AbstractThe finite volume element (FVE) methods used currently are essentially low order and unsymmetric. In this paper, by biquadratic elements and multistep methods, we construct a second order FVE scheme for nonlinear convection diffusion problem on nonuniform rectangular meshes. To overcome the numerical oscillation, we discretize the problem along its characteristic direction. The choice of alternating direction strategy is critical in this paper, which guarantees the high efficiency and symmetry of the discrete scheme. Optimal order error estimates in H1-norm are derived and a numerical example is given at the end to confirm the usefulness of the method
We present a new finite volume scheme based on the Polynomial Reconstruction Operator (PRO-scheme) f...
We introduce new methods in the class of boundary value methods (BVMs) to solve boundary value probl...
The construction of finite difference schemes in two dimensions is more ambiguous than in one dimens...
AbstractThe finite volume element (FVE) methods used currently are essentially low order and unsymme...
AbstractIn modern numerical simulation of prospecting and exploiting oil–gas resources and environme...
In this paper, we first present a combined finite element-upwind finite volume method for a fully no...
In this paper, we apply the characteristic finite volume method (CFVM) for solving a convection-diff...
A class of upwind finite volume element method based on tetrahedron partition is put forward for a n...
A second-order accurate characteristic-based finite volume method for analyzing time-dependent scala...
AbstractIn this paper a second order characteristics finite element scheme is applied to the numeric...
Abstract: A low order nonconforming finite element method is proposed for the convection-diffusion e...
This paper is concerned with the analysis of the full discrete discon-tinuous Galerkin finite elemen...
The paper aims to compare the accuracy and robustness of the characteristic finite element method (C...
AbstractTwo low order rectangular finite elements for the convection–diffusion problem with a modifi...
Manuscript version accepted for publication[Abstract]: In this paper a second order characteristics ...
We present a new finite volume scheme based on the Polynomial Reconstruction Operator (PRO-scheme) f...
We introduce new methods in the class of boundary value methods (BVMs) to solve boundary value probl...
The construction of finite difference schemes in two dimensions is more ambiguous than in one dimens...
AbstractThe finite volume element (FVE) methods used currently are essentially low order and unsymme...
AbstractIn modern numerical simulation of prospecting and exploiting oil–gas resources and environme...
In this paper, we first present a combined finite element-upwind finite volume method for a fully no...
In this paper, we apply the characteristic finite volume method (CFVM) for solving a convection-diff...
A class of upwind finite volume element method based on tetrahedron partition is put forward for a n...
A second-order accurate characteristic-based finite volume method for analyzing time-dependent scala...
AbstractIn this paper a second order characteristics finite element scheme is applied to the numeric...
Abstract: A low order nonconforming finite element method is proposed for the convection-diffusion e...
This paper is concerned with the analysis of the full discrete discon-tinuous Galerkin finite elemen...
The paper aims to compare the accuracy and robustness of the characteristic finite element method (C...
AbstractTwo low order rectangular finite elements for the convection–diffusion problem with a modifi...
Manuscript version accepted for publication[Abstract]: In this paper a second order characteristics ...
We present a new finite volume scheme based on the Polynomial Reconstruction Operator (PRO-scheme) f...
We introduce new methods in the class of boundary value methods (BVMs) to solve boundary value probl...
The construction of finite difference schemes in two dimensions is more ambiguous than in one dimens...