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Deciphering the Role of Small-Scale Inhomogeneity on Geophysical Flow Structuration: A Stochastic Approach

Werner Bauer, Pranav Chandramouli, Bertrand Chapron, Long Li, Étienne Mémin

2020Journal of Physical Oceanography46 citationsDOIOpen Access PDF

Abstract

Abstract An important open question in fluid dynamics concerns the effect of small scales in structuring a fluid flow. In oceanic or atmospheric flows, this is aptly captured in wave–current interactions through the study of the well-known Langmuir secondary circulation. Such wave–current interactions are described by the Craik–Leibovich system, in which the action of a wave-induced velocity, the Stokes drift, produces a so-called “vortex force” that causes streaking in the flow. In this work, we show that these results can be generalized as a generic effect of the spatial inhomogeneity of the statistical properties of the small-scale flow components. As demonstrated, this is well captured through a stochastic representation of the flow.

Topics & Concepts

Flow (mathematics)Current (fluid)VortexScale (ratio)StructuringMechanicsPhysicsStokes driftCirculation (fluid dynamics)Representation (politics)Action (physics)Statistical physicsGeophysicsClassical mechanicsGeologyWave propagationOpticsQuantum mechanicsLawPoliticsFinanceThermodynamicsEconomicsPolitical scienceFluid Dynamics and Turbulent FlowsMeteorological Phenomena and SimulationsWind and Air Flow Studies