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Impact of Elevated Kelvin–Helmholtz Billows on the Atmospheric Boundary Layer

Unknown authors

2021Journal of the Atmospheric Sciences17 citationsDOI

Abstract

Abstract The impact of Kelvin–Helmholtz billows (KHBs) in an elevated shear layer (ESL) on the underlying atmospheric boundary layer (BL) is examined utilizing a group of large-eddy simulations. In these simulations, KHBs develop in the ESL and experience exponential growth, saturation, and exponential decay stages. In response, strong wavy motion occurs in the BL, inducing rotor circulations near the surface when the BL is stable. During the saturation stage, secondary instability develops in the ESL and the wavy BL almost simultaneously, followed by the breakdown of the quasi-two-dimensional KH billows and BL waves into three-dimensional turbulence. Consequently, during and after a KH event, the underlying BL becomes more turbulent with its depth increased and stratification weakened substantially, suggestive of significant lasting impact of elevated KH billows on the atmospheric BL. The eventual impact of KHBs on the BL is found to be sensitive to both the ESL and BL characteristics.

Topics & Concepts

InstabilityStratification (seeds)TurbulenceSaturation (graph theory)PhysicsHelmholtz free energyBoundary layerAtmospheric sciencesAtmospheric instabilityMechanicsMeteorologyThermodynamicsMathematicsBiologyWind speedBotanyDormancyCombinatoricsGerminationSeed dormancyFluid Dynamics and Turbulent FlowsMeteorological Phenomena and SimulationsWind and Air Flow Studies
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