On the variability of sea drag in finite water depth
Identifieur interne : 005627 ( Main/Exploration ); précédent : 005626; suivant : 005628On the variability of sea drag in finite water depth
Auteurs : A. Toffoli [Australie] ; L. Loffredo [Belgique] ; P. Le Roy [Australie, France] ; J. Lefèvre [France] ; A. V. Babanin [Australie]Source :
- Journal of Geophysical Research: Oceans [ 0148-0227 ] ; 2012-11.
Descripteurs français
- Pascal (Inist)
- Wicri :
English descriptors
- KwdEn :
- Additional parameters, Anemometer, Anemometer mast, Atmospheric boundary layer, Atmospheric parameters, Atmospheric wave, Australia, Average values, Babanin, Boundary layer meteorol, Cambridge univ, Charnock, Charnock coefficient, Charnock coefficient dependence, Charnock coefficients, Coefficient, Complete description, Constant flux layer, Correlation coefficient, Data variability, Development core team, Dominant waves, Donelan, Drag, Drag coefficient, Drag coefficients, Drag dependence, Entire data, Exchange coefficients, Finite water depth, Flow separation, Friction velocity, General nonlinear parameter, Gusty winds, High winds, Humidity, Increase friction velocity, Industrial sciences, Inverse, Inverse wave, Lake george, Lake george measurement site, Large scatter, Linear regression, Linear regression model, Makin, Meteorol, Model performance, Molecular mass, Momentum flux, More variability, Multiple regression models, Negative trend, Nonlinear, Nonlinear parameter, Ocean waves, Oceanic technol, Pacific grove, Parameter, Parametric model, Parametrization, Pearson correlation coefficient, Positive trend, Present data, Present study, Regression, Regression lines, Regression model, Regression models, Relative humidity, Relative water depth, Scatter, Scatterplot, Sea surface, Shallow water regimes, Significant improvement, Simplified regressions, Sonic anemometer, Spectral peak, Spray droplets, Steepness, Surface drag, Surface roughness, Surface waves, Surface wind stress, Swinburne university, Tair tsea, Temperature difference, Toffoli, Ursell number, Variability, Water depth, Water surface, Water surface elevation, Water vapor, Wave data, Wave measurements, Wave number, Wave parameters, Wave steepness, Wind gustiness, Wind profiles, Wind speed, Wind stress, Wind velocity, Wind wave, Wise group, air-sea interface, coupling, density, lakes, models, parametrization, roughness, statistical analysis, water vapor.
- Teeft :
- Additional parameters, Anemometer, Anemometer mast, Atmospheric boundary layer, Atmospheric parameters, Average values, Babanin, Boundary layer meteorol, Cambridge univ, Charnock, Charnock coefficient, Charnock coefficient dependence, Charnock coefficients, Coefficient, Complete description, Constant flux layer, Correlation coefficient, Data variability, Development core team, Dominant waves, Donelan, Drag, Drag coefficient, Drag coefficients, Drag dependence, Entire data, Exchange coefficients, Finite water depth, Flow separation, Friction velocity, General nonlinear parameter, Gusty winds, High winds, Humidity, Increase friction velocity, Industrial sciences, Inverse, Inverse wave, Lake george, Lake george measurement site, Large scatter, Linear regression, Linear regression model, Makin, Meteorol, Model performance, Molecular mass, Momentum flux, More variability, Multiple regression models, Negative trend, Nonlinear, Nonlinear parameter, Ocean waves, Oceanic technol, Pacific grove, Parameter, Parametric model, Parametrization, Pearson correlation coefficient, Positive trend, Present data, Present study, Regression, Regression lines, Regression model, Regression models, Relative humidity, Relative water depth, Scatter, Scatterplot, Shallow water regimes, Significant improvement, Simplified regressions, Sonic anemometer, Spectral peak, Spray droplets, Steepness, Surface drag, Surface roughness, Surface waves, Surface wind stress, Swinburne university, Tair tsea, Temperature difference, Toffoli, Ursell number, Variability, Water depth, Water surface, Water surface elevation, Water vapor, Wave data, Wave measurements, Wave number, Wave parameters, Wave steepness, Wind gustiness, Wind profiles, Wind speed, Wind stress, Wise group.
Abstract
The coupling between the atmospheric boundary layer and the ocean surface in large‐scale models is usually parameterized in terms of the sea drag coefficient, which is routinely estimated as a function of mean wind speed. The scatter of data around such parametric dependencies, however, is very significant and imposes a serious limitation on the forecasts and predictions that make use of sea surface drag parameterizations. The analysis of an atmospheric and wave data set collected in finite water depth at the Lake George measurement site (Australia) suggests that this variability relates to a number of parameters at the air‐sea interface other than wind speed alone. In particular, results indicate that the sea drag depends on water depth and wave steepness, which make the wave profile more vertically asymmetric, and the concentration of water vapor in the air, which modifies air density and friction velocity. These dependencies are used to derive parametric functions based on the combined contribution of wind, waves and relative humidity. A standard statistical analysis confirms a substantial improvement in the prediction of the drag coefficient and sea surface roughness when additional parameters are taken into account.
Url:
DOI: 10.1029/2011JC007857
Affiliations:
- Australie, Belgique, France
- Midi-Pyrénées, Occitanie (région administrative), Province du Brabant flamand, Région flamande
- Louvain, Toulouse
- Katholieke Universiteit Leuven
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Babanin</name><affiliation wicri:level="1"><country xml:lang="fr">Australie</country><wicri:regionArea>Faculty of Engineering and Industrial Sciences, Swinburne University of Technology, Hawthorn, Victoria</wicri:regionArea><wicri:noRegion>Victoria</wicri:noRegion></affiliation></author></analytic><monogr></monogr><series><title level="j" type="main">Journal of Geophysical Research: Oceans</title><title level="j" type="alt">JOURNAL OF GEOPHYSICAL RESEARCH: OCEANS</title><idno type="ISSN">0148-0227</idno><idno type="eISSN">2156-2202</idno><imprint><biblScope unit="vol">117</biblScope><biblScope unit="issue">C11</biblScope><biblScope unit="page-count">10</biblScope><date type="published" when="2012-11">2012-11</date></imprint><idno type="ISSN">0148-0227</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">0148-0227</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Additional parameters</term><term>Anemometer</term><term>Anemometer mast</term><term>Atmospheric boundary layer</term><term>Atmospheric parameters</term><term>Atmospheric wave</term><term>Australia</term><term>Average values</term><term>Babanin</term><term>Boundary layer meteorol</term><term>Cambridge univ</term><term>Charnock</term><term>Charnock coefficient</term><term>Charnock coefficient dependence</term><term>Charnock coefficients</term><term>Coefficient</term><term>Complete description</term><term>Constant flux layer</term><term>Correlation coefficient</term><term>Data variability</term><term>Development core team</term><term>Dominant waves</term><term>Donelan</term><term>Drag</term><term>Drag coefficient</term><term>Drag coefficients</term><term>Drag dependence</term><term>Entire data</term><term>Exchange coefficients</term><term>Finite water depth</term><term>Flow separation</term><term>Friction velocity</term><term>General nonlinear parameter</term><term>Gusty winds</term><term>High winds</term><term>Humidity</term><term>Increase friction velocity</term><term>Industrial sciences</term><term>Inverse</term><term>Inverse wave</term><term>Lake george</term><term>Lake george measurement site</term><term>Large scatter</term><term>Linear regression</term><term>Linear regression model</term><term>Makin</term><term>Meteorol</term><term>Model performance</term><term>Molecular mass</term><term>Momentum flux</term><term>More variability</term><term>Multiple regression models</term><term>Negative trend</term><term>Nonlinear</term><term>Nonlinear parameter</term><term>Ocean waves</term><term>Oceanic technol</term><term>Pacific grove</term><term>Parameter</term><term>Parametric model</term><term>Parametrization</term><term>Pearson correlation coefficient</term><term>Positive trend</term><term>Present data</term><term>Present study</term><term>Regression</term><term>Regression lines</term><term>Regression model</term><term>Regression models</term><term>Relative humidity</term><term>Relative water depth</term><term>Scatter</term><term>Scatterplot</term><term>Sea surface</term><term>Shallow water regimes</term><term>Significant improvement</term><term>Simplified regressions</term><term>Sonic anemometer</term><term>Spectral peak</term><term>Spray droplets</term><term>Steepness</term><term>Surface drag</term><term>Surface roughness</term><term>Surface waves</term><term>Surface wind stress</term><term>Swinburne university</term><term>Tair tsea</term><term>Temperature difference</term><term>Toffoli</term><term>Ursell number</term><term>Variability</term><term>Water depth</term><term>Water surface</term><term>Water surface elevation</term><term>Water vapor</term><term>Wave data</term><term>Wave measurements</term><term>Wave number</term><term>Wave parameters</term><term>Wave steepness</term><term>Wind gustiness</term><term>Wind profiles</term><term>Wind speed</term><term>Wind stress</term><term>Wind velocity</term><term>Wind wave</term><term>Wise group</term><term>air-sea interface</term><term>coupling</term><term>density</term><term>lakes</term><term>models</term><term>parametrization</term><term>roughness</term><term>statistical analysis</term><term>water vapor</term></keywords><keywords scheme="Pascal" xml:lang="fr"><term>Analyse statistique</term><term>Australie</term><term>Coefficient traînée</term><term>Couche limite atmosphérique</term><term>Couplage</term><term>Densité</term><term>Humidité relative</term><term>Interface air mer</term><term>Lac</term><term>Modèle</term><term>Onde atmosphérique</term><term>Paramétrisation</term><term>Rugosité</term><term>Surface marine</term><term>Traînée</term><term>Vague vent</term><term>Vapeur eau</term><term>Vitesse frottement</term><term>Vitesse vent</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Additional parameters</term><term>Anemometer</term><term>Anemometer mast</term><term>Atmospheric boundary layer</term><term>Atmospheric parameters</term><term>Average values</term><term>Babanin</term><term>Boundary layer meteorol</term><term>Cambridge univ</term><term>Charnock</term><term>Charnock coefficient</term><term>Charnock coefficient dependence</term><term>Charnock coefficients</term><term>Coefficient</term><term>Complete description</term><term>Constant flux layer</term><term>Correlation coefficient</term><term>Data variability</term><term>Development core team</term><term>Dominant waves</term><term>Donelan</term><term>Drag</term><term>Drag coefficient</term><term>Drag coefficients</term><term>Drag dependence</term><term>Entire data</term><term>Exchange coefficients</term><term>Finite water depth</term><term>Flow separation</term><term>Friction velocity</term><term>General nonlinear parameter</term><term>Gusty winds</term><term>High winds</term><term>Humidity</term><term>Increase friction velocity</term><term>Industrial sciences</term><term>Inverse</term><term>Inverse wave</term><term>Lake george</term><term>Lake george measurement site</term><term>Large scatter</term><term>Linear regression</term><term>Linear regression model</term><term>Makin</term><term>Meteorol</term><term>Model performance</term><term>Molecular mass</term><term>Momentum flux</term><term>More variability</term><term>Multiple regression models</term><term>Negative trend</term><term>Nonlinear</term><term>Nonlinear parameter</term><term>Ocean waves</term><term>Oceanic technol</term><term>Pacific grove</term><term>Parameter</term><term>Parametric model</term><term>Parametrization</term><term>Pearson correlation coefficient</term><term>Positive trend</term><term>Present data</term><term>Present study</term><term>Regression</term><term>Regression lines</term><term>Regression model</term><term>Regression models</term><term>Relative humidity</term><term>Relative water depth</term><term>Scatter</term><term>Scatterplot</term><term>Shallow water regimes</term><term>Significant improvement</term><term>Simplified regressions</term><term>Sonic anemometer</term><term>Spectral peak</term><term>Spray droplets</term><term>Steepness</term><term>Surface drag</term><term>Surface roughness</term><term>Surface waves</term><term>Surface wind stress</term><term>Swinburne university</term><term>Tair tsea</term><term>Temperature difference</term><term>Toffoli</term><term>Ursell number</term><term>Variability</term><term>Water depth</term><term>Water surface</term><term>Water surface elevation</term><term>Water vapor</term><term>Wave data</term><term>Wave measurements</term><term>Wave number</term><term>Wave parameters</term><term>Wave steepness</term><term>Wind gustiness</term><term>Wind profiles</term><term>Wind speed</term><term>Wind stress</term><term>Wise group</term></keywords><keywords scheme="Wicri" type="geographic" xml:lang="fr"><term>Australie</term></keywords><keywords scheme="Wicri" type="topic" xml:lang="fr"><term>Lac</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract">The coupling between the atmospheric boundary layer and the ocean surface in large‐scale models is usually parameterized in terms of the sea drag coefficient, which is routinely estimated as a function of mean wind speed. The scatter of data around such parametric dependencies, however, is very significant and imposes a serious limitation on the forecasts and predictions that make use of sea surface drag parameterizations. The analysis of an atmospheric and wave data set collected in finite water depth at the Lake George measurement site (Australia) suggests that this variability relates to a number of parameters at the air‐sea interface other than wind speed alone. In particular, results indicate that the sea drag depends on water depth and wave steepness, which make the wave profile more vertically asymmetric, and the concentration of water vapor in the air, which modifies air density and friction velocity. These dependencies are used to derive parametric functions based on the combined contribution of wind, waves and relative humidity. A standard statistical analysis confirms a substantial improvement in the prediction of the drag coefficient and sea surface roughness when additional parameters are taken into account.</div></front></TEI><affiliations><list><country><li>Australie</li><li>Belgique</li><li>France</li></country><region><li>Midi-Pyrénées</li><li>Occitanie (région administrative)</li><li>Province du Brabant flamand</li><li>Région flamande</li></region><settlement><li>Louvain</li><li>Toulouse</li></settlement><orgName><li>Katholieke Universiteit Leuven</li></orgName></list><tree><country name="Australie"><noRegion><name sortKey="Toffoli, A" sort="Toffoli, A" uniqKey="Toffoli A" first="A." last="Toffoli">A. Toffoli</name></noRegion><name sortKey="Babanin, A V" sort="Babanin, A V" uniqKey="Babanin A" first="A. V." last="Babanin">A. V. Babanin</name><name sortKey="Le Roy, P" sort="Le Roy, P" uniqKey="Le Roy P" first="P." last="Le Roy">P. Le Roy</name></country><country name="Belgique"><region name="Région flamande"><name sortKey="Loffredo, L" sort="Loffredo, L" uniqKey="Loffredo L" first="L." last="Loffredo">L. Loffredo</name></region></country><country name="France"><region name="Occitanie (région administrative)"><name sortKey="Le Roy, P" sort="Le Roy, P" uniqKey="Le Roy P" first="P." last="Le Roy">P. Le Roy</name></region><name sortKey="Lefevre, J" sort="Lefevre, J" uniqKey="Lefevre J" first="J." last="Lefèvre">J. Lefèvre</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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