Elasto-inertial turbulence

Elasto-inertial turbulence

Turbulence is ubiquitous in nature, yet even for the case of ordinary Newtonian fluids like water, our understanding of this phenomenon is limited. Many liquids of practical importance are more complicated (e.g., blood, polymer melts, paints), however; they exhibit elastic as well as viscous charact...

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Veröffentlicht in:Proceedings of the National Academy of Sciences - PNAS 2013-06, Vol.110 (26), p.10557-10562
Hauptverfasser: Samanta, Devranjan, Dubief, Yves, Holzner, Markus, Schäfer, Christof, Morozov, Alexander N., Wagner, Christian, Hof, Björn
Format: Artikel
Sprache:eng
Schlagworte:
Asymptotes
Channel flow
Drag reduction
Elasticity
Flow velocity
Fluid shear
Friction
Hydrodynamics
Inertia
Kinetics
Models, Theoretical
Newtonianism
Nonlinear Dynamics
Physical Sciences
Pipe flow
Polymers
Polymers - chemistry
Reynolds number
Rheology
Shear stress
Turbulence
Viscosity
Water
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Beschreibung
Zusammenfassung:Turbulence is ubiquitous in nature, yet even for the case of ordinary Newtonian fluids like water, our understanding of this phenomenon is limited. Many liquids of practical importance are more complicated (e.g., blood, polymer melts, paints), however; they exhibit elastic as well as viscous characteristics, and the relation between stress and strain is nonlinear. We demonstrate here for a model system of such complex fluids that at high shear rates, turbulence is not simply modified as previously believed but is suppressed and replaced by a different type of disordered motion, elasto-inertial turbulence. Elasto-inertial turbulence is found to occur at much lower Reynolds numbers than Newtonian turbulence, and the dynamical properties differ significantly. The friction scaling observed coincides with the so-called “maximum drag reduction” asymptote, which is exhibited by a wide range of viscoelastic fluids.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1219666110