Turbulence generation by large-scale extreme vertical drafts and the modulation of local energy dissipation in stably stratified geophysical flows
Raffaele Marino, Fabio Feraco, Leonardo Primavera, Alain Pumir, A. Pouquet, Duane Rosenberg, Pablo D. Mininni
Abstract
Stratified flows can develop powerful vertical drafts - resulting from a resonant interaction of gravity waves and turbulent motions - when the system explores a certain region of the parameter space which is of geophysical interest. These extreme drafts (detected through the kurtosis of the vertical velocity, ${K}_{w}$) do generate turbulence, leading to enhanced local-in-time-and-space kinetic (${\stackrel{\ifmmode \hat{}\else \^{}\fi{}}{\ensuremath{\epsilon}}}_{V}$) and potential energy dissipation. They are needed in order for stratified flows to be as efficient as homogenous isotropic turbulent flow in dissipating the energy.
Topics & Concepts
TurbulenceDissipationStratified flowIsotropyTurbulence kinetic energyPhysicsKinetic energyGeophysicsMechanicsScale (ratio)Stratified flowsSpace (punctuation)GeologyClassical mechanicsOpticsComputer scienceOperating systemThermodynamicsQuantum mechanicsTropical and Extratropical Cyclones ResearchOceanographic and Atmospheric ProcessesMeteorological Phenomena and Simulations