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Influence of Swell on Marine Surface-Layer Structure

Qingfang Jiang

2020Journal of the Atmospheric Sciences21 citationsDOI

Abstract

Abstract The influence of swell on turbulence and scalar profiles in a marine surface layer and underlying physics is examined in this study through diagnosis of large-eddy simulations (LES) that explicitly resolve the surface layer and underlying swell. In general, under stable conditions, the mean wind and scalar profiles can be significantly modified by swell. The influence of swell on wind shear, turbulence structure, scalar profiles, and evaporation duct (ED) characteristics becomes less pronounced in a more convective boundary layer, where the buoyancy production of turbulence is significant. Dynamically, swell has little direct impact on scalar profiles. Instead it modifies the vertical wind shear by exerting pressure drag on the wave boundary layer. The resulting redistribution of vertical wind shear leads to changes in turbulence production and therefore turbulence mixing of scalars. Over swell, the eddy diffusivities from LES systematically deviate from the Monin–Obukhov similarity theory (MOST) prediction, implying that MOST becomes invalid over a swell-dominated sea. The deviations from MOST are more pronounced in a neutral or stable boundary layer under relatively low winds and less so in a convective boundary layer.

Topics & Concepts

SwellTurbulenceBoundary layerPlanetary boundary layerBuoyancyMechanicsSurface layerGeologyMeteorologyPhysicsMaterials scienceLayer (electronics)ThermodynamicsComposite materialOcean Waves and Remote SensingTropical and Extratropical Cyclones ResearchMeteorological Phenomena and Simulations
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