International audienceAbstract We present a simple parameterization for coarse-resolution ocean models. To replace computationally expensive high-resolution ocean models, we develop a computationally cheap parameterization for coarse-resolution models based solely on the modification of the viscosity term in advection equations. It is meant to reproduce the mean quantities like pressure, velocity, or vorticity computed from a high-resolution reference solution or using observations. We test this new parameterization on a double-gyre quasi-geostrophic model in the eddy-permitting regime. Our results show that the proposed scheme improves significantly the energy statistics and the intrinsic variability on the coarse mesh. This method shall s...
International audienceMesoscale eddies, although being on the scales of O (20–100km), have a disprop...
Due to the massive disparity between the largest and smallest eddies in the atmosphere and ocean, it...
AbstractThis paper puts forth a simplified dynamic modeling strategy for the eddy viscosity coeffici...
International audienceAbstract We present a simple parameterization for coarse-resolution ocean mode...
The role of mesoscale eddies is crucial for the ocean circulation and its energy budget. The sub-gri...
Accurate representation of large-scale flow patterns in low-resolution ocean simulations is one of t...
Porta Mana and Zanna (2014) recently proposed a subgrid-scale parameterization for eddy-permitting q...
The large-scale ocean circulation is strongly influenced by mesoscale turbulent eddies. Mesoscale oc...
We explore the efficacy of “super parameterization ” (SP) in ocean modeling in which local 2-d non-h...
Coarse graining of (geophysical) flow problems is a necessity brought upon us by the wide range of s...
International audienceOcean mesoscale eddies contain a large proportion of energy and have an import...
This study makes progress towards a data-driven parameterization for mesoscale oceanic eddies. To de...
This paper puts forth a coarse grid projection (CGP) multiscale method to accelerate computations of...
International audienceMesoscale eddies, although being on the scales of O (20–100km), have a disprop...
Due to the massive disparity between the largest and smallest eddies in the atmosphere and ocean, it...
AbstractThis paper puts forth a simplified dynamic modeling strategy for the eddy viscosity coeffici...
International audienceAbstract We present a simple parameterization for coarse-resolution ocean mode...
The role of mesoscale eddies is crucial for the ocean circulation and its energy budget. The sub-gri...
Accurate representation of large-scale flow patterns in low-resolution ocean simulations is one of t...
Porta Mana and Zanna (2014) recently proposed a subgrid-scale parameterization for eddy-permitting q...
The large-scale ocean circulation is strongly influenced by mesoscale turbulent eddies. Mesoscale oc...
We explore the efficacy of “super parameterization ” (SP) in ocean modeling in which local 2-d non-h...
Coarse graining of (geophysical) flow problems is a necessity brought upon us by the wide range of s...
International audienceOcean mesoscale eddies contain a large proportion of energy and have an import...
This study makes progress towards a data-driven parameterization for mesoscale oceanic eddies. To de...
This paper puts forth a coarse grid projection (CGP) multiscale method to accelerate computations of...
International audienceMesoscale eddies, although being on the scales of O (20–100km), have a disprop...
Due to the massive disparity between the largest and smallest eddies in the atmosphere and ocean, it...
AbstractThis paper puts forth a simplified dynamic modeling strategy for the eddy viscosity coeffici...