Self-sustaining process of minimal attached eddies in turbulent channel flow
Yongyun Hwang, Yacine Bengana

TL;DR
This study investigates the self-sustaining process of attached eddies in turbulent channel flow, revealing their similarity across regions and demonstrating that suppressing key processes can reduce skin friction.
Contribution
It provides a detailed analysis of the self-sustaining mechanisms of attached eddies in the outer regions, extending understanding beyond the near-wall turbulence.
Findings
Attached eddies in outer regions share a self-sustaining process with near-wall turbulence.
Suppressing lift-up effect reduces skin friction significantly.
Streak amplification and meandering are crucial for eddy regeneration.
Abstract
It has been recently shown that the energy-containing motions in turbulent channel flow exist in the form of Townsend's attached eddies by a numerical experiment which simulates the energy-containing motions only at a prescribed spanwise length scale using their self-sustaining nature (Hwang, 2015, J. Fluid Mech., 767, p254). In the present study, a detailed investigation of the self-sustaining process of the energy-containing motions at each spanwise length scale (i.e. the attached eddies) in the logarithmic and outer regions is carried out with an emphasis on its relevance to 'bursting', which refers to an energetic temporal oscillation of the motions (Flores & Jim\'enez, 2010, Phys. Fluids, 22, 071704). It is shown that the attached eddies in the logarithmic and outer regions, composed of streaks and quasi-streamwise vortical structures, bear the self-sustaining process remarkably…
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