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Exploration of thermal Péclet number, vortex viscosity, and Reynolds number on two‐dimensional flow of micropolar fluid through a channel due to mixed convection

MD. Shamshuddin, Fazle Mabood, Waqar A. Khan, Govind R. Rajput

2022Heat Transfer58 citationsDOI

Abstract

Abstract The present theoretical investigation is conducted on a micropolar fluid medium channel in the presence of mixed and nonlinear convection with the assumptions of thermal radiation and species reactive agents. The nonlinear governing equations, which describe the micropolar fluid flow and energy, are converted into ordinary differential equations using appropriate similarity variables. With the Runge–Kutta–Fehlberg method, the resultant equations are numerically solved. The physical characteristics of flow restrictions over velocity, microrotation, energy, and concentration profile are plotted and discussed. Further, the impact of several dimensionless parameters on Nusselt and Sherwood numbers is investigated and depicted graphically. In addition to observing flow patterns, contour plots of streamlines are plotted and discussed. It is demonstrated that the dimensionless velocity, temperature, and concentration of micropolar fluid have a maximum value at the center of the channel. However, the microrotation velocity of the micropolar fluid has both maxima and minima. The thermal and solutal properties of micropolar fluid influence heat and mass transport rates, that is, mixed convection and buoyancy parameter boost up the local heat transfer at the surface. Finally, Péclet number and chemically reactive parameters boost up the local mass transfer at the surface.

Topics & Concepts

Nusselt numberSherwood numberReynolds numberMechanicsPéclet numberSchmidt numberDimensionless quantityCombined forced and natural convectionStreamlines, streaklines, and pathlinesFluid dynamicsBuoyancyMass transferHeat transferLewis numberFlow (mathematics)ThermodynamicsPhysicsNatural convectionTurbulenceNanofluid Flow and Heat TransferHeat Transfer and OptimizationHeat Transfer Mechanisms
Exploration of thermal Péclet number, vortex viscosity, and Reynolds number on two‐dimensional flow of micropolar fluid through a channel due to mixed convection | Litcius