Numerical simulation for two-dimensional Riesz space fractional diffusion equations with a nonlinear reaction term

Abstract: Abstract:Fractional differential equations have attracted considerable interest because of their ability to model anomalous transport phenomena. Space fractional diffusion equations with a nonlinear reaction term have been presented and used to model many problems of practical interest. In this paper, a two-dimensional Riesz space fractional diffusion equation with a nonlinear reaction term (2D-RSFDE-NRT) is considered. A novel alternating direction implicit method for the 2D-RSFDE-NRT with homogeneous Dirichl… Show more

“…Generally, numerical solution techniques are preferred when dealing with fractional models since the analytical solutions are only available for a few simple cases. During the last decade, extensive research has been carried out on the development of efficient numerical solutions for fractional partial differential equations, including finite difference methods [15][16][17][18][19][20], the finite volume method [21], the finite element method [22][23][24], and the spectral method [25,26]. In contrast to numerical methods for the integer-order partial differential equation, which usually generates a banded coefficient matrix, the finite difference discretization of the space-fractional model results in a linear system with a full, or dense, coefficient matrix.…”

A fast semi-implicit difference method for a nonlinear two-sided space-fractional diffusion equation with variable diffusivity coefficients

“…Generally, numerical solution techniques are preferred when dealing with fractional models since the analytical solutions are only available for a few simple cases. During the last decade, extensive research has been carried out on the development of efficient numerical solutions for fractional partial differential equations, including finite difference methods [15][16][17][18][19][20], the finite volume method [21], the finite element method [22][23][24], and the spectral method [25,26]. In contrast to numerical methods for the integer-order partial differential equation, which usually generates a banded coefficient matrix, the finite difference discretization of the space-fractional model results in a linear system with a full, or dense, coefficient matrix.…”

A fast semi-implicit difference method for a nonlinear two-sided space-fractional diffusion equation with variable diffusivity coefficients

“…Fractional diffusion equations in presence of external force were also of interest in many recent papers [12][13][14][15]. Analytical solutions of fractional differential equations and numerical methods of fractional cable equation have been considered by many authors [16][17][18][19][20][21][22][23][24], to name but a few. In our work, we further generalize Equation (2) by introducing time fractional derivative of Caputo form of order 0 1    , defined by [8,9] …”

Analytical Solution of Generalized Space-Time Fractional Cable Equation

“…Generally, the Grünwald-Letnikov derivative is used to approximate to the Riesz fractional derivative, most of which are finite difference methods [21][22][23][24]26,27,29,37,38]. In addition, the matrix transform method [25,35], Galerkin finite element method [28], predictor-corrector method [36], variational iteration method [39] and alternating direction method [30] are also proposed to applied to the fractional diffusion equations with Riesz space fractional derivative.…”

Stability and convergence of a new finite volume method for a two-sided space-fractional diffusion equation