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Heat and Mass Transfer in Stagnation Point Flow of Maxwell Nanofluid Towards a Vertical Stretching Sheet with Effect of Induced Magnetic Field

Tadesse Walelign, Eshetu Haile, Tesfaye Kebede, Gurju Awgichew

2021Mathematical Problems in Engineering23 citationsDOIOpen Access PDF

Abstract

This paper presents a mathematical model analysis of heat and mass transfer in a two-dimensional flow of electrically conducting, thermally radiative, and chemically reactive Maxwell nanofluid towards a vertical stretching and permeable sheet embedded in a porous medium. Boundary layer approximation and suitable transformations are used to reduce the governing differential equations convenient for computation. Eventually, the transformed nonlinear differential equations along with the corresponding boundary conditions are solved in the framework of optimal homotopy analysis method. The effects of induced magnetic field, buoyancy force, viscous dissipation, heat source, Joule heating, and convective boundary condition are analyzed in detail. The rates of heat, mass, and momentum transfer with respect to the relevant parameters are also examined in terms of the local Nusselt number, Sherwood number, and skin friction coefficients, respectively. Among the many results of the study, it is shown that the induced magnetic field, flow velocity, and temperature profiles are increasing functions of the Maxwell parameter. The results of the present study are also in a close agreement with previously published results under common assumptions.

Topics & Concepts

Nusselt numberMechanicsNanofluidHomotopy analysis methodHeat transferStagnation pointMagnetic fieldBoundary value problemBoundary layerBuoyancyClassical mechanicsMass transferFlow (mathematics)MagnetohydrodynamicsJoule heatingSherwood numberMaterials sciencePhysicsMomentum (technical analysis)Maxwell's equationsNonlinear systemReynolds numberComposite materialTurbulenceQuantum mechanicsEconomicsFinanceNanofluid Flow and Heat TransferHeat Transfer MechanismsFluid Dynamics and Turbulent Flows
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