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Numerical model for bubbels break-up during blowdown
G. A. Pinhasi
*
,
A. Dayan
,
A. Ullmann
*
Corresponding author for this work
School of Mechanical Engineering
Ariel University
Flow-sim LTD
AIAA
Research output
:
Contribution to conference
›
Paper
›
peer-review
4
Scopus citations
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Keyphrases
Numerical Model
100%
Blowout
100%
Two-phase Model
100%
Bubble Breakup
100%
Rayleigh-Taylor
50%
Characteristics Method
50%
Discharge Rate
50%
Numerical Code
50%
Effective Interface
50%
Coolant
50%
Pressure Response
50%
Kelvin-Helmholtz Instability
50%
Pressure Buildup
50%
Interface Area
50%
Evaporation Rate
50%
Instability Criterion
50%
Breakup Rate
50%
Oscillating Pressure
50%
Vaporization Rate
50%
Loss of Coolant Accident
50%
Bubble Breakup Mechanisms
50%
Equal Velocity
50%
Pressure Frequency
50%
Engineering
Numerical Model
100%
Phase Model
100%
Blowdown
100%
Bubble Breakup
100%
Transients
50%
Oscillatory
50%
Discharge Rate
50%
Evaporation Rate
50%
Pressure Buildup
50%
Kelvin Helmholtz Instability
50%
Test Condition
50%
Vaporization
50%
Pressure Response
50%
Rayleigh Criterion
50%
Loss of Coolant Accidents
50%
Method of Characteristics
50%