Unstructured meshes are common in coastal modeling, but still rarely used for modeling the large-scale ocean circulation. Existing and new projects aim at changing this situation by proposing models enabling a regional focus (multiresolution) in global setups, without nesting and open boundaries. Among them, finite-volume models using the C-grid discretization on Voronoi-centroidal meshes or cell-vertex quasi-B-grid discretization on triangular meshes work well and offer the multiresolution functionality at a price of being 2 to 4 times slower per degree of freedom than structured-mesh models. This is already sufficient for many practical tasks and will be further improved as the number of vertical layers is increased. Approaches bas...
Unstructured mesh methods offer flexibility in representing variable coastlines and bathymetries in ...
Numerical modeling is now, along with experiment and theory, part of the scientific method. Numerica...
Unstructured grid ocean models are advantageous for simulating the coastal ocean and river–estuary–...
Unstructured-mesh models are common in coastal ocean modeling, but their applications are still at t...
We describe FESOM-C, the coastal branch of the Finite-volumE Sea ice -- Ocean Model (FESOM2), which ...
We discuss the performance of the Finite Element Ocean Model (FESOM) on locally eddy-resolving globa...
In this article the advantages and current status of unstructured mesh ocean modelling are reviewed....
If unstructured meshes are refined to locally represent eddy dynamics in ocean circulation models, a...
The Model for Prediction Across Scales (MPAS) for Ocean (-O), Sea-Ice (-SI) and Land-Ice (-LI), in a...
Unstructured meshes offer geometric flexibility. In the context of large-scale ocean modeling they ...
Numerical modelling of coastal zone dynamics provides basis for solving a wide range of hydrogeolog...
We describe the space discretization of a three-dimensional baroclinic finite element model, based u...
A newly developed coastal model, FESOM-C, based on three-dimensional unstructured meshes and finite ...
We analyze obvious and less obvious advantages/difficulties,including relative numeric efficiency, o...
Unstructured mesh methods offer flexibility in representing variable coastlines and bathymetries in ...
Unstructured mesh methods offer flexibility in representing variable coastlines and bathymetries in ...
Numerical modeling is now, along with experiment and theory, part of the scientific method. Numerica...
Unstructured grid ocean models are advantageous for simulating the coastal ocean and river–estuary–...
Unstructured-mesh models are common in coastal ocean modeling, but their applications are still at t...
We describe FESOM-C, the coastal branch of the Finite-volumE Sea ice -- Ocean Model (FESOM2), which ...
We discuss the performance of the Finite Element Ocean Model (FESOM) on locally eddy-resolving globa...
In this article the advantages and current status of unstructured mesh ocean modelling are reviewed....
If unstructured meshes are refined to locally represent eddy dynamics in ocean circulation models, a...
The Model for Prediction Across Scales (MPAS) for Ocean (-O), Sea-Ice (-SI) and Land-Ice (-LI), in a...
Unstructured meshes offer geometric flexibility. In the context of large-scale ocean modeling they ...
Numerical modelling of coastal zone dynamics provides basis for solving a wide range of hydrogeolog...
We describe the space discretization of a three-dimensional baroclinic finite element model, based u...
A newly developed coastal model, FESOM-C, based on three-dimensional unstructured meshes and finite ...
We analyze obvious and less obvious advantages/difficulties,including relative numeric efficiency, o...
Unstructured mesh methods offer flexibility in representing variable coastlines and bathymetries in ...
Unstructured mesh methods offer flexibility in representing variable coastlines and bathymetries in ...
Numerical modeling is now, along with experiment and theory, part of the scientific method. Numerica...
Unstructured grid ocean models are advantageous for simulating the coastal ocean and river–estuary–...