Mixing and sharpening at the interface of a two-layer fluid forced by random jets
Abstract
Understanding mixing at density interfaces is essential for predicting transport in stratified environmental flows.
Laboratory studies have mostly relied on steady, spatially uniform forcing, whereas turbulence in nature is intermittent and heterogeneous.
Here, we present experiments on a two-layer salt-stratified fluid forced by random turbulent bursts generated with a randomly actuated synthetic jet array (RASJA).
Density fields are recorded with the light attenuation technique, allowing us to resolve the interface evolution.
We measure that the upward velocity of the interface decreases with the density jump, in agreement with the power-law found in previous oscillating-grid studies.
At large density differences, the interface sharpens during mixing, contrary to the smaller density jump case.
Background potential energy analysis demonstrates irreversible mixing in both cases, with comparable energy changes.
These results extend classical laboratory observations to a more isotropic forcing, offering new insights into the dynamics of mixing in geophysical settings.
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