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Hall effects on MHD couple stress fluid flow through a vertical microchannel subjected to heat generation: A numerical study

A. Roja, B. J. Gireesha

2020Heat Transfer20 citationsDOI

Abstract

Abstract The present study analyzes the irreversibility in an electrically conducting couple stress fluid between two vertical channel plates with the aspects of exponential space and temperature‐dependent, radiative heat flux, heat generation, and Joule heating. A reduced system of the governing equations is obtained via applying suitable nondimensional variables. To determine the solutions of velocity, thermal field, irreversibility, and irreversibility ratio, the Runge‐Kutta‐Fehlberg method along with the shooting technique has been employed. The various pertinent parameters that are involved in the problem have been discussed in detail through graphs. The results show that the entropy production can improve with the viscous dissipation, Joule heating, exponential space and temperature‐dependent, and radiative heat flux. Furthermore, it is clear that the entropy enhances with wall ambient temperature difference, radiation parameter, and the effect is reversed with higher estimations of the fluid wall interaction parameter, couple stress parameter, and rarefaction. The present numerical results are compared with the existing results that are in good agreement.

Topics & Concepts

Joule heatingMechanicsMicrochannelHeat fluxThermal radiationRadiative transferMagnetohydrodynamicsThermal conductionRarefaction (ecology)Heat transferThermalEntropy (arrow of time)ThermodynamicsMaterials sciencePhysicsMagnetic fieldOpticsGeologyQuantum mechanicsPaleontologySpecies richnessComposite materialNanofluid Flow and Heat TransferHeat Transfer and OptimizationHeat Transfer Mechanisms
Hall effects on MHD couple stress fluid flow through a vertical microchannel subjected to heat generation: A numerical study | Litcius