A new climate model has been developed that employs a multi-resolution dynamical core for the sea ice-ocean component. In principle, the multi-resolution approach allows one to use enhanced horizontal resolution in dynamically active regions while keeping a coarse-resolution setup otherwise. The coupled model consists of the atmospheric model ECHAM6 and the finite element sea ice-ocean model (FESOM). In this study only moderate refinement of the unstructured ocean grid is applied and the resolution varies from about 25 km in the northern North Atlantic and in the tropics to about 150 km in parts of the open ocean; the results serve as a benchmark upon which future versions that exploit the potential of variable resolution can be built. Deta...
Unstructured-mesh models are common in coastal ocean modeling, but their applications are still at t...
We developed a new version of the Alfred Wegener Institute Climate Model (AWI-CM3), which has higher...
The AWI climate model AWI-CM consists of the Finite Element Sea-ice Ocean Model (FESOM) developed at...
A new climate model has been developed that employs a multi-resolution dynamical core for the sea ic...
Climate models are used in a variety of applications: for the understanding of the interactions betw...
Climate models are used in a variety of applications: for the understanding of the interactions betw...
The recently established AWI Climate Model (AWI-CM), a coupled configuration of the Finite Element ...
Climate models are used in a variety of applications: for the understanding of the interactions bet...
The recently established AWI Climate Model (AWI-CM), a coupled configuration of the Finite Element ...
This study forms part II of two papers describing ECHAM6-FESOM, a newly established global climate m...
We present a global climate model setup where the Finite-Element Sea-Ice Ocean Model (FESOM) has bee...
The Finite Element Sea Ice-Ocean Model (FESOM) is the first global ocean general circulation model...
Ocean model biases such as the North West corner cold bias connected to the location of the Gulf Str...
We analyse the ENSO-like variability in the newly established global climate model ECHAM-FESOM. Thi...
State-of-the-art climate models do still exhibit pronounced deviations from the measured climate. Th...
Unstructured-mesh models are common in coastal ocean modeling, but their applications are still at t...
We developed a new version of the Alfred Wegener Institute Climate Model (AWI-CM3), which has higher...
The AWI climate model AWI-CM consists of the Finite Element Sea-ice Ocean Model (FESOM) developed at...
A new climate model has been developed that employs a multi-resolution dynamical core for the sea ic...
Climate models are used in a variety of applications: for the understanding of the interactions betw...
Climate models are used in a variety of applications: for the understanding of the interactions betw...
The recently established AWI Climate Model (AWI-CM), a coupled configuration of the Finite Element ...
Climate models are used in a variety of applications: for the understanding of the interactions bet...
The recently established AWI Climate Model (AWI-CM), a coupled configuration of the Finite Element ...
This study forms part II of two papers describing ECHAM6-FESOM, a newly established global climate m...
We present a global climate model setup where the Finite-Element Sea-Ice Ocean Model (FESOM) has bee...
The Finite Element Sea Ice-Ocean Model (FESOM) is the first global ocean general circulation model...
Ocean model biases such as the North West corner cold bias connected to the location of the Gulf Str...
We analyse the ENSO-like variability in the newly established global climate model ECHAM-FESOM. Thi...
State-of-the-art climate models do still exhibit pronounced deviations from the measured climate. Th...
Unstructured-mesh models are common in coastal ocean modeling, but their applications are still at t...
We developed a new version of the Alfred Wegener Institute Climate Model (AWI-CM3), which has higher...
The AWI climate model AWI-CM consists of the Finite Element Sea-ice Ocean Model (FESOM) developed at...