Journal ArticleDOI
Self-similar vortex clusters in the turbulent logarithmic region
TLDR
In this article, the authors analyzed the organization of vortex clusters above the buffer layer of turbulent channels using direct numerical simulations at friction Reynolds numbers up to Re τ = 1900, where Re τ is the Reynolds number of vortex heads.Abstract:
The organization of vortex clusters above the buffer layer of turbulent channels is analysed using direct numerical simulations at friction Reynolds numbers up to Re τ = 1900. Especial attention is paid to a family of clusters that reach from the logarithmic layer to the near-wall region below y + = 20. These tall attached clusters are markers of structures of the turbulent fluctuating velocity that are more intense than their background. Their lengths and widths are proportional to their heights Ay and grow self-similarly with time after originating at different wall-normal positions in the logarithmic layer. Their influence on the outer region is measured by the variation of their volume density with Δ y . That influence depends on the vortex identification threshold, and becomes independent of the Reynolds number if the threshold is low enough. The clusters are parts of larger structures of the streamwise velocity fluctuations whose average geometry is consistent with a cone tangent to the wall along the streamwise axis. They form groups of a few members within each cone, with the larger individuals in front of the smaller ones. This behaviour is explained considering that the streamwise velocity cones are 'wakes' left behind by the clusters, while the clusters themselves are triggered by the wakes left by yet larger clusters in front of them. The whole process repeats self-similarly in a disorganized version of the vortex-streak regeneration cycle of the buffer layer, in which the clusters and the wakes spread linearly under the effect of the background turbulence. These results characterize for the first time the structural organization of the self-similar range of the turbulent logarithmic region.read more
Citations
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Journal ArticleDOI
Hairpin vortex organization in wall turbulencea)
TL;DR: The hairpin vortex paradigm of Theodorsen coupled with the quasistreamwise vortex paradigm have gained considerable support from multidimensional visualization using particle image velocimetry and direct numerical simulation experiments as discussed by the authors.
Journal ArticleDOI
Wall-bounded turbulent flows at high Reynolds numbers: Recent advances and key issues
Ivan Marusic,Beverley McKeon,Peter A. Monkewitz,Hassan M. Nagib,Alexander Smits,Katepalli R. Sreenivasan +5 more
TL;DR: In this paper, the authors distill the salient advances of recent origin, particularly those that challenge textbook orthodoxy, and highlight some of the outstanding questions, such as the extent of the logarithmic overlap layer, the universality or otherwise of the principal model parameters, and the scaling of mean flow and Reynolds stresses.
Journal ArticleDOI
Effect of the computational domain on direct simulations of turbulent channels up to Reτ = 4200
TL;DR: In this paper, the effect of domain size on direct numerical simulations of turbulent channels with periodic boundary conditions is studied, up to Reτ = 4179 in boxes with streamwise and spanwise sizes of 2πh × πh, where h is the channel half-height.
Journal ArticleDOI
Linear energy amplification in turbulent channels
Juan C. del Álamo,Javier Jiménez +1 more
TL;DR: In this paper, the temporal stability of the Orr-Sommerfeld and Squire equations in channels with turbulent mean velocity profiles and turbulent eddy viscosities is studied.
Journal ArticleDOI
Reynolds number effects on the Reynolds-stress budgets in turbulent channels
S. Hoyas,Javier Jiménez +1 more
TL;DR: In this article, the scaling of the nonzero components of the Reynolds-stress tensor is presented for numerical channels with Reynolds numbers in the range Reτ=180-2000. But the authors do not consider the effect of the wall-parallel large-scale motions.
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Journal ArticleDOI
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