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Thermodynamic analysis of a tangent hyperbolic hydromagnetic heat generating fluid in quadratic Boussinesq approximation

Anthony R. Hassan, S.O. Salawu, A.B. Disu, Oluwaseun Raphael Aderele

2022Journal of Computational Mathematics and Data Science21 citationsDOIOpen Access PDF

Abstract

The current investigation is to examine the compound impact of electromagnetic induced force and internal heat source on a tangent hyperbolic fluid in quadratic Boussinesq approximation. The current hyperbolic tangent liquid flow and heat transport formulation model adequately predicts and characterizes the shear-stricken event. The nonlinear dimensionless heat transfer flow equations are solved completely using weighted residual solution procedures coupled with Galerkin approximation integration approach. The results in the table and graphs revealed that the magnetic field strength has a substantial impact on the fluid flow and heat propagation, as well as the internal heat source. Therefore, the entropy generation is optimized through an enhanced thermodynamic equilibrium and adequate control of heat generating terms and energy loss.

Topics & Concepts

Heat transferMechanicsBoussinesq approximation (buoyancy)Quadratic equationPhysicsHyperbolic functionMathematicsThermodynamicsMathematical analysisGeometryNatural convectionRayleigh numberNanofluid Flow and Heat TransferFluid Dynamics and Turbulent FlowsHeat Transfer and Optimization