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A discontinuous finite element baroclinic marine model on unstructured prismatic meshes |
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| Authors: | Richard Comblen Sébastien Blaise Vincent Legat Jean-François Remacle Eric Deleersnijder Jonathan Lambrechts |
| Institution: | 1. Institute of Mechanics, Materials and Civil Engineering (IMMC), Université catholique de Louvain, 4 Avenue G. Lema?tre, 1348, Louvain-la-Neuve, Belgium 2. Georges Lema?tre Centre for Earth and Climate Research (TECLIM), Université catholique de Louvain, 4 Avenue G. Lema?tre, 1348, Louvain-la-Neuve, Belgium 3. Centre for Systems Engineering and Applied Mechanics (CESAME), Université catholique de Louvain, 4 Avenue G. Lema?tre, 1348, Louvain-la-Neuve, Belgium 4. Earth and Life Institute (ELI), Euler, Université catholique de Louvain, 4 Avenue G. Lema?tre, 1348, Louvain-la-Neuve, Belgium |
| Abstract: | We describe the time discretization of a three-dimensional baroclinic finite element model for the hydrostatic Boussinesq equations based upon a discontinuous Galerkin finite element method. On one hand, the time marching algorithm is based on an efficient mode splitting. To ensure compatibility between the barotropic and baroclinic modes in the splitting algorithm, we introduce Lagrange multipliers in the discrete formulation. On the other hand, the use of implicit–explicit Runge–Kutta methods enables us to treat stiff linear operators implicitly, while the rest of the nonlinear dynamics is treated explicitly. By way of illustration, the time evolution of the flow over a tall isolated seamount on the sphere is simulated. The seamount height is 90% of the mean sea depth. Vortex shedding and Taylor caps are observed. The simulation compares well with results published by other authors. |
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