The flow of homogeneous fluids through porous media: analogies with other physical problems

A comparative study of Casson fluid with homogeneous-heterogeneous reactions.

Numerical approach for MHD Al2O3-water nanofluid transportation inside a permeable medium using innovative computer method

Artificial neural networking (ANN) analysis for heat and entropy generation in flow of non‐Newtonian fluid between two rotating disks

https://pure.hw.ac.uk/ws/files/10725764/1_s2.0_S0167732216312193_main.pdf

MHD stagnation point flow of viscoelastic nanofluid with non-linear radiation effects

Entropy generation in flow of ferromagnetic liquid with nonlinear radiation and slip condition

This paper investigates MHD steady flow of viscous nanofluid due to a rotating disk. Water is treated as a base fluid and copper as nanoparticle. Nanofluid fills the porous medium. Effects of partial slip, viscous dissipation and thermal radiation are also considered. Similarity transformations reduce the nonlinear partial differential equations to ordinary differential equations. Flow and heat transfer characteristics are computed by HAM solutions. Also computations for skin friction coefficient and Nusselt number are presented and examined for pertinent parameters. It is noted that higher velocity slip parameter decreases the radial and azimuthal velocities while temperature decreases for larger values of the thermal slip parameter. Also the rate of heat transfer enhances when the nanoparticle volume fraction increases.

Magnetohydrodynamic (MHD) flow of Cu-water nanofluid due to a rotating disk with partial slip

Nanofluid flow due to rotating disk with variable thickness and homogeneous-heterogeneous reactions

Examination has been made to explore the impact of the induced magnetic field of peristaltic flow for an incompressible Williamson fluid in the curved channel. Formulation of problem is constructed in wave frame of reference. HPM (homotopy perturbation method) is utilized for explaining the continuity equation, induction equation and equation of motion after utilizing the approximations of long-wavelength and low-Reynolds number. Explicit analytical expressions for pressure gradient and stream function, magnetic force function, induced magnetic field and current density are developed. The effects of embedded parameters portrayed and discussed by using graphical approach.

Madiha Rashid

Papers

Entropy generation in flow of ferromagnetic liquid with nonlinear radiation and slip condition

Magnetohydrodynamic (MHD) flow of Cu-water nanofluid due to a rotating disk with partial slip

Nanofluid flow due to rotating disk with variable thickness and homogeneous-heterogeneous reactions

Effects of induced magnetic field for peristaltic flow of Williamson fluid in a curved channel

MHD convective flow due to a curved surface with thermal radiation and chemical reaction