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Layering, Instabilities, and Mixing in Turbulent Stratified Flows

C. P. Caulfield

2020Annual Review of Fluid Mechanics239 citationsDOIOpen Access PDF

Abstract

Understanding how turbulence leads to the enhanced irreversible transport of heat and other scalars such as salt and pollutants in density-stratified fluids is a fundamental and central problem in geophysical and environmental fluid dynamics. This review discusses recent research activity directed at improving community understanding, modeling, and parameterization of the subtle interplay between energy conversion pathways, instabilities, turbulence, external forcing, and irreversible mixing in density-stratified fluids. The conceptual significance of various length scales is highlighted, and in particular, the importance is stressed of overturning or scouring in the formation and maintenance of layered stratifications, i.e., robust density distributions with relatively deep and well-mixed regions separated by relatively thin interfaces of substantially enhanced density gradient.

Topics & Concepts

TurbulenceStratified flowsMixing (physics)LayeringMechanicsForcing (mathematics)GeologyGeophysical fluid dynamicsStratified flowStratification (seeds)Statistical physicsGeophysicsPhysicsMeteorologyAtmospheric sciencesQuantum mechanicsGerminationBotanyBiologyDormancySeed dormancyOceanographic and Atmospheric ProcessesGeology and Paleoclimatology ResearchHydrocarbon exploration and reservoir analysis
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