Numerical investigation of fractional Maxwell nano-fluids between two coaxial cylinders via the finite difference approach

Abstract: This study deals with numerical solution of momentum and heat transfer of fractional ordered Maxwell fluids within a coaxial cylinder. It is well known that the complex dynamics of flow regime can be well-described by the fractional approach. In this paper, a fractional differentiation operator Dtα of Caputo was applied for fractional modeling of magneto-hydro-dynamic (MHD) fluid. A set of appropriate transformations was applied to make the governing equations dimensionless. The finite differences were calcula… Show more

“…Finite difference approach is adopted by the numerous researchers [25][26][27] because of its advantage of using a uniform/non-uniform step size is that it simplifies the discretization process. Derivative approximations and difference equations are generally easier to formulate and implement when the grid is uniform.…”

Bi-directional Forced Convective Stagnation Points Flow of Oldroyd-B Liquid with Joule Heating Effects: A Finite Difference Simulations

“…Finite difference approach is adopted by the numerous researchers [25][26][27] because of its advantage of using a uniform/non-uniform step size is that it simplifies the discretization process. Derivative approximations and difference equations are generally easier to formulate and implement when the grid is uniform.…”

Bi-directional Forced Convective Stagnation Points Flow of Oldroyd-B Liquid with Joule Heating Effects: A Finite Difference Simulations

Heat and mass transport of MHD viscoelastic fluid flow towards a permeable stretching cylinder

Dynamics of Ohmic heating and aligned magnetic field on a nanofluid flow between two coaxial cylinders with rotation effect