Exploring the large-scale structure of Taylor–Couette turbulence through Large-Eddy Simulations



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Journal of Physics: Conference Series


Large eddy simulations (LES) of Taylor-Couette (TC) flow, the flow between two co-axial and independently rotating cylinders are performed in an attempt to explore the large-scale axially-pinned structures seen in experiments and simulations. Both static and dynamic LES models are used. The Reynolds number is kept fixed at Re = 3.4 centerdot 104, and the radius ratio ? = ri /ro is set to ? = 0.909, limiting the effects of curvature and resulting in frictional Reynolds numbers of around Re ? ? 500. Four rotation ratios from Rot = ?0.0909 to Rot = 0.3 are simulated. First, the LES of TC is benchmarked for different rotation ratios. Both the Smagorinsky model with a constant of cs = 0.1 and the dynamic model are found to produce reasonable results for no mean rotation and cyclonic rotation, but deviations increase for increasing rotation. This is attributed to the increasing anisotropic character of the fluctuations. Second, "over-damped" LES, i.e. LES with a large Smagorinsky constant is performed and is shown to reproduce some features of the large-scale structures, even when the near-wall region is not adequately modeled. This shows the potential for using over-damped LES for fast explorations of the parameter space where large-scale structures are found.




Copyright 2018 Journal of Physics: Conference Series. Recommended citation: Ostilla-Mónico, Rodolfo, Xiaojue Zhu, and Roberto Verzicco. "Exploring the large-scale structure of Taylor–Couette turbulence through Large-Eddy Simulations." In Journal of physics: Conference series, vol. 1001, no. 1, p. 012017. IOP Publishing, 2018.doi:10.1088/1742-6596/1001/1/012017.URL:http://ev7su4gn4p.scholar.serialssolutions.com/?sid=google&auinit=R&aulast=Ostilla-M%C3%B3nico&atitle=Exploring+the+large-scale+structure+of+Taylor%E2%80%93Couette+turbulence+through+Large-Eddy+Simulations&id=doi:10.1088/1742-6596/1001/1/012017&title=Journal+of+physics.+Conference+series&volume=1001&issue=1&date=2018&spage=012017&issn=1742-6588. Reproduced in accordance with the original publisher's licensing terms and wit permission from the authors