Your search keyword '"Salahuddin, T."' showing total 2 results

1. Thermal and concentration diffusion in Jeffery nanofluid flow over an inclined stretching sheet: A generalized Fourier's and Fick's perspective.

Author

Khan, Mair, Shahid, Amna, Malik, M.Y., and Salahuddin, T.

Subjects

*NANOFLUIDS, *DIFFUSION, *THERMAL analysis, *HEAT conduction, *STRETCHING of materials, *MAGNETIC fields, *BUOYANCY

Abstract

Recent study illustrates the systematic survey of boundary layer heat and mass diffusion (Cattaneo-Christov model) of Jeffery fluid passed by an inclined stretching surface in the occurrence of magnetic field. Prevailing non-linear PDEs are converted into non-linear ODEs and then the problem is solved via RK-4 technique (using coefficients of Cash and Craps). The related important physical parameters such as M magnetic parameter, λ T thermal buoyancy parameter, λ C concentration buoyancy parameter, γ inclined stretching sheet parameter, PrPrandtl number, N b Brownian motion parameter, N t thermophoresis parameter and Le Lewis number are plotted graphically for velocity, temperature and concentration distributions. In order to check the double diffusive phenomenon, the impact of fluid relaxation parameter δ m , thermal relaxation parameter δ e and nanoparticle concentration relaxation parameter δ c are reflected through tables and graphs. The main theme of present article is to explore its unique attempt towards the generalized version of conventional Fourier's law and Fick's law at nanostructure level. Assumption is drawn on the source of entire analysis and it is clear that the velocity and temperature profiles reduces for increasing values of fluid relaxation parameter, inclined sheet, magnetic field and Prandtl number. [ABSTRACT FROM AUTHOR]

Published

2018

2. Thermal and concentration diffusion in Jeffery nanofluid flow over an inclined stretching sheet: A generalized Fourier's and Fick's perspective.

Author

Khan, Mair, Shahid, Amna, Malik, M.Y., and Salahuddin, T.

Subjects

*MAGNETOHYDRODYNAMICS, *THERMAL diffusivity, *MAGNETIC fields, *THERMOPHORESIS, *FOURIER'S law (Thermodynamics), *FICK'S laws of diffusion

Abstract

Recent study illustrates the systematic survey of boundary layer heat and mass diffusion (Cattaneo-Christov model) of Jeffery fluid passed by an inclined stretching surface in the occurrence of magnetic field. Prevailing non-linear PDEs are converted into non-linear ODEs and then the problem is solved via RK-4 technique (using coefficients of Cash and Craps). The related important physical parameters such as M magnetic parameter, λ T thermal buoyancy parameter, λ C concentration buoyancy parameter, γ inclined stretching sheet parameter, PrPrandtl number, N b Brownian motion parameter, N t thermophoresis parameter and Le Lewis number are plotted graphically for velocity, temperature and concentration distributions. In order to check the double diffusive phenomenon, the impact of fluid relaxation parameter δ m , thermal relaxation parameter δ e and nanoparticle concentration relaxation parameter δ c are reflected through tables and graphs. The main theme of present article is to explore its unique attempt towards the generalized version of conventional Fourier's law and Fick's law at nanostructure level. Assumption is drawn on the source of entire analysis and it is clear that the velocity and temperature profiles reduces for increasing values of fluid relaxation parameter, inclined sheet, magnetic field and Prandtl number. [ABSTRACT FROM AUTHOR]

Published

2018