Continuous Pathway between the Elasto-Inertial and Elastic Turbulent States in Viscoelastic Channel Flow

Viscoelastic plane Poiseuille flow is shown to become linearly unstable in the absence of inertia, in the limit of high elasticities, for ultradilute polymer solutions. While inertialess elastic instabilities have been predicted for curvilinear shear flows, this is the first ever report of a purely...

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Veröffentlicht in:	Physical review letters 2021-09, Vol.127 (13), p.1-134502, Article 134502
Hauptverfasser:	Khalid, Mohammad, Shankar, V, Subramanian, Ganesh
Format:	Artikel
Sprache:	eng
Schlagworte:	Channel flow Drag reduction Elastic instability Elastic limit Flow stability Fluid flow Laminar flow Polymers Reynolds number Shear flow Turbulence Turbulent flow Viscoelasticity
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container_title	Physical review letters
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creator	Khalid, Mohammad Shankar, V Subramanian, Ganesh
description	Viscoelastic plane Poiseuille flow is shown to become linearly unstable in the absence of inertia, in the limit of high elasticities, for ultradilute polymer solutions. While inertialess elastic instabilities have been predicted for curvilinear shear flows, this is the first ever report of a purely elastic linear instability in a rectilinear shear flow. The novel instability continues up to a Reynolds number (Re) of O(1000), corresponding to the recently identified elasto-inertial turbulent state believed to underlie the maximum-drag-reduced regime. Thus, for highly elastic ultradilute polymer solutions, a single linearly unstable modal branch may underlie transition to elastic turbulence at zero Re and to elasto-inertial turbulence at moderate Re, implying the existence of continuous pathways connecting the turbulent states to each other and to the laminar base state.
doi_str_mv	10.1103/PhysRevLett.127.134502
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While inertialess elastic instabilities have been predicted for curvilinear shear flows, this is the first ever report of a purely elastic linear instability in a rectilinear shear flow. The novel instability continues up to a Reynolds number (Re) of O(1000), corresponding to the recently identified elasto-inertial turbulent state believed to underlie the maximum-drag-reduced regime. 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source	American Physical Society Journals; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals
subjects	Channel flow Drag reduction Elastic instability Elastic limit Flow stability Fluid flow Laminar flow Polymers Reynolds number Shear flow Turbulence Turbulent flow Viscoelasticity
title	Continuous Pathway between the Elasto-Inertial and Elastic Turbulent States in Viscoelastic Channel Flow
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