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A depth-averaged model for non-isothermal thin-film rimming flow
E.D. Kay, Stephen Hibberd, H. Power
School of Mathematical Sciences
Research output
:
Journal Publication
›
Article
›
peer-review
27
Citations (Scopus)
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Keyphrases
Non-isothermal
100%
Convection
100%
Rimming Flow
100%
Recirculation
100%
Depth-averaged Model
100%
Slowly Varying
50%
Temperature Model
50%
Shock
50%
Heat Effect
50%
Sharp Change
50%
Temperature Field
50%
Film Flow
50%
Inertia Effect
50%
Heat Convection
50%
Inside Surface
50%
Bearing Chamber
50%
Aeroengine Bearing
50%
Shear-driven
50%
Bidirectional Flow
50%
Boundary Temperature
50%
Lubrication Theory
50%
Steep Front
50%
Thin Film Flow
50%
Theory Analysis
50%
Circular Cylinder
50%
Convective Effects
50%
Flow Configuration
50%
Depth-averaged
50%
Engineering
Isothermal
100%
Thin Films
100%
Illustrates
33%
Circular Cylinder
33%
Temperature Model
33%
Laminar Flows
33%
Aero-Engines
33%
Temperature Field
33%
Inside Surface
33%
Convective Effect
33%
Boundary Temperature
33%
Analysis Theory
33%
Flow Configuration
33%