Title:

Generalized Quasilinear Simulations of 2D Strongly Stratified Kolmogorov Flow

Generalized quasilinear (GQL) theory provides self-consistent approximations for the small-scale dynamics of various flows. The approximation is performed by specifying a cut-off wavenumber Λ that separates state variables into large and small scales in spectral space and then removing select nonlinear interactions. The resulting equations respect the conservation laws of the original PDEs and enable a systematic homotopy between quasilinearity (Λ=0), i.e. the mean field limit, and full nonlinearity (Λ→ ∞), i.e. DNS. When Λ>0, nonlinear interactions among the large scales and small scale energy transfers via interaction with the large scales are captured. These physical processes are particularly important for shear flows with highly anisotropic structures. Here, we investigate the accuracy of the GQL approximation by performing DNS and GQL simulations of 2D, strongly stratified Kolmogorov flow, and comparing dynamics and statistics across a range of cut-off wavenumbers.

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