A novel 1D–2D shallow water model based on the resolution of the Riemann problem at the coupled grid edges is presented in this work. Both the 1D and the 2D shallow water models are implemented in a finite volume framework using approximate Roe’s solvers that are able to deal correctly with wet/dry fronts. After an appropriate geometric link between the models, it is possible to define local Riemann problems at each coupled interface and estimate the contributions that update the cell solutions from the interfaces. The solute transport equation is also incorporated into the proposed procedure. The numerical results achieved by the 1D–2D coupled model are compared against a complete 2D model, which is considered the reference solution. The c...
We present a lateral coupling method between one-dimensional (1D) and two-dimensional (2D) shallow-w...
This work is focused on a numerical finite volume scheme for the coupled shallow water-Exner system ...
This work is concerned with the design and the implementation of efficient and novel numerical techn...
International audienceThis work is dedicated to the modeling of exchanges between a river and its su...
We study the superposition of 1D and 2D shallow-water equations with non-flat topographies, in the c...
International audienceWe study the superposition of 1D and 2D shallow-water equations with non-flat ...
An integrated 1D-2D model for the solution of the diffusive approximation of the shallow water equat...
AbstractIn this paper, a finite volume model using approximate Riemann solver is presented for solvi...
Hydraulic simulation is becoming a very widely used tool to provide information about the duration, ...
In the present dissertation, a finite volume and a finite element model are developed and tuned for ...
A novel augmented Riemann Solver capable of handling porosity discontinuities in 1D and 2D Shallow W...
Riemann problems at geometric discontinuities are a classic and fascinating topic of hydraulics. In ...
Shock-capturing methods originally developed for compressible gas dynamics has been applied to many ...
1D river flow modelling approaches are generally inefficient when overbank flow occurs as the moment...
A number of the standard numerical methods used to solve the two-dimensional shallow water wave eq...
We present a lateral coupling method between one-dimensional (1D) and two-dimensional (2D) shallow-w...
This work is focused on a numerical finite volume scheme for the coupled shallow water-Exner system ...
This work is concerned with the design and the implementation of efficient and novel numerical techn...
International audienceThis work is dedicated to the modeling of exchanges between a river and its su...
We study the superposition of 1D and 2D shallow-water equations with non-flat topographies, in the c...
International audienceWe study the superposition of 1D and 2D shallow-water equations with non-flat ...
An integrated 1D-2D model for the solution of the diffusive approximation of the shallow water equat...
AbstractIn this paper, a finite volume model using approximate Riemann solver is presented for solvi...
Hydraulic simulation is becoming a very widely used tool to provide information about the duration, ...
In the present dissertation, a finite volume and a finite element model are developed and tuned for ...
A novel augmented Riemann Solver capable of handling porosity discontinuities in 1D and 2D Shallow W...
Riemann problems at geometric discontinuities are a classic and fascinating topic of hydraulics. In ...
Shock-capturing methods originally developed for compressible gas dynamics has been applied to many ...
1D river flow modelling approaches are generally inefficient when overbank flow occurs as the moment...
A number of the standard numerical methods used to solve the two-dimensional shallow water wave eq...
We present a lateral coupling method between one-dimensional (1D) and two-dimensional (2D) shallow-w...
This work is focused on a numerical finite volume scheme for the coupled shallow water-Exner system ...
This work is concerned with the design and the implementation of efficient and novel numerical techn...