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- Title
A numerical (LES) investigation of a shallow-water, mid-latitude, tidally-driven boundary layer.
- Authors
Salon, Stefano; Armenio, Vincenzo; Crise, Alessandro
- Abstract
We investigate turbulent mixing in a tidally driven, mid-latitude, shallow-water basin. The study is carried out numerically at a laboratory-scale, using large-eddy simulation. We compared the results of the simulation with those of a correspondent purely oscillatory flow (Stokes boundary layer). The effect of rotation on the flow dynamics is twofold. First, rotation gives rise to a mean spanwise flow that concurs to redistribute the turbulent energy among the Reynolds stresses, in particular between the horizontal directions, thus increasing the mixing across the water column and thickening the layer where developed turbulence is observable. Second, the presence of the horizontal component of the background vorticity (latitude effect) breaks the symmetry between the two semi-cycles of the oscillation, since turbulence results suppressed/enhanced during the first/second semi-cycle. These two effects significantly modify the turbulent characteristics with respect to the purely oscillating flow, although the mechanisms that generates turbulence present similar features. The qualitative agreement between our results and some measurements carried out in two sites with characteristics similar to the case analyzed suggests that the outcomes here provided may be of general use for the analysis of mid-latitude, neutrally stratified, shallow-water basins mainly driven by semi-diurnal tidal currents.
- Subjects
GEOLOGICAL basins; STRUCTURAL geology; REYNOLDS stress; DYNAMIC meteorology; VORTEX motion; TURBULENCE
- Publication
Environmental Fluid Mechanics, 2009, Vol 9, Issue 5, p525
- ISSN
1567-7419
- Publication type
Article
- DOI
10.1007/s10652-009-9122-y