Streamwise and doubly-localised periodic orbits in plane Poiseuille flow

Zammert, Stefan; Eckhardt, Bruno

doi:10.1017/jfm.2014.633

Cited by 47 publications

(57 citation statements)

References 48 publications

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“…Chaotic sets developed from extended versions of these solutions clearly exhibit wave trains with a varying count of wave periods embedded (Ritter et al , to be published). This will most probably be the case for localised plane Couette and plane Poiseuille solutions too Zammert & Eckhardt 2014). The non-snaking localisation mechanism (Burke & Knobloch 2006) found in double-diffusive convection (Beaume et al 2013b) cannot apply to plane Couette, plane Poiseuille or pipe flows, as the required condition that a nontrivial streamwise-independent state exists is not fulfilled by any of these flows.…”

Section: Resultsmentioning

confidence: 99%

“…This scenario has been confirmed for extended domains allowing for localisation, albeit with modifications regarding the spatial structure of the underlying solution, which is no longer periodic but localised (Mellibovsky et al 2009;Duguet et al 2009). Fully localised invariant solutions of the Navier-Stokes equations have since been found by restricting the dynamics to appropriate symmetry subspaces in long pipes (Avila et al 2013), and in extended domains (spanwise and/or streamwise) in plane Couette and plane Poiseuille flows (Zammert & Eckhardt 2014).…”

Section: Introductionmentioning

confidence: 99%

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A mechanism for streamwise localisation of nonlinear waves in shear flows

Mellibovsky

Meseguer

2015

J. Fluid Mech.

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We present the complete unfolding of streamwise localisation in a paradigm of extended shear flows, namely, two-dimensional plane-Poiseuille flow. Exact solutions of the Navier-Stokes equations are computed numerically and tracked in the streamwise wavenumber -Reynolds number parameter space to identify and describe the fundamental mechanism behind streamwise localisation, a ubiquitous feature of shear flow turbulence. Unlike shear flow spanwise localisation, streamwise localisation does not follow the snaking mechanism demonstrated for plane-Couette flow.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A mechanism for streamwise localisation of nonlinear waves in shear flows

Mellibovsky

Meseguer

2015

J. Fluid Mech.

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“…However, their calculation were strongly truncated and attempts to reproduce their results with better resolution failed [29]. Subsequent studies identified many other three-dimensional exact solutions for PPF [29][30][31][32][33][34]. Waleffe [35] and Nagata & Deguchi [29] studied the dependence of particular solutions on the streamwise and spanwise wavelengths.…”

Section: Three-dimensional Travelling Wavesmentioning

confidence: 99%

“…We use a numerical resolution of N x × N y × N z = 32 × 65 × 64 for small domains and increase it to N x × N y × N z = 80 × 65 × 112 for a domain with L x = L z = 4π. For sufficiently large domains the edge state of PPF is a traveling wave [33] that is symmetric with respect to the center-plane,…”

Section: Three-dimensional Travelling Wavesmentioning

confidence: 99%

“…In particular, a subcritical long-wavelength instability of T W E at high Reynolds numbers creates a streamwise localized periodic orbit, henceforth referred to as P O E , which is an edge state in long computational domains [33] and appears at low Reynolds numbers in a saddle-node bifurcation. The dependence of the Reynolds number of this saddle-node bifurcation on the spanwise wavelength is shown in figure 7a).The lowest Reynolds number for the turning point is achieved for a spanwise wavelength of 1.75π.…”

Section: Streamwise Localized Three-dimensional Periodic Orbitsmentioning

confidence: 99%

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Harbingers and latecomers – the order of appearance of exact coherent structures in plane Poiseuille flow

Zammert

Eckhardt

2016

Journal of Turbulence

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The transition to turbulence in plane Poiseuille flow (PPF) is connected with the presence of exact coherent structures. In contrast to other shear flows, PPF has a number of different coherent states that are relevant for the transition. We here discuss the different states, compare the critical Reynolds numbers and optimal wavelengths for their appearance, and explore the differences between flows operating at constant mass flux or at constant pressure drop. The Reynolds numbers quoted here are based on the mean flow velocity and refer to constant mass flux, the ones for constant pressure drop are always higher. The Tollmien-Schlichting waves bifurcate subcritically from the laminar profile at Re = 5772 and reach down to Re = 2609 (at a different optimal wave length). Their localized counter part bifurcates at the even lower value Re = 2334. Three dimensional exact solutions appear at much lower Reynolds numbers. We describe one exact solutions that is spanwise localized and has a critical Reynolds number of 316. Comparison to plane Couette flow suggests that this is likely the lowest Reynolds number for exact coherent structures in PPF. Streamwise localized versions of this state require higher Reynolds numbers, with the lowest bifurcation occurring near Re = 1018.

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Self-sustained states at Kolmogorov microscale

Deguchi

2015

J. Fluid Mech.

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It is shown theoretically how the scaling of coherent structures in shear flows changes their asymptotic development at large Reynolds number. Based on the theory a family of nonlinear self-sustained states at Kolmogorov microscale is numerically identified on the laminar-turbulent boundary of shear flows. Theoretically and numerically the states connect to known asymptotic states existing at larger scale. The asymptotically very small amplitude of the new states may explain why strongly sheared, linearly stable laminar flows can cause a turbulent transition by small disturbances. The numerically obtained Kolmogorov-scale solutions can be used to describe the theoretically minimal self-sustained structures appearing in various shear flows.

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Streamwise and doubly-localised periodic orbits in plane Poiseuille flow

Cited by 47 publications

References 48 publications

A mechanism for streamwise localisation of nonlinear waves in shear flows

A mechanism for streamwise localisation of nonlinear waves in shear flows

Harbingers and latecomers – the order of appearance of exact coherent structures in plane Poiseuille flow

Self-sustained states at Kolmogorov microscale

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