Water waves excited by near-impulsive wind forcing

Zavadsky, Andrey; Shemer, Lev

doi:10.1017/jfm.2017.521

Cited by 34 publications

(72 citation statements)

References 59 publications

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“…The particles' positions were collected from each frame, and consequently, two velocity components-along the tank, U s and across the tank, V s -were tracked across all frames of appearance. Numerous measurements were performed to obtain statistically reliable mean values for different operational conditions [51,67].…”

Section: Experimental Facility and Techniquesmentioning

confidence: 99%

“…All experiments were controlled by a LabView program that enables running the experiment, including setting the wind speed in the tunnel, the vertical positioning of the air sensors, the calibration of the sensors before and after data acquisition sessions, and the data acquisition, in a fully automatic mode without human intervention. More information about the experimental facility, calibration of the sensors, and of the detailed experimental and data-processing procedures is provided in [51,63,66,67].…”

Section: Experimental Facility and Techniquesmentioning

confidence: 99%

“…However, only limited experimental data on waves under time-dependent wind under controlled conditions are currently available; these works were briefly reviewed in the Introduction. This present section is based on the experiments carried out by Zavadsky and Shemer [67]; it presents time-resolved statistically reliable results on waves excited from rest by a (nearly) impulsive wind forcing. These findings were further discussed in [97].…”

Section: Spatial and Temporal Variation Of Waves Under Effectively Immentioning

confidence: 99%

“…The scale corresponding to the maximum intensity of the ensemble-averaged map defines the dominant pseudo-frequency f dom at each instant. More details on the determination of f dom (t) are given in [67].…”

Section: Quantitative Characterization Of Wind-wave Evolution With Timementioning

confidence: 99%

“…The slope oscillations in the crosswind direction lag by less than 1 s, while the surface elevation oscillations develop much slower. The delay in the emergence of crosswind undulations can plausibly be associated with the Langmuir circulation excited in water by accelerated wind [45,98,99], although the attempts to detect this circulation in [67] were indecisive. Quasi-steady levels of slope fluctuations in both directions are of comparable values and were attained at similar times, which were notably earlier than that of η.…”

Section: Quantitative Characterization Of Wind-wave Evolution With Timementioning

confidence: 99%

See 4 more Smart Citations

On Evolution of Young Wind Waves in Time and Space

Shemer

2019

Atmosphere

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The mechanisms governing the evolution of the wind-wave field in time and in space are not yet fully understood. Various theoretical approaches have been offered to model wind-wave generation. To examine their validity, detailed and accurate experiments under controlled conditions have to be carried out. Since it is next to impossible to get the required control of the governing parameters and to accumulate detailed data in field experiments, laboratory studies are needed. Extensive previously unavailable results on the spatial and temporal variation of wind waves accumulated in our laboratory under a variety of wind-forcing conditions and using diverse measuring techniques are reviewed. The spatial characteristics of the wind-wave field were determined using stereo video imaging. The turbulent airflow above wind waves was investigated using an X-hot film. The wave field under steady wind forcing as well as evolving from rest under impulsive loading was studied. An extensive discussion of the various aspects of wind waves is presented from a single consistent viewpoint. The advantages of the stochastic approach suggested by Phillips over the deterministic theory of wind-wave generation introduced by Miles are demonstrated. Essential differences between the spatial and the temporal analyses of wind waves’ evolution are discussed, leading to examination of the applicability of possible approaches to wind-wave modeling.

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Section: Experimental Facility and Techniquesmentioning

confidence: 99%

Section: Experimental Facility and Techniquesmentioning

confidence: 99%

Section: Spatial and Temporal Variation Of Waves Under Effectively Immentioning

confidence: 99%

Section: Quantitative Characterization Of Wind-wave Evolution With Timementioning

confidence: 99%

Section: Quantitative Characterization Of Wind-wave Evolution With Timementioning

confidence: 99%

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On Evolution of Young Wind Waves in Time and Space

Shemer

2019

Atmosphere

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Effect of the wind acceleration magnitude during the first stages of the wind-wave generation process

et al. 2021

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A comprehensive analysis of the wavefield evolution under accelerated wind conditions provides an essential contribution to understanding the wind-wave generation process. A set of experiments was carried out in a large wind-wave facility where it is possible to reproduce high wind speed conditions to study the wind acceleration effect in the wind-wave development.The facility was equipped with high-frequency sampling devices that provide accurate air turbulence and water surface displacement measurements. From this deployment, it was possible to describe the evolution of the wave characteristics under different magnitudes of constant wind acceleration in detail. This study analyzes the wind acceleration effect in the early stages of windwave generation and evolution. The increase of spectrum energy saturation level and the downshift of the peak frequency are processes associated with the spectral shape evolution under low acceleration wind conditions. Under high wind acceleration conditions, the spectral shape did not vary with wind speed and fetch. Despite under low acceleration wind conditions, the wavefield is more developed than under high acceleration wind conditions; there was no direct relation between wind acceleration and the wavefield efficiency to grow. Besides, during these early instants, it was observed that a more developed wave field, associated with low acceleration wind conditions, could slow down the increase of drag coefficient with wind speed.

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A Semi-phenomenological Model for Wind-Induced Drift Currents

Polnikov

2019

Boundary-Layer Meteorol

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Some data of the drift current, U d , measured on a wavy surface of water in a laboratory and the field, are briefly described. Empirical formulas for U d are given, and their incompleteness is noted, regarding to absence of the drift current dependence on surface-wave parameters. With the purpose of theoretical justification of empirical formulas, a semi-phenomenological model of the phenomenon is constructed. It is basing on the known theoretical and empirical data about the three-layer structure of the air-water interface: 1) the air boundary layer, 2) the wave-zone, and 3) the water upper layer. It is shown that a presence of linear drift-current profile in the wave-zone, U(z), makes it possible to obtain a general formula for the drift current on the wavy water surface, U d . This model is based on the balance equation for the momentum-flux and current-gradient, taking place in the wave-zone. The proposed approach allows us to give an interpretation of the empirical results, and indicate the direction of their further detailed specification.

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Water waves excited by near-impulsive wind forcing

Cited by 34 publications

References 59 publications

On Evolution of Young Wind Waves in Time and Space

On Evolution of Young Wind Waves in Time and Space

Effect of the wind acceleration magnitude during the first stages of the wind-wave generation process

A Semi-phenomenological Model for Wind-Induced Drift Currents

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