Picard iteration is a widely used procedure for solving the nonlinear equation governing flow in variably saturated porous media. The method is simple to code and computationally cheap, but has been known to fail or converge slowly. The Newton method is more complex and expensive (on a per-iteration basis) than Picard, and as such has not received very much attention. Its robustness and higher rate of convergence, however, make it an attractive alternative to the Picard method, particularly for strongly nonlinear problems. In this paper the Picard and Newton schemes are implemented and compared in one-, two-, and three-dimensional finite element simulations involving both steady state and transient flow. The eight test cases presented highl...
We consider the Richards equation for the fluid flow in variably saturated porous media, which is a ...
Numerical simulation models of water flow in variably saturated soils are important tools in water ...
Ross [Ross PJ. Modeling soil water and solute transport - fast, simplified numerical solutions. Agro...
Finite element discretization of the pressure head form of the Richards equation leads to a nonlinea...
Richards' equation, describing flow in partially saturated porous media, contains strong nonlineari...
We introduce a simple nonlinear transformation. The new approach was compared to Kirkland's φ-based ...
Numerical simulations and laboratory studies are our main tools to comprehend better processes happe...
The performance of improved (higher order extrapolation) initial estimates and a poste(heuristic) an...
Summary. We investigate effectiveness of an acceleration method applied to the modified Picard itera...
Efficient, robust simulation of groundwater flow in the unsaturated zone remains computationally exp...
Numerical models for simulation of saturated-unsaturated flow are increasingly being used in water r...
International audienceThe solution of the mathematical model for flow in variably saturated porous m...
Difficulties in the numerical solution of the partial differential equations governing seawater intr...
This work concerns linearization methods for efficiently solving the Richards equation, a degenerate...
Richards' equation (RE) is often used to model flow in unsaturated porous media. This model cap...
We consider the Richards equation for the fluid flow in variably saturated porous media, which is a ...
Numerical simulation models of water flow in variably saturated soils are important tools in water ...
Ross [Ross PJ. Modeling soil water and solute transport - fast, simplified numerical solutions. Agro...
Finite element discretization of the pressure head form of the Richards equation leads to a nonlinea...
Richards' equation, describing flow in partially saturated porous media, contains strong nonlineari...
We introduce a simple nonlinear transformation. The new approach was compared to Kirkland's φ-based ...
Numerical simulations and laboratory studies are our main tools to comprehend better processes happe...
The performance of improved (higher order extrapolation) initial estimates and a poste(heuristic) an...
Summary. We investigate effectiveness of an acceleration method applied to the modified Picard itera...
Efficient, robust simulation of groundwater flow in the unsaturated zone remains computationally exp...
Numerical models for simulation of saturated-unsaturated flow are increasingly being used in water r...
International audienceThe solution of the mathematical model for flow in variably saturated porous m...
Difficulties in the numerical solution of the partial differential equations governing seawater intr...
This work concerns linearization methods for efficiently solving the Richards equation, a degenerate...
Richards' equation (RE) is often used to model flow in unsaturated porous media. This model cap...
We consider the Richards equation for the fluid flow in variably saturated porous media, which is a ...
Numerical simulation models of water flow in variably saturated soils are important tools in water ...
Ross [Ross PJ. Modeling soil water and solute transport - fast, simplified numerical solutions. Agro...