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Instabilities and bifurcation of non-equilibrium two-phase flows
Stephan Adam,
Günter H. Schnerr
University of Karlsruhe
Research output
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Article
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peer-review
82
Scopus citations
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Keyphrases
Unsymmetrical
100%
Bifurcation
100%
Nonisothermal Two-phase Flow
100%
Numerical Simulation
50%
Steady State
50%
Liquid Phase
50%
Hertz
50%
Growth Law
50%
Engineering Application
50%
Viscosity
50%
Flutter
50%
Flow Pattern
50%
Growth Yield
50%
Oblique Shock
50%
Supersonic Nozzle
50%
Euler Equations
50%
Pressure Amplitude
50%
Turbomachinery
50%
High-frequency Oscillations
50%
Nonequilibrium Phase Transitions
50%
Classical nucleation Theory
50%
Droplet Growth
50%
Supersonic Wind Tunnel
50%
Shock System
50%
Unsteady Transonic Flow
50%
Simulation-based
50%
Unsteady Flow Regime
50%
Transient Changes
50%
Engineering
Nonequilibrium
100%
Two-Phase Flow
100%
Computer Simulation
50%
Transients
50%
Engineering Application
50%
Sudden Increase
50%
Hertz
50%
Turbomachinery
50%
Unsteady Flow
50%
Flow Regime
50%
Pressure Amplitude
50%
Oblique Shock
50%
Classical Nucleation Theory
50%
Transonic Flow
50%
Droplet Growth
50%
Fluid Viscosity
50%
Liquid Phase
50%
Euler Equation
50%
Physics
Two Phase Flow
100%
Supersonics
100%
Transients
50%
Nucleation
50%
Non-Equilibrium Phase Transition
50%
Flow Distribution
50%
Atmospherics
50%
Steady State
50%
Unsteady Flow
50%
Wind Tunnels
50%
Transonic Flow
50%
Liquid Phase
50%