Rania Fathy scite author profile

Rania Fathy

5Publications

35Citation Statements Received

63Citation Statements Given

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123

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Zagazig University

Publications

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Effects of variable properties on MHD heat and mass transfer flow near a stagnation point towards a stretching sheet in a porous medium with thermal radiation

Salem¹,

Fathy²

2012

Chinese Phys. B

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The effect of variable viscosity and thermal conductivity on steady magnetohydrodynamic (MHD) heat and mass transfer flow of viscous and incompressible fluid near a stagnation point towards a permeable stretching sheet embedded in a porous medium are presented, taking into account thermal radiation and internal heat genberation/absorbtion. The stretching velocity and the ambient fluid velocity are assumed to vary linearly with the distance from the stagnation point. The Rosseland approximation is used to describe the radiative heat flux in the energy equation. The governing fundamental equations are first transformed into a system of ordinary differential equations using a scaling group of transformations and are solved numerically by using the fourth-order Rung—Kutta method with the shooting technique. A comparison with previously published work has been carried out and the results are found to be in good agreement. The results are analyzed for the effect of different physical parameters, such as the variable viscosity and thermal conductivity, the ratio of free stream velocity to stretching velocity, the magnetic field, the porosity, the radiation and suction/injection on the flow, and the heat and mass transfer characteristics. The results indicate that the inclusion of variable viscosity and thermal conductivity into the fluids of light and medium molecular weight is able to change the boundary-layer behavior for all values of the velocity ratio parameter λ except for λ = 1. In addition, the imposition of fluid suction increases both the rate of heat and mass transfer, whereas fluid injection shows the opposite effect.

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Hydromagnetic flow of a Cu–water nanofluid past a moving wedge with viscous dissipation

Salem¹,

Ismail²,

Fathy³

2014

Chinese Phys. B

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A numerical study is performed to investigate the flow and heat transfer at the surface of a permeable wedge immersed in a copper (Cu)-water-based nanofluid in the presence of magnetic field and viscous dissipation using a nanofluid model proposed by Tiwari and Das (Tiwari I K and Das M K 2007 Int. J. Heat Mass Transfer 50 2002). A similarity solution for the transformed governing equation is obtained, and those equations are solved by employing a numerical shooting technique with a fourth-order Runge-Kutta integration scheme. A comparison with previously published work is carried out and shows that they are in good agreement with each other. The effects of velocity ratio parameter λ , solid volume fraction ϕ, magnetic field M, viscous dissipation E c , and suction parameter F w on the fluid flow and heat transfer characteristics are discussed. The unique and dual solutions for self-similar equations of the flow and heat transfer are analyzed numerically. Moreover, the range of the velocity ratio parameter for which the solution exists increases in the presence of magnetic field and suction parameter.

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Unsteady MHD boundary layer stagnation point flow with heat and mass transfer in nanofluid in the presence of mass fluid suction and thermal radiation

2015

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Effect of Thermal Radiation on MHD Mixed Convective Heat Transfer Adjacent to a Vertical Continuously Stretching Sheet in the Presence of Variable Viscosity

Salem¹,

Fathy²

2010

J. Korean Phy. Soc.

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Thomson Effect on an Electro-Magneto-Thermoelastic Medium under Dual-Phase-Lag Model

Eraki

Fathy

Othman

2023

J. Multiscale Modelling

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In this paper, the plane wave propagation, in a homogeneous, isotropic thermoelastic solid in the presence of Thomson effect is studied. The problem is solved in the context of the dual-phase-lag model and Lord and Shulman theory. The heat conduction equation is influenced by the Thomson coefficient. The analytical solution of the problem is acquired by using the normal mode method to obtain the stress components, the temperature and the displacement components. The variations of the field quantities have been depicted graphically in the dual-phase-lag model and Lord and Shulman theory for an insulated boundary. From numerical calculations, the effect of Thomson parameter on a homogeneous, isotropic, electro-magneto-thermoelastic material is revealed and discussed.

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Rania Fathy

Effects of variable properties on MHD heat and mass transfer flow near a stagnation point towards a stretching sheet in a porous medium with thermal radiation

Hydromagnetic flow of a Cu–water nanofluid past a moving wedge with viscous dissipation

Unsteady MHD boundary layer stagnation point flow with heat and mass transfer in nanofluid in the presence of mass fluid suction and thermal radiation

Effect of Thermal Radiation on MHD Mixed Convective Heat Transfer Adjacent to a Vertical Continuously Stretching Sheet in the Presence of Variable Viscosity

Thomson Effect on an Electro-Magneto-Thermoelastic Medium under Dual-Phase-Lag Model

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