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- Title
The Adaptive Spectral Element Method and Comparisons with More Traditional Formulations for Ocean Modeling.
- Authors
Dupont, Frédéric; Lin, Charles A.
- Abstract
Triangular spectral elements offer high accuracy in complex geometries, but solving the related matrix problem can be cumbersome and time consuming. In restricted applications, recent developments have led to a family of discontinuous Galerkin formulations in which each element of the mesh leads to a local matrix problem. The main restriction is that all the fluid equations must be prognostic and solved explicitly in time. Such is the case for a hydrostatic ocean with a free surface and a Boussinesq approximation. Furthermore, there is a strong need for variable resolution in ocean modeling since the width of synoptic eddies and strong western currents such as the Gulf Stream are nearly two orders of magnitude smaller than the typical width of an ocean. Triangular elements also offer high flexibility for the adaptive problem. Some applications for shallow water test case problems are shown with comparisons to a traditional finite-difference model and to a finite-element coastal ocean model. These comparisons are made in rectangular domains where the finite-difference method has an inherent advantage. For a nonlinear wind-driven application, the spectral element model proved to be more expensive to run at reasonable accuracy than a second-order-accurate finite-difference model. Nonetheless the spectral element model appears to be a large improvement compared to finite-element models of low order, an encouraging result. A simple adaptive strategy is also investigated, with favorable results.
- Subjects
OCEAN; EDDIES; PROBLEM solving; EQUATIONS; FINITE element method; MATRICES (Mathematics)
- Publication
Journal of Atmospheric & Oceanic Technology, 2004, Vol 21, Issue 1, p135
- ISSN
0739-0572
- Publication type
Article
- DOI
10.1175/1520-0426(2004)021<0135:TASEMA>2.0.CO;2