Self-similar hierarchies and attached eddies

“…A growing body of recent theoretical, numerical and experimental evidence has consistently supported the notion that wall-bounded turbulent shear flows, such as channel, pipe and boundary-layer flows, at high Reynolds numbers are composed of self-similar energy-containing motions throughout the logarithmic region (see a recent review by Marusic & Monty (2019)). For example, statistical evidence supporting the theoretical predictions of the original attached eddy model and its extensions (Marusic & Kunkel 2003;Tomkins & Adrian 2003;Jiménez & Hoyas 2008;Marusic et al 2013;Baars & Marusic 2020a,b), direct confirmations on the existence of self-similar energy-containing motions Hwang & Cossu 2010c, 2011Lozano-Durán & Jiménez 2014;Hwang 2015;Hellstöm, Marusic & Smits 2016;Hwang & Bengana 2016;Hwang & Sung 2018) and supporting mathematical evidence from analysis of the linearised and full Navier-Stokes equations Hwang & Cossu 2010b;Klewicki 2013;Moarref et al 2013;Hwang, Willis & Cossu 2016;Eckhardt & Zammert 2018;Doohan, Willis & Hwang 2019;McKeon 2019;Vadarevu et al 2019;Yang, Willis & Hwang 2019).…”

Attached eddy model revisited using a minimal quasi-linear approximation

“…A growing body of recent theoretical, numerical and experimental evidence has consistently supported the notion that wall-bounded turbulent shear flows, such as channel, pipe and boundary-layer flows, at high Reynolds numbers are composed of self-similar energy-containing motions throughout the logarithmic region (see a recent review by Marusic & Monty (2019)). For example, statistical evidence supporting the theoretical predictions of the original attached eddy model and its extensions (Marusic & Kunkel 2003;Tomkins & Adrian 2003;Jiménez & Hoyas 2008;Marusic et al 2013;Baars & Marusic 2020a,b), direct confirmations on the existence of self-similar energy-containing motions Hwang & Cossu 2010c, 2011Lozano-Durán & Jiménez 2014;Hwang 2015;Hellstöm, Marusic & Smits 2016;Hwang & Bengana 2016;Hwang & Sung 2018) and supporting mathematical evidence from analysis of the linearised and full Navier-Stokes equations Hwang & Cossu 2010b;Klewicki 2013;Moarref et al 2013;Hwang, Willis & Cossu 2016;Eckhardt & Zammert 2018;Doohan, Willis & Hwang 2019;McKeon 2019;Vadarevu et al 2019;Yang, Willis & Hwang 2019).…”

Attached eddy model revisited using a minimal quasi-linear approximation

“…2016), where is the friction velocity, is the boundary layer thickness and is the kinematic viscosity. These instantaneous flow features were also observed through reduced-order models of the large-scale coherence in TBLs based on the Navier–Stokes equations (Saxton-Fox & McKeon 2017; McKeon 2019). Furthermore, UMZs have been used in models that are able to reproduce boundary layer statistics up to fourth order (Bautista et al.…”

Uniform-momentum zones in a turbulent boundary layer subjected to freestream turbulence

“…The fact that the log-layer structure of the minimal flow unit spans the full boundary layer thickness can be further explained by the self-similar attached-eddy hypothesis (Townsend 1976; Perry & Chong 1982; Meneveau & Marusic 2013; Agostini & Leschziner 2017; Marusic & Monty 2019). McKeon (2019) has recently identified that an isolated resolvent mode with a given convection velocity constitutes only part of the full attached eddy, and a geometric progression of such modes needs to be considered for the fair comparison to the attached eddies. In particular, a single wall-normal location of the log layer will be affected by a series of wall-attached eddies whose footprint includes the given wall-normal height.…”

Nonlinear mechanism of the self-sustaining process in the buffer and logarithmic layer of wall-bounded flows