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Unsteady gas/vapor expansion flows
G. H. Schnerr
, S. Adam
University of Karlsruhe
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Keyphrases
Nozzle
100%
Oscillation Mode
100%
Expansion Flow
100%
Numerical Simulation
50%
Shock
50%
Technical Application
50%
Fluid Flow
50%
Numerical Methods
50%
Unsymmetrical
50%
Power Plant
50%
Mean Frequency
50%
Nucleation Growth
50%
Stability Limit
50%
Condensation
50%
Finite Volume Method
50%
Internal Flow
50%
Steam Turbine
50%
Flutter
50%
Dynamical Problem
50%
Pure Gas
50%
Demolition
50%
Homogeneous nucleation
50%
Typical Structure
50%
Oblique Shock
50%
Euler Equations
50%
MUSCL
50%
Frequency Curve
50%
Bifurcation Problems
50%
Droplet Growth
50%
Technical Facility
50%
Subsonic Flow
50%
Pure Vapour
50%
Shock Formation
50%
Nonisothermal Two-phase Flow
50%
Supersonic Wind Tunnel
50%
Flow Nozzle
50%
Sudden Cooling
50%
Gas-vapor Mixture
50%
Oscillatory States
50%
Turbine Jet Engine
50%
Engineering
Expansion Flow
100%
Jet Engine
50%
Fluid Flow
50%
Oscillatory
50%
Finite Volume Method
50%
Homogeneous Nucleation
50%
Flow in Nozzles
50%
Oblique Shock
50%
Droplet Growth
50%
Subsonic Flow
50%
Nonequilibrium
50%
Two-Phase Flow
50%
Euler Equation
50%
Internal Flow
50%
Pure Vapor
50%
Computer Simulation
50%
Electric Power Plant
50%
Steam Turbine
50%