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http://hdl.handle.net/11375/16831
Title: | Scaling of space–time modes with Reynolds number in two-dimensional turbulence |
Authors: | Kevlahan, N.K.-R. Alam, J. Vasilyev, O.V. |
Keywords: | space-time methods;turbulence simulation;turbulence theory;two-dimensional turbulence |
Publication Date: | 2007 |
Publisher: | Cambridge University Press |
Citation: | Kevlahan, N.K.-R., Alam, J. & Vasilyev, O. V. 2007 Scaling of space-time modes with Reynolds number in two-dimensional turbulence J. Fluid Mech. 570, 217-226. |
Series/Report no.: | J. Fluid Mech.; |
Abstract: | It has been estimated that the number of spatial modes (or nodal values) required to uniquely determine a two-dimensional turbulent flow at a specific time is finite, and is bounded by Re^4/3 for forced turbulence and Re for decaying turbulence. The usual computational estimate of the number of space–time modes required to calculated de- caying two-dimensional turbulence is N ∼ Re^3/2. These bounds neglect intermittency, and it is not known how sharp they are. In this paper we use an adaptive multi-scale wavelet collocation method to estimate for the first time the number of space–time computational modes N necessary to represent two-dimensional decaying turbulence as a function of Reynolds number. We find that N ∼ Re^0.9 for 1260 T Re T 40 400 over many eddy turn-over times, and that temporal intermittency is stronger than spatial intermittency. The spatial modes alone scale like Re^0.7. The β-model then implies that the spatial fractal dimension of the active regions is 1.2, and the temporal fractal dimension is 0.3. These results suggest that the usual estimates are not sharp for adaptive numerical simulations. The relatively high compression confirms the importance of intermittency and encourages the search for reduced mathematical models of two-dimensional turbulence (e.g. in terms of coherent vortices). |
URI: | http://hdl.handle.net/11375/16831 |
Identifier: | doi:10.1017/S0022112006003168 |
Appears in Collections: | Mathematics & Statistics Publications |
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2d_dof_v2.pdf | Main article | 582.61 kB | Adobe PDF | View/Open |
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