Add to ORKGABSTRACT In this paper, two different numerical schemes, namely the Runge-Kutta fourth order method and the implicit Euler method with perturbation method of the second degree, are applied to solve the nonlinear thermal wave in one and two dimensions using the differential quadrature method. The aim of this paper is to make comparison between previous numerical schemes and detect which is more efficient and more accurate by comparing the obtained results with the available analytical ones and computing the computational time
In this paper, we have first given a numerical procedure for the solution of second order non-linear...
Coupled advection-diffusion-reaction systems attracted much attention in the last years, because the...
In this study, both the dual reciprocity boundary element method and the differential quadrature met...
Copyright © 2014 Mohamed Salah et al. This is an open access article distributed under the Creative ...
The heat- and mass-transfer equations have an important role in various thermal and diffusion proces...
In this work, accurate solutions to linear and nonlinear diffusion equations were introduced. A poly...
In this work, accurate solutions to linear and nonlinear diffusion equations were introduced. A poly...
In this work, accurate solutions to linear and nonlinear diffusion equations were introduced. A poly...
This paper presents the combined application of differential quadrature method (DQM) and finite-diff...
AbstractIn this paper, three different numerical schemes are described to approximate the solution o...
Abstract-- In this paper, a hybrid technique of differential quadrature method and Runge-Kutta fourt...
In this study, the density dependent nonlinear reactiondiffusion equation, which arises in the insec...
AbstractThe methodology and numerical solution of problems concerning transport processes via the me...
In this study, the density dependent nonlinear reactiondiffusion equation, which arises in the insec...
none3siCoupled advection-diffusion-reaction systems attracted much attention in the last years, beca...
In this paper, we have first given a numerical procedure for the solution of second order non-linear...
Coupled advection-diffusion-reaction systems attracted much attention in the last years, because the...
In this study, both the dual reciprocity boundary element method and the differential quadrature met...
Copyright © 2014 Mohamed Salah et al. This is an open access article distributed under the Creative ...
The heat- and mass-transfer equations have an important role in various thermal and diffusion proces...
In this work, accurate solutions to linear and nonlinear diffusion equations were introduced. A poly...
In this work, accurate solutions to linear and nonlinear diffusion equations were introduced. A poly...
In this work, accurate solutions to linear and nonlinear diffusion equations were introduced. A poly...
This paper presents the combined application of differential quadrature method (DQM) and finite-diff...
AbstractIn this paper, three different numerical schemes are described to approximate the solution o...
Abstract-- In this paper, a hybrid technique of differential quadrature method and Runge-Kutta fourt...
In this study, the density dependent nonlinear reactiondiffusion equation, which arises in the insec...
AbstractThe methodology and numerical solution of problems concerning transport processes via the me...
In this study, the density dependent nonlinear reactiondiffusion equation, which arises in the insec...
none3siCoupled advection-diffusion-reaction systems attracted much attention in the last years, beca...
In this paper, we have first given a numerical procedure for the solution of second order non-linear...
Coupled advection-diffusion-reaction systems attracted much attention in the last years, because the...
In this study, both the dual reciprocity boundary element method and the differential quadrature met...