Stochastic modelling of unresolved eddy fluxes |
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| Authors: | Meelis J Zidikheri Jorgen S Frederiksen |
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| Institution: | 1. Centre for Australian Weather and Climate Research, Bureau of Meteorology , Melbourne, Victoria, Australia m.zidikheri@bom.gov.au;3. CSIRO Marine and Atmospheric Research , Aspendale, Victoria, Australia |
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| Abstract: | A subgrid-scale parameterization scheme motivated by statistical closure theory, but employing statistics obtained from high-resolution direct numerical simulations, is applied to large eddy simulations of two-level quasigeostrophic turbulence on the sphere. It is shown that these parameterizations are consistent with the phenomenology of quasigeostrophic turbulence. The parameterizations consist of 2 × 2 dissipation and stochastic forcing covariance matrices at each wavenumber, with the off-diagonal elements of the matrices representing vertical mixing. Two flow regimes, characterized by their deformation scales, are considered, namely atmospheric and oceanic. In the former, the deformation scale is fully resolved, and the truncation scale is within the enstrophy cascading interial range. In the latter, the deformation scale is not fully resolved, and the truncation scale is within the energy cascading inertial range. It is demonstrated through numerical experiments that both stochastic and deterministic variants of the scheme give comparable results for the energy spectra in the atmospheric regime. In the oceanic regime, the stochastic variant again gives excellent results, but the deterministic variant is found to be numerically unstable. |
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| Keywords: | Stochastic Subgrid Parameterizations Ocean Mesoscale Eddy Fluxes |
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