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Modeling of droplet entrainment phenomena at a quench front
M. J. Holowach
, L. E. Hochreiter
, J. H. Mahaffy
,
F. B. Cheung
Mechanical Engineering
Research output
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Contribution to journal
›
Article
›
peer-review
18
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Scopus citations
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Keyphrases
Droplet Entrainment
100%
Quench Front
100%
Liquid Droplet
50%
Vapor-liquid-solid
25%
Design Performance
25%
Simulation Code
25%
Flow Model
25%
System Performance
25%
Momentum Transfer
25%
Stability Analysis
25%
Characteristic Length Scale
25%
Three-field
25%
Model-driven Development
25%
Data Independence
25%
Lagrangian
25%
Liquid Flow
25%
Interfacial Mass Transfer
25%
Boundary-layer Analysis
25%
Safety System Design
25%
Nuclear Reactor Safety
25%
Reactor Safety Analysis
25%
System Design Analysis
25%
Continuous Droplets
25%
Interfacial Energy Transfer
25%
Light Water Reactor
25%
Reflood
25%
Two-phase Flow Model
25%
Entrainment Rate
25%
Characteristic Timescales
25%
Droplet Flow
25%
Transient Test
25%
Vapor Flow
25%
Engineering
Quench Front
100%
Liquid Droplet
50%
Reactor Safety
50%
Transients
25%
Applicability
25%
Test Data
25%
Length Scale
25%
Flow Model
25%
Two-Phase Flow
25%
Nuclear Reactor
25%
Direct Implementation
25%
Boundary Layer
25%
Characteristic Time
25%
Flow Simulation
25%
Stability Analysis
25%
Simulation Code
25%
Characteristic Length
25%
Layer Analysis
25%
Design Analysis
25%
Safety Analysis
25%
Light Water Reactors
25%
System Safety
25%