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arxiv: 2601.20396 · v1 · pith:PTPQTMYGnew · submitted 2026-01-28 · ⚛️ physics.flu-dyn

Effect of wind turbulence on wave generation over a viscous liquid

classification ⚛️ physics.flu-dyn
keywords turbulencevelocitywindliquidfree-streamfrictionregulartransition
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When wind blows over the surface of a viscous liquid, a clear transition from irregular small-amplitude streamwise-oriented wrinkles to well-defined nearly two-dimensional regular waves is observed at a critical wind velocity. We examine how free-stream turbulence in the air influences the growth of wrinkles and regular waves, as well as the transition between these two regimes. Experiments are carried out in a wind tunnel, in which air is blown over a tank filled with silicone oil whose viscosity is fifty times higher than that of water. The free-stream turbulence is enhanced using upstream grids, achieving relative turbulence intensities up to 8%. Surface deformations are measured using Free-Surface Synthetic Schlieren with micrometer accuracy. Velocity measurements are performed using hot-wire anemometry above the interface and particle image velocimetry in the liquid. Results reveal two primary effects of grid-enhanced free-stream turbulence: an increase in the wrinkle amplitude, and a reduction in the critical wind speed at the onset of regular waves. Nevertheless, the wrinkle-wave transition still corresponds to an approximately constant friction velocity. Similar to a classical boundary layer over a flat plate, the friction velocity is found to decrease with fetch. From a wave energy balance, we develop a qualitative model explaining why, with the highly viscous liquid considered here, this decrease in the friction velocity results in a non-monotonic variation of the wave amplitude with the fetch.

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Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Nonlinear synthetic Schlieren methods for free-surface topography measurement using telecentric imaging

    physics.flu-dyn 2026-05 unverdicted novelty 6.0

    Nonlinear synthetic Schlieren methods using telecentric imaging enable precise free-surface elevation measurements beyond the small-slope and small-amplitude limits of the linear version.