Thermal radiation and inclined magnetic field effects on MHD flow past a linearly accelerated inclined plate in a porous medium with variable temperature

Abstract This study reports on combined thermal radiation, chemical reaction, and magnetic field effects on entropy generation in an unsteady nanofluid flow past an inclined cylinder using the Buongiorno model. We consider the impact of viscous dissipation, velocity slip conditions, thermal slip conditions, and the Brownian motion. The transport equations governing the flow are solved using an overlapping grid spectral collocation method. The results indicate that entropy generation is suppressed significantly by thermal radiation and chemical reaction parameters but enhanced with the magnetic field, viscous dissipation, the Brinkman number, and the Reynolds number. Also, fluid flow variables are affected by the thermophoresis parameter, the angle of cylinder inclination, and the Richardson number. We present the findings of the skin friction coefficient, the Nusselt number, and the Sherwood number. The model is applicable in fields such as the petroleum industry, building industries, and medicine.

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Incidences of aligned magnetic field on unsteady MHD flow past a parabolic accelerated inclined plate in a porous medium

Heat Transfer ◽

10.1002/htj.22153 ◽

2021 ◽

Author(s):

Mehari Fentahun Endalew ◽

Subharthi Sarkar

Keyword(s):

Magnetic Field ◽

Porous Medium ◽

Mhd Flow ◽

Inclined Plate ◽

Flow Past ◽

Aligned Magnetic Field

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Mass Transfer Effects on MHD Flow through Porous Medium past an Exponentially Accelerated Inclined Plate with Variable Temperature and Thermal Radiation

International Journal of Thermofluid Science and Technology ◽

10.36963/ijtst.19060402 ◽

2019 ◽

Vol 6 (4) ◽

Cited By ~ 3

Author(s):

B. Shankar Goud ◽

B. Suresh Babu ◽

MN Raja Shekar ◽

G. Srinivas

Keyword(s):

Magnetic Field ◽

Porous Medium ◽

Heat Source ◽

Saturated Porous Medium ◽

Variable Temperature ◽

Mhd Flow ◽

Seepage Flow ◽

Convection Flow ◽

Inclined Plate ◽

Inclined Surfaces

The current paper focuses on unsteady MHD free convection flow with mass and heat transfer past an inclined plate. The inclined plate moves with exponential acceleration and is placed in a saturated porous medium having a uniform permeability but a varying concentration and temperature. The important essence of the study is to analyze the angle of inclination on the flow phenomenon with a heat source or sink alongside a destructive reaction. The governing equations are solved with the help of Galerkin Finite Element Method. A detailed discussion on the effects of pertinent material parameters, magnetic field, and permeability of the porous medium is presented. This reveals the flow reversal with an active magnetic field in porous medium. A retarding velocity is observed with angle of inclination and heat source. Applications of the present study include understanding of drag experienced at the heated/cooled inclined surfaces in a seepage flow.

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