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Nucleating unsteady flows in low-pressure steam turbine stages
G. Winkler,
G. H. Schnerr
University of Karlsruhe
Research output
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Contribution to journal
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Article
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peer-review
12
Scopus citations
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Keyphrases
Transonic
100%
Nucleate
100%
Unsteady Flow
100%
Steam Turbine Stage
100%
Low-pressure Steam Turbine
100%
Two Dimensional
50%
Two-phase Flow
50%
Shock Wave Boundary Layer Interaction
50%
Numerical Investigation
50%
Nucleation Growth
50%
Working Fluid
50%
Condensation Mechanism
50%
Condensation Model
50%
Turbulent Boundary Layers
50%
Homogeneous nucleation
50%
Laval Nozzle
50%
Rotor-stator Interaction
50%
Heat Addition
50%
Condensing Effect
50%
Turbine Stage
50%
Internal Heat
50%
Transonic Turbine
50%
Droplet Growth
50%
Turbine Flow
50%
Transonic Flow
50%
Partial Condensation
50%
Rotor Cascade
50%
Steam Flow
50%
Engineering
Rotors
100%
Steam Turbines
100%
Unsteady Flow
100%
Pressure Steam
100%
Two Dimensional
50%
Layer Interaction
50%
Boundary Layer
50%
Internals
50%
Turbulent Boundary Layer
50%
Homogeneous Nucleation
50%
Inflow Turbine
50%
Transonic Flow
50%
Droplet Growth
50%
Heat Addition
50%
Two-Phase Flow
50%
Steam Flow
50%