Numerical modelling of coastal flows is a challenging topic due to complex topography of the coastal zone, rapid flow dynamics and large density variations. Such phenomena are best simulated with unstructured grid models due to their highly flexible spatial discretisation. This article presents a three-dimensional discontinuous Galerkin finite element marine model. Discontinuous Galerkin spatial discretisation is combined with an explicit mode splitting time integration scheme. Slope limiters are introduced to guarantee high quality of the tracer fields in the presence of strong gradients. Free surface movement is accounted for by means of an Arbitrary Lagrangian Eulerian (ALE) moving mesh method. Water volume and tracers are conserved. The...
A coupled discontinuous (DG)- continuous Galerkin (CG) shallow water model is compared to a continuo...
Unstructured grid models allow highly flexible spatial discretization and therefore accurate represe...
Though the discontinuous Galerkin method is attracting more and more applications in many fields due...
Numerical marine models have become indispensable in ocean sciences. Despite many developments over ...
Estuaries are water bodies where riverine – fresh – and marine – salty – waters meet, leading to com...
The first ocean general circulation models developed in the late sixties were based on finite differ...
We describe the space discretization of a three-dimensional baroclinic finite element model, based u...
Unstructured grid ocean models are advantageous for simulating the coastal ocean and river–estuary–p...
We describe the space discretization of a three-dimensional baroclinic finite element model, based u...
Numerical modeling is now, along with experiment and theory, part of the scientific method. Numerica...
We describe the time discretization of a three-dimensional baroclinic finite element model for the h...
Unstructured grid ocean models are advantageous for simulating the coastal ocean and river–estuary–...
The unstructured mesh, discontinuous Galerkin finite element discretisation based coastal ocean mode...
This thesis describes a finite element method for simulation of free-surface flows, such as ocean wa...
Numerical models are essential tools in modern oceanography and limnology. They are used in various ...
A coupled discontinuous (DG)- continuous Galerkin (CG) shallow water model is compared to a continuo...
Unstructured grid models allow highly flexible spatial discretization and therefore accurate represe...
Though the discontinuous Galerkin method is attracting more and more applications in many fields due...
Numerical marine models have become indispensable in ocean sciences. Despite many developments over ...
Estuaries are water bodies where riverine – fresh – and marine – salty – waters meet, leading to com...
The first ocean general circulation models developed in the late sixties were based on finite differ...
We describe the space discretization of a three-dimensional baroclinic finite element model, based u...
Unstructured grid ocean models are advantageous for simulating the coastal ocean and river–estuary–p...
We describe the space discretization of a three-dimensional baroclinic finite element model, based u...
Numerical modeling is now, along with experiment and theory, part of the scientific method. Numerica...
We describe the time discretization of a three-dimensional baroclinic finite element model for the h...
Unstructured grid ocean models are advantageous for simulating the coastal ocean and river–estuary–...
The unstructured mesh, discontinuous Galerkin finite element discretisation based coastal ocean mode...
This thesis describes a finite element method for simulation of free-surface flows, such as ocean wa...
Numerical models are essential tools in modern oceanography and limnology. They are used in various ...
A coupled discontinuous (DG)- continuous Galerkin (CG) shallow water model is compared to a continuo...
Unstructured grid models allow highly flexible spatial discretization and therefore accurate represe...
Though the discontinuous Galerkin method is attracting more and more applications in many fields due...