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Oblique stagnation point flow of micropolar nanofluid impinge along a vertical surface via modified Chebyshev collocation method

Rizwan Ul Haq, Tabinda Sajjad, Muhammad Usman, Anum Naseem

2022Physics of Fluids15 citationsDOI

Abstract

This article contains a study of mixed convection in micropolar nanofluid near an oblique stagnation point in the presence of a magnetic field. Similarity transformations are used to convert governing partial differential equations to non-linear ordinary differential equations. Modified Chebyshev collocation method in computational software Maple is used for the solution of governing nonlinear differential equations. A comparison of numerical results obtained by modified Chebyshev collocation method and finite difference method is made to show the accuracy of the method. Graphical results for velocity components, microrotation, temperature, and flow patterns are part of this study. Numerical values for free parameter (A), skin friction, and Nusselt numbers for different parameters are also calculated. It is found that microrotation profiles are enhanced by increasing the effect of stretching while decline with enhancing angle of strike γ. Also, the temperature of micropolar nanofluid is increased by increasing the value of the magnetic parameter and micropolar coefficient. The temperature gradient of nanofluid shows a decline when values of stretching parameter and the angle of the strike are increased.

Topics & Concepts

NanofluidNusselt numberPhysicsMechanicsStagnation pointChebyshev polynomialsPartial differential equationOrdinary differential equationCollocation methodPrandtl numberFlow (mathematics)Mathematical analysisClassical mechanicsReynolds numberMathematicsDifferential equationHeat transferTurbulenceNanofluid Flow and Heat TransferHeat Transfer MechanismsFluid Dynamics and Turbulent Flows
Oblique stagnation point flow of micropolar nanofluid impinge along a vertical surface via modified Chebyshev collocation method | Litcius