In this paper, the numerical simulation of the 3D seepage flow with fractional derivatives in porous\ud media is considered under two special cases: non-continued seepage flow in uniform media (NCSFUM)\ud and continued seepage flow in non-uniform media (CSF-NUM). A fractional alternating direction\ud implicit scheme (FADIS) for the NCSF-UM and a modified Douglas scheme (MDS) for the CSF-NUM\ud are proposed. The stability, consistency and convergence of both FADIS and MDS in a bounded domain\ud are discussed. A method for improving the speed of convergence by Richardson extrapolation for the\ud MDS is also presented. Finally, numerical results are presented to support our theoretical analysis
Fractional sub-diffusion equations have been widely used to model sub-diffusive systems. Most algori...
AbstractFractional advection–dispersion equations are used in groundwater hydrology to model the tra...
Nonlinear time-fractional diffusion equations have been used to describe the liquid infiltration for...
In this paper, the numerical simulation of the 3D seepage flow with fractional derivatives in porous...
The non-Darcian flow and solute transport in geometrically nonlinear porous media are modeled with R...
In this paper, fractional order derivative, fractal dimension and spectral dimension are introduced ...
www.ijsrp.org Application of Adomian Decomposition method to seepage flow derivatives in porous medi...
The generalised finite difference method (GFDM) is a mesh-free method for solving partial differenti...
Percolation flow problems are discussed in many research fields, such as seepage hydraulics, groundw...
The aim of the present work is to present an overview of some numerical procedures for the simulatio...
The present paper is devoted to the construction and study of numerical methods for solving an initi...
The purpose of this study is to present the development and application of residual flow procedure f...
Numerical schemes and stability criteria are developed for solution of the one-dimensional fractiona...
This report surveys recent advances on numerical solution of fractional PDEs, which describe “anomal...
We report on generic relations between fractional flow and pressure in steady two-phase flow in poro...
Fractional sub-diffusion equations have been widely used to model sub-diffusive systems. Most algori...
AbstractFractional advection–dispersion equations are used in groundwater hydrology to model the tra...
Nonlinear time-fractional diffusion equations have been used to describe the liquid infiltration for...
In this paper, the numerical simulation of the 3D seepage flow with fractional derivatives in porous...
The non-Darcian flow and solute transport in geometrically nonlinear porous media are modeled with R...
In this paper, fractional order derivative, fractal dimension and spectral dimension are introduced ...
www.ijsrp.org Application of Adomian Decomposition method to seepage flow derivatives in porous medi...
The generalised finite difference method (GFDM) is a mesh-free method for solving partial differenti...
Percolation flow problems are discussed in many research fields, such as seepage hydraulics, groundw...
The aim of the present work is to present an overview of some numerical procedures for the simulatio...
The present paper is devoted to the construction and study of numerical methods for solving an initi...
The purpose of this study is to present the development and application of residual flow procedure f...
Numerical schemes and stability criteria are developed for solution of the one-dimensional fractiona...
This report surveys recent advances on numerical solution of fractional PDEs, which describe “anomal...
We report on generic relations between fractional flow and pressure in steady two-phase flow in poro...
Fractional sub-diffusion equations have been widely used to model sub-diffusive systems. Most algori...
AbstractFractional advection–dispersion equations are used in groundwater hydrology to model the tra...
Nonlinear time-fractional diffusion equations have been used to describe the liquid infiltration for...