Many geophysical flows are merely perturbations of some fundamental equilibrium state. If a numerical scheme shall capture such flows efficiently, it should be able to preserve the unperturbed equilibrium state at the discrete level. Here, we present a class of schemes of any desired order of accuracy which preserve the lake at rest perfectly. These schemes should have an impact for studying important classes of lake and ocean flows
The shallow-water equations are widely used to model surface water bodies, such as lakes, rivers and...
A well-designed numerical method for the shallow water equations (SWE) should ensure well-balancedne...
Summary. An overview is given of finite volume central schemes for the numerical solution of systems...
Many geophysical flows are merely perturbations of some fundamental equilibrium state. If a numerica...
AMS subject classifications. 65M60, 65M12 Key words. Shallow-water equations, steady states, finite ...
Abstract. We consider the shallow water equations with non-flat bottom topography. The smooth soluti...
The shallow water system plays an important role in the numerical simulation of oceanic models, coas...
Water flows can be modelled mathematically and one available model is the shallow water equations. T...
Over the last decade, the development of high resolution well-balanced schemes was a central topic i...
Well balanced finite volume methods used to solve the shallow water wave equations are designed to p...
The shallow-water equations are widely used to model surface water bodies, such as lakes, rivers and...
In the presented work the shallow water equations are derived in detail and their properties are pre...
Abstract. We consider the Saint-Venant system for shallow water flows, with nonflat bottom. It is a ...
The shallow-water equations are widely used to model surface water bodies, such as lakes, rivers and...
A well-designed numerical method for the shallow water equations (SWE) should ensure well-balancedne...
Summary. An overview is given of finite volume central schemes for the numerical solution of systems...
Many geophysical flows are merely perturbations of some fundamental equilibrium state. If a numerica...
AMS subject classifications. 65M60, 65M12 Key words. Shallow-water equations, steady states, finite ...
Abstract. We consider the shallow water equations with non-flat bottom topography. The smooth soluti...
The shallow water system plays an important role in the numerical simulation of oceanic models, coas...
Water flows can be modelled mathematically and one available model is the shallow water equations. T...
Over the last decade, the development of high resolution well-balanced schemes was a central topic i...
Well balanced finite volume methods used to solve the shallow water wave equations are designed to p...
The shallow-water equations are widely used to model surface water bodies, such as lakes, rivers and...
In the presented work the shallow water equations are derived in detail and their properties are pre...
Abstract. We consider the Saint-Venant system for shallow water flows, with nonflat bottom. It is a ...
The shallow-water equations are widely used to model surface water bodies, such as lakes, rivers and...
A well-designed numerical method for the shallow water equations (SWE) should ensure well-balancedne...
Summary. An overview is given of finite volume central schemes for the numerical solution of systems...