summary:A nonlinear differential system for describing an air-water system in groundwater hydrology is given. The system is written in a fractional flow formulation, i.e., in terms of a saturation and a global pressure. A continuous-time version of the finite element method is developed and analyzed for the approximation of the saturation and pressure. The saturation equation is treated by a Galerkin finite element method, while the pressure equation is treated by a mixed finite element method. The analysis is carried out first for the case where the capillary diffusion coefficient is assumed to be uniformly positive, and is then extended to a degenerate case where the diffusion coefficient can be zero. It is shown that error estimates of o...
Abstract: Prediction of the mass transfer behavior of the entrapped dense non-aqueous phase liquid (...
Most finite element methods (FEMs) for simulating groundwater flow and solute transport rely upon a ...
This work consists of a study of particular aspects of nonlinear flow equations and a non-traditiona...
summary:A nonlinear differential system for describing an air-water system in groundwater hydrology ...
Abstract This paper deals with development and analysis of a fully discrete nite element method for...
A numerical model describing the flow of multiphase, immiscible fluids in a deformable, double-poros...
A three-dimensional model describing the two-phase (air-water) fluid flow equations in an integrated...
This paper is concerned with a comparison of the performance and efficiency of mixed finite element ...
A fully coupled numerical model has been developed which describes multiphase fluid flow through soi...
textA set of discontinuous Galerkin (DG) finite element methods are proposed to solve the air-water...
The first part of the slide show consists of reminders about the basic concepts and equations of sat...
The Richards equation is widely used in hydrogeology for modelling flow in an unsaturated porous me...
We analyze a fully discrete numerical scheme for the model describing two-phase immiscible flow in p...
Mathematical models used to describe porous medium flow lead to coupled systems of time-dependent no...
Multiphase ow simulation with various nonhomogeneous boundary conditions in groundwater hydrology an...
Abstract: Prediction of the mass transfer behavior of the entrapped dense non-aqueous phase liquid (...
Most finite element methods (FEMs) for simulating groundwater flow and solute transport rely upon a ...
This work consists of a study of particular aspects of nonlinear flow equations and a non-traditiona...
summary:A nonlinear differential system for describing an air-water system in groundwater hydrology ...
Abstract This paper deals with development and analysis of a fully discrete nite element method for...
A numerical model describing the flow of multiphase, immiscible fluids in a deformable, double-poros...
A three-dimensional model describing the two-phase (air-water) fluid flow equations in an integrated...
This paper is concerned with a comparison of the performance and efficiency of mixed finite element ...
A fully coupled numerical model has been developed which describes multiphase fluid flow through soi...
textA set of discontinuous Galerkin (DG) finite element methods are proposed to solve the air-water...
The first part of the slide show consists of reminders about the basic concepts and equations of sat...
The Richards equation is widely used in hydrogeology for modelling flow in an unsaturated porous me...
We analyze a fully discrete numerical scheme for the model describing two-phase immiscible flow in p...
Mathematical models used to describe porous medium flow lead to coupled systems of time-dependent no...
Multiphase ow simulation with various nonhomogeneous boundary conditions in groundwater hydrology an...
Abstract: Prediction of the mass transfer behavior of the entrapped dense non-aqueous phase liquid (...
Most finite element methods (FEMs) for simulating groundwater flow and solute transport rely upon a ...
This work consists of a study of particular aspects of nonlinear flow equations and a non-traditiona...