid-saturated por ous medium and with internal heat generation has been performed.
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Hall and ion slip effects on magnetohydrodynamic convective rotating flow of Jeffreys fluid over an impulsively moving vertical plate embedded in a saturated porous medium with Ramped wall temperature
M. Veera Krishna,Ali J. Chamkha +1 more
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HEAT AND MASS TRANSFER CHARACTERISTICS OF Al 2 O 3 −WATER AND Ag−WATER NANOFLUID THROUGH POROUS MEDIA OVER A VERTICAL CONE WITH HEAT GENERATION/ABSORPTION
TL;DR: Reddy et al. as discussed by the authors presented a VERTICAL CONE with HEAT GENERATION/ABSORPTION for water and ag-water networks in Saudi Arabia.
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Entropy generation optimization for MHD natural convection of a nanofluid in porous media-filled enclosure with active parts and viscous dissipation
TL;DR: In this article, the authors investigated the entropy generation due to magnetohydrodynamic natural convection flow and heat transfer in a porous enclosure filled with Cu-water nanofluid in the presence of viscous dissipation effect.
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Heat and mass transfer by non‐Darcy free convection from a vertical cylinder embedded in porous media with a temperature‐dependent viscosity
TL;DR: In this article, the authors considered heat and mass transfer by natural convection from a vertical cylinder in porous media for a temperature-dependent fluid viscosity in the presence of radiation and chemical reaction effects.