arXiv:1511.01081 Abstract | arXiv Analytics

arXiv:1511.01081 [physics.flu-dyn]Abstract References Reviews Resources

A low-dimensional model predicting geometry-dependent dynamics of large-scale coherent structures in turbulence

Published 2015-11-03Version 1

We test the ability of a general low-dimensional model for turbulence to predict geometry-dependent dynamics of large-scale coherent structures, such as convection rolls. The model consists of stochastic ordinary differential equations, which are derived as a function of boundary geometry from the Navier-Stokes equations (Brown and Ahlers 2008). We test the model using Rayleigh-B\'enard convection experiments in a cubic container. The model predicts a new mode in which the alignment of a convection roll switches between diagonals. We observe this mode with a measured switching rate within 30% of the prediction.

Comments: 5 pages, 5 figures

Categories: physics.flu-dyn

Keywords: low-dimensional model predicting geometry-dependent dynamics, large-scale coherent structures, turbulence, stochastic ordinary differential equations, convection roll

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