Flavours of Stratified Shear Flows: Algorithmic Detection
Abstract
It remains unknown how to relate our understanding of turbulent mixing in stratified shear flows (based on direct numerical simulation (DNS)) to oceanic measurements of 1D profiles of density and velocity. In particular, there are various pathways to turbulence in stratified shear flows which behave in categorically different ways, but a method of distinguishing between these pathways in 1D microstructure measurements has yet to be proposed. Recently, a coordinate-free algorithmic classification scheme for the nonlinear states which result from the saturation of each instability has been proposed by Eaves and Balmforth, and hence is ideally suited for examining 1D profiles. This study was mostly restricted to relatively idealised steady, 2D flows; however, some aspects of this scheme were seen to carry over to non-steady, 3D flows after coarse-graining of the flow profiles. In this talk, we will investigate when the classification scheme works for realistic flows. In particular, we shall examine a large number of 1D profiles obtained from DNS of both Kelvin-Helmholtz and Holmboe instabilities to investigate the performance of this scheme over a large range of Reynolds and Richardson numbers, in addition to the type of instability and the `age' of the flow.
- Publication:
-
APS Division of Fluid Dynamics Meeting Abstracts
- Pub Date:
- November 2019
- Bibcode:
- 2019APS..DFDQ39004S