Observation-Consistent Input and Whitecapping Dissipation in a Model for Wind-Generated Surface Waves: Description and Simple Calculations

Abstract A new wind-input and wind-breaking dissipation for phase-averaged spectral models of wind-generated surface waves is presented. Both are based on recent field observations in Lake George, New South Wales, Australia, at moderate-to-strong wind-wave conditions. The respective parameterization...

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Bibliographic Details
Published in:Journal of atmospheric and oceanic technology 2012-09, Vol.29 (9), p.1329-1346
Main Authors: Rogers, W. Erick, Babanin, Alexander V., Wang, David W.
Format: Article
Language:English
Subjects:
Breaking
Calibration
Dissipation
Energy dissipation
Lakes
Marine
Mathematical models
Measurement
Parametrization
Spectra
Surface waves
Wind
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Summary:Abstract A new wind-input and wind-breaking dissipation for phase-averaged spectral models of wind-generated surface waves is presented. Both are based on recent field observations in Lake George, New South Wales, Australia, at moderate-to-strong wind-wave conditions. The respective parameterizations are built on quantitative measurements and incorporate new observed physical features, which until very recently were missing in source terms employed in operational models. Two novel features of the wind-input source function are those that account for the effects of full airflow separation (and therefore relative reduction of the input at strong wind forcing) and for nonlinear behavior of this term. The breaking term also incorporates two new features evident from observational studies; the dissipation consists of two parts—a strictly local dissipation term and a cumulative term—and there is a threshold for wave breaking, below which no breaking occurs. Four variants of the dissipation term are selected for evaluation, with minimal calibration to each. These four models are evaluated using simple calculations herein. Results are generally favorable. Evaluation for more complex situations will be addressed in a forthcoming paper.
ISSN:0739-0572
1520-0426
DOI:10.1175/JTECH-D-11-00092.1