Spatial growth rates of young wind waves under steady wind forcing

Kumar, Krishanu; Shemer, Lev

doi:10.1017/jfm.2024.228

J. Fluid Mech.

2024

DOI: 10.1017/jfm.2024.228

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Spatial growth rates of young wind waves under steady wind forcing

Krishanu Kumar,

Lev Shemer

Abstract: The growth with fetch of young wind waves under steady wind forcing that is commonly attributed to shear flow instability results in a spatially inhomogeneous wave field with a spectrum evolving along the tank. The present laboratory study accounts for multiple co-existing statistically stationary random frequency harmonics. Single-point synchronous measurements of the instantaneous surface elevation and of its along-wind slope component are performed by optical methods at numerous locations. Assuming exponent… Show more

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Laboratory study of the effect of mean water current on the evolution of young wind waves

Kumar,

Shemer

2024

J. Fluid Mech.

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The spatial evolution of various statistical parameters of fetch-limited waves generated by steadily blowing wind over mean water flow in a wind-wave flume is investigated experimentally. Measurements are performed in both along- and against-wind current conditions, and compared with measurements in the absence of current. A rake of capacitance-type wave gauges is used to measure surface elevation for a wide range of wind and water current velocities; additionally, an optical wave gauge is used to measure the directional properties of the wind-wave field in the presence of a mean water current at multiple locations. The variation with fetch of essential wave parameters such as characteristic wave energy, dominant frequency, power spectra and temporal coherence, as well as higher-order statistical moments that characterize wave shape, is presented for co- and counter-wind water currents, and compared with the no-current condition. The findings in the presence of mean water flow are interpreted in the framework of the viscous shear flow instability model of Geva & Shemer (Phys. Rev. Lett., vol. 128, 2022, 124501).

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Laboratory study of the effect of mean water current on the evolution of young wind waves

Kumar,

Shemer

2024

J. Fluid Mech.

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show abstract

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Spatial growth rates of young wind waves under steady wind forcing

Cited by 1 publication

References 50 publications

Laboratory study of the effect of mean water current on the evolution of young wind waves

Laboratory study of the effect of mean water current on the evolution of young wind waves

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