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On turbulent entrainment and dissipation in dilute polymer solutions
A. Liberzon
, M. Holzner
, B. Lüthi
,
M. Guala
, W. Kinzelbach
Civil, Environmental, and Geo- Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
21
Scopus citations
Overview
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Keyphrases
Clear Water
66%
Comparative Experimental Study
33%
Dilute Polymer Solutions
100%
Energy Input
66%
Entrainment
33%
Entrainment Rate
33%
Interface Propagation
33%
Irrotational Fluid
33%
Large Grid
33%
Mean Depth
33%
Newtonian Fluid
33%
Planar Grid
33%
Poly(ethylene oxide)
33%
Polymer Additives
33%
Polymer Solution
66%
Propagation Velocity
33%
Region Growing
33%
Root Mean Square
33%
Scale Shape
33%
Sharp Interface
33%
Time-resolved Particle Image Velocimetry (TR-PIV)
33%
Turbulent Dissipation
100%
Turbulent Entrainment
100%
Turbulent Flow
33%
Turbulent Kinetic Energy
33%
Turbulent Layers
66%
Turbulent Motion
33%
Turbulent Region
33%
Two-component
33%
Velocity Field
33%
Vertical Plane
33%
Vertical Velocity
33%
Vrms
66%
Water Solution
33%
Engineering
Energy Input
100%
Good Agreement
100%
Input Energy
100%
Measured Value
100%
Newtonian Fluid
100%
Particle Image Velocimetry
100%
Propagation Velocity
100%
Root Mean Square
100%
Similarities
100%
Surrounding Fluid
100%
Turbulent Flow
100%
Turbulent Kinetic Energy
100%
Turbulent Motion
100%
Velocity Field
100%
Chemical Engineering
Polyethylene Glycol
100%
Velocity Measurement
100%