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Film Boiling Conjugate Heat Transfer during Immersion Quenching
Robin Kamenicky
, Michael Frank
,
Dimitris Drikakis
, Konstantinos Ritos
University of Strathclyde
Independent Researcher
University of Thessaly
Research output
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Keyphrases
Film Boiling
100%
Immersion Quenching
100%
Conjugate Heat Transfer
100%
Fluid Phase
66%
Energy Equation
66%
Heat Transfer Regime
66%
Numerical Results
33%
Computational Approach
33%
Modeling Approach
33%
Analytical Description
33%
Power Electronics
33%
Flow Phenomena
33%
Solid-liquid Interface
33%
Computational Fluid Dynamics Modeling
33%
Boiling Heat Transfer
33%
Eulerian
33%
Phase Change
33%
Heat Transfer Phenomena
33%
Fluid Temperature
33%
Two-fluid Modeling
33%
Biot number
33%
Active Field
33%
Metallurgy
33%
Natural Transition
33%
Fluid Behavior
33%
Power Generation
33%
Natural Convection
33%
Partitioned Coupling
33%
Transition Boiling
33%
Nucleate Boiling
33%
Heat Flow
33%
Interfacial Forces
33%
Engineering
Energy Equation
100%
Fluid Phase
100%
Power Electronics
50%
Computational Fluid Dynamics
50%
Flow Phenomenon
50%
Boiling Heat Transfer
50%
Power Generation
50%
Fluid Temperature
50%
Heat Transfer Phenomenon
50%
Biot Number
50%
Natural Convection
50%