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Revised Estimates of Ocean Surface Drag in Strong Winds

M. Curcic, B. K. Haus

2020Geophysical Research Letters59 citationsDOIOpen Access PDF

Abstract

Abstract Air‐sea drag governs the momentum transfer between the atmosphere and the ocean and remains largely unknown in hurricane winds. We revisit the momentum budget and eddy covariance methods to estimate the surface drag coefficient in the laboratory. Our drag estimates agree with field measurements in low‐to‐moderate winds and previous laboratory measurements in hurricane‐force winds. The drag coefficient saturates at 2.6×10 −3 and U 10 ≈25 m s −1 , in agreement with previous laboratory results by Takagaki et al. (2012,). During our analysis, we discovered an error in the original source code used by Donelan et al. (2004,). We present the corrected data and describe the correction procedure. Although the correction to the data does not change the key finding of drag saturation in strong winds, its magnitude and wind speed threshold are significantly changed. Our findings emphasize the need for an updated and unified drag parameterization based on field and laboratory data.

Topics & Concepts

DragDrag coefficientEddy covarianceMomentum transferMomentum (technical analysis)MeteorologyMagnitude (astronomy)Wave dragAtmosphere (unit)Parasitic dragWind speedAtmospheric sciencesEnvironmental scienceGeologyPhysicsField (mathematics)CovarianceSaturation (graph theory)MechanicsDrag divergence Mach numberZero-lift drag coefficientGeophysicsData assimilationSurface (topology)ClimatologyAerodynamic dragTropical and Extratropical Cyclones ResearchOcean Waves and Remote SensingOceanographic and Atmospheric Processes
Revised Estimates of Ocean Surface Drag in Strong Winds | Litcius