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- Title
2D turbulence closures for the barotropic jet instability simulation.
- Authors
Perezhogin, Pavel A.
- Abstract
In the present work the possibility of turbulence closure applying to improve barotropic jet instability simulation at coarse grid resolutions is considered. This problem is analogous to situations occurring in eddy-permitting ocean models when Rossby radius of deformation is partly resolved on a computational grid. We show that the instability is slowed down at coarse resolutions. As follows from the spectral analysis of linearized equations, the slowdown is caused by the small-scale normal modes damping arising due to numerical approximation errors and nonzero eddy viscosity. In order to accelerate instability growth, stochastic and deterministic kinetic energy backscatter (KEBs) parameterizations and scale-similarity model were applied. Their utilization led to increase of the growth rates of normal modes and thus improve characteristic time and spatial structure of the instability.
- Subjects
TURBULENCE; KINETIC energy; APPROXIMATION error; EDDY viscosity; BAROCLINICITY; EDDIES; PARAMETERIZATION
- Publication
Russian Journal of Numerical Analysis & Mathematical Modelling, 2020, Vol 35, Issue 1, p21
- ISSN
0927-6467
- Publication type
Article
- DOI
10.1515/rnam-2020-0003