AbstractModelling tracer transport (leading to a single linear advection–diffusion equation) for realistic data provides a challenging task with respect to the robustness of the underlying numerical procedures. In this paper, we contribute at this point by formulating a positive spatial advection scheme for unstructured triangular meshes. The proof of positivity is presented in detail, using an elementary classification. It is shown that with a careful reconstruction procedure and a moderate demand towards the grid a positive advection scheme is obtained. Next, a brief discussion is given on how we implement this scheme in combination with an implicit time-stepping procedure. As a numerical example, we discuss tracer transport in a strongly...
The multidimensional positive definite advection transport algorithm (MPDATA) is an important numeri...
We examine whether three different upwind schemes for the positive definite advection diffusion prob...
A simple, robust, mass-conserving numerical scheme for solving the linear advection equation is desc...
AbstractModelling tracer transport (leading to a single linear advection–diffusion equation) for rea...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77204/1/AIAA-1991-1532-834.pd
This paper examines a class of explicit finite-difference advection schemes derived along the method...
For advection schemes based on fluctuation splitting, a design criterion of optimizing the time step...
The idea of the simple positive d finite advection scheme presented previously inMonthly Weather Rev...
Transport problems occurring in porous media and including convection, diffusion and chemical reacti...
The paper presents a linear high-order method for advection-di®usion conser- vation laws on three d...
We report on developments of a second-order, conservative, sign-preserving remapping scheme for Arbi...
We implement a space-time grid adaptation procedure to efficiently improve the accuracy of numerical...
International audienceExplicit schemes are known to provide less numerical diffusion in solving the ...
This article investigates the potential for an r-adaptation algorithm to improve the efficiency of s...
Conservative interpolation (remapping), within arbitrary Lagrangian-Eulerian (ALE) schemes, requi...
The multidimensional positive definite advection transport algorithm (MPDATA) is an important numeri...
We examine whether three different upwind schemes for the positive definite advection diffusion prob...
A simple, robust, mass-conserving numerical scheme for solving the linear advection equation is desc...
AbstractModelling tracer transport (leading to a single linear advection–diffusion equation) for rea...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77204/1/AIAA-1991-1532-834.pd
This paper examines a class of explicit finite-difference advection schemes derived along the method...
For advection schemes based on fluctuation splitting, a design criterion of optimizing the time step...
The idea of the simple positive d finite advection scheme presented previously inMonthly Weather Rev...
Transport problems occurring in porous media and including convection, diffusion and chemical reacti...
The paper presents a linear high-order method for advection-di®usion conser- vation laws on three d...
We report on developments of a second-order, conservative, sign-preserving remapping scheme for Arbi...
We implement a space-time grid adaptation procedure to efficiently improve the accuracy of numerical...
International audienceExplicit schemes are known to provide less numerical diffusion in solving the ...
This article investigates the potential for an r-adaptation algorithm to improve the efficiency of s...
Conservative interpolation (remapping), within arbitrary Lagrangian-Eulerian (ALE) schemes, requi...
The multidimensional positive definite advection transport algorithm (MPDATA) is an important numeri...
We examine whether three different upwind schemes for the positive definite advection diffusion prob...
A simple, robust, mass-conserving numerical scheme for solving the linear advection equation is desc...