Kinematics of Turbulence Convected by a Random Wave Field

Abstract

Abstract Turbulent velocity spectra measured beneath wind waves show a large enhancement about the central wave frequency. A “5/3 frequency dependence can be seen both above and below the central peak, but with an apparent increase in spectral density at high Frequencies. We show that these features can be understood via a generation of Taylor's hypothesis to the case in which frozen, isotropic, homogeneous turbulence is bodily convected past a fixed probe by a combination of drift and wave orbital motions. In a monochromatic wave field turbulent energy is aliased into harmonics of the wave frequency fp. We show qualitatively how drift currents or a random wave field broaden these lines into a continuous spectrum, and present the results of direct calculations which demonstrate clearly the transition from “line-like” to a smooth “5/3 spectrum. We calculate the leading asymptotic behavior in the limit of large and small frequencies for an arbitrary wave-height spectrum. For wave orbital velocities larger...