In this paper, a numerical model is presented, aiming at the accurate solution of the one-dimensional Shallow-water Equations with bed slope source terms. The numerical model, which is fully third-order precise in time and space, is based on the Spectral Volume Method, and makes use of the HLL approximate Riemann solver to evaluate the fluxes at the interfaces between the cells. The source terms are treated, in the context of the HLL solver, in an upwinded fashion. A number of numerical experiments are reported, showing the promising capabilities of the model to solve real-world problems with complicate topographies
We present a comparison of two discretization methods for the shallow water equations, namely the fi...
The shallow-water equations are widely used to model surface water bodies, such as lakes, rivers and...
This study develops a new well-balanced scheme for the one-dimensional shallow water system over irr...
In this paper, a numerical model, aiming at the accurate solution of the one-dimensional Shallow-wat...
In this paper a numerical model for the solution of the one-dimensional shallow-water equations with...
Summarization: The present work addresses the numerical prediction of shallow water flows with the a...
The broad-crested weir can be regarded as a zone of smooth rapid variation of the bottom elevation t...
The numerical modelling of hyperconcentrated shallow flows is a challenging task because they exhibi...
This study presents a finite volume hydrodynamic model for shallow water flow that computes on a coa...
A high-resolution finite volume hydrodynamic solver is presented for open-channel flows based on the...
NoOwing to unpredictable bed topography conditions in natural shallow flows, various numerical metho...
AbstractIn this paper, a finite volume model using approximate Riemann solver is presented for solvi...
AbstractWe present a new finite volume method for the numerical solution of shallow water equations ...
International audienceThe study of a 1D-shallow water model, obtained in a height-flow formulation, ...
International audienceSolving the Shallow-Water-Sensitivity Equations for discontinuous flows involv...
We present a comparison of two discretization methods for the shallow water equations, namely the fi...
The shallow-water equations are widely used to model surface water bodies, such as lakes, rivers and...
This study develops a new well-balanced scheme for the one-dimensional shallow water system over irr...
In this paper, a numerical model, aiming at the accurate solution of the one-dimensional Shallow-wat...
In this paper a numerical model for the solution of the one-dimensional shallow-water equations with...
Summarization: The present work addresses the numerical prediction of shallow water flows with the a...
The broad-crested weir can be regarded as a zone of smooth rapid variation of the bottom elevation t...
The numerical modelling of hyperconcentrated shallow flows is a challenging task because they exhibi...
This study presents a finite volume hydrodynamic model for shallow water flow that computes on a coa...
A high-resolution finite volume hydrodynamic solver is presented for open-channel flows based on the...
NoOwing to unpredictable bed topography conditions in natural shallow flows, various numerical metho...
AbstractIn this paper, a finite volume model using approximate Riemann solver is presented for solvi...
AbstractWe present a new finite volume method for the numerical solution of shallow water equations ...
International audienceThe study of a 1D-shallow water model, obtained in a height-flow formulation, ...
International audienceSolving the Shallow-Water-Sensitivity Equations for discontinuous flows involv...
We present a comparison of two discretization methods for the shallow water equations, namely the fi...
The shallow-water equations are widely used to model surface water bodies, such as lakes, rivers and...
This study develops a new well-balanced scheme for the one-dimensional shallow water system over irr...