Mixed and Mixed Hybrid Finite Elements (MHFE) methods have been widely used in the last decade for simulation of groundwater flow problem, petroleum reservoir problems, potential flow problems, etc. The main advantage of these methods is that, unlike the classical Galerkin approach, they guarantee local and global mass balance, as well the flux continuity between inter-element sides. The simple shape of the control volume, where the mass conservation is satisfied, makes also easier to couple this technique with a Finite Volume technique in the time splitting approach for the solution of advection-dispersion problems. In the present paper a new second spatial approximation order Finite Volume formulation (FV2) for triangular irregular meshes...
This work is devoted to the numerical reliability and time requirements of the Mixed Finite Element ...
summary:We introduce a formulation of the finite element method (FEM) adapted to typical geometry of...
AbstractRecently, a new theory of high-concentration brine transport in groundwater has been develop...
Abstract:- Mixed and Mixed Hybrid Finite Elements (MHFE) methods have been widely used in the last d...
Mixed and Mixed Hybrid Finite Elements (MHFE) methods have been widely used in the last decade for s...
This paper is concerned with a comparison of the performance and efficiency of mixed finite element ...
We present the development of a two-dimensional Mixed-Hybrid Finite Element (MHFE) model for the sol...
AbstractThe density-dependent flow and transport problem in groundwater on three-dimensional triangu...
We present the development of a two-dimensional Mixed-Hybrid Finite Element (MHFE) model for the sol...
The density dependent flow and transport problem in groundwater on three dimensional triangulations ...
Abstract: Groundwater flow modelling is of interest in many sciences and engineering applications ...
Solutions to many issues related to groundwater flow require mathematical modeling. Commonly used mo...
Recently, a new theory of high-concentration brine transport in groundwater has been developed. This...
Computing 3D velocity fields is an important task in subsurface water flow analysis. While Finite El...
International audienceThe present paper proposes a new family of multiscale finite volume methods. T...
This work is devoted to the numerical reliability and time requirements of the Mixed Finite Element ...
summary:We introduce a formulation of the finite element method (FEM) adapted to typical geometry of...
AbstractRecently, a new theory of high-concentration brine transport in groundwater has been develop...
Abstract:- Mixed and Mixed Hybrid Finite Elements (MHFE) methods have been widely used in the last d...
Mixed and Mixed Hybrid Finite Elements (MHFE) methods have been widely used in the last decade for s...
This paper is concerned with a comparison of the performance and efficiency of mixed finite element ...
We present the development of a two-dimensional Mixed-Hybrid Finite Element (MHFE) model for the sol...
AbstractThe density-dependent flow and transport problem in groundwater on three-dimensional triangu...
We present the development of a two-dimensional Mixed-Hybrid Finite Element (MHFE) model for the sol...
The density dependent flow and transport problem in groundwater on three dimensional triangulations ...
Abstract: Groundwater flow modelling is of interest in many sciences and engineering applications ...
Solutions to many issues related to groundwater flow require mathematical modeling. Commonly used mo...
Recently, a new theory of high-concentration brine transport in groundwater has been developed. This...
Computing 3D velocity fields is an important task in subsurface water flow analysis. While Finite El...
International audienceThe present paper proposes a new family of multiscale finite volume methods. T...
This work is devoted to the numerical reliability and time requirements of the Mixed Finite Element ...
summary:We introduce a formulation of the finite element method (FEM) adapted to typical geometry of...
AbstractRecently, a new theory of high-concentration brine transport in groundwater has been develop...