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DARCY-FORCHHEIMER RADIATIVE FLOW OF A HYBRID NANOFLUID WITH VELOCITY MASS FLUX AND THERMAL STABILITY

Adnan Asghar, Hassan Hanafy, Mustafa Abbas Fadhel, Liaquat Ali Lund, Sami Ullah Khan, Iskander Tlili

2024Journal of Porous Media13 citationsDOI

Abstract

This research aimed to predicts the stability of hybrid nanofluid subject to the contribution of the Darcy-Forchheimer flow. The thermal feature of the current model was exposed by encountering thermal radiative consequences. The combination of aluminum oxide and copper tiny materials were collectively decomposed with water liquid, which expressed the base material. The addition of thermal phenomenon occurred by using convective thermal constraints. Multiple numerical simulations supported with the shooting technique were performed. The dual solution was deduced for a governing problem for flow parameters. Additionally, a stability analysis was worked through for the given model. Upon enhancing the nanoparticles volume fraction, the boosted heat transfer phenomenon was observed. The Nusselt number reduced in dual branches due to nanoparticles volume fraction.

Topics & Concepts

NanofluidMechanicsMass fluxDual (grammatical number)Flow (mathematics)Radiative transferMaterials scienceFlux (metallurgy)Stability (learning theory)PhysicsHeat transferComputer scienceOpticsMachine learningArtLiteratureMetallurgyNanofluid Flow and Heat TransferFluid Dynamics and Turbulent FlowsHeat Transfer Mechanisms
DARCY-FORCHHEIMER RADIATIVE FLOW OF A HYBRID NANOFLUID WITH VELOCITY MASS FLUX AND THERMAL STABILITY | Litcius