Publicou 12 edições por ano
ISSN Imprimir: 1091-028X
ISSN On-line: 1934-0508
Indexed in
MIXED CONVECTION MHD HEAT AND MASS TRANSFER OVER A NONLINEAR STRETCHING VERTICAL SURFACE IN A NON-DARCIAN POROUS MEDIUM
RESUMO
A numerical model is developed for the steady two-dimensional laminar mixed convection magnetohydrodynamic heat and mass transfer of an electrically conducting viscous fluid in a non-Darcian porous medium over a nonlinear stretching vertical sheet in the presence of viscous dissipation and Ohmic heating. The stretching velocity and the transverse magnetic field are assumed to vary as a power law function of the distance from the origin. The temperature-dependent fluid properties, namely, the fluid viscosity and the thermal conductivity, are assumed to vary as an inverse and linear function of the temperature, respectively. A generalized similarity transformation is introduced and the governing boundary layer equations are transformed to a set of nonlinear coupled ordinary differential equations which are then solved based on a shooting algorithm along with a Runge−Kutta integration scheme over the entire range of physical parameters with appropriate boundary conditions. The influence of various involved physical parameters on velocity, temperature, and concentration fields as well as on local skin friction, local Nusselt number, and local Sherwood number are studied using graphical and tabular forms. The analysis is carried out for both assisting and opposing flows.
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Nield Donald A., Bejan Adrian, Double-Diffusive Convection, in Convection in Porous Media, 2017. Crossref
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Bhuvaneswari M., Sivasankaran S., Convective Mass and Heat Transfer of a Chemically Reacting Fluid in a Porous Medium with Cross Diffusion Effects and Convective Boundary, in Flow and Transport in Subsurface Environment, 2018. Crossref
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Safikhani Hamed, SELECTING THE OPTIMAL ARRANGEMENTS OF POROUS BLOCKS WITH DIFFERENT/SIMILAR PROPERTIES IN A TWO-DIMENSIONAL CHANNEL ACCORDING TO THE THERMO-HYDRODYNAMIC PERFORMANCE OF THE SYSTEM: A NUMERICAL STUDY , Journal of Porous Media, 25, 10, 2022. Crossref