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Subsonic effervescent atomization: A theoretical approach
T. Bar-Kohany
*
, E. Sher
*
Corresponding author for this work
Ben-Gurion University of the Negev
Research output
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Contribution to journal
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Article
›
peer-review
16
Scopus citations
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Keyphrases
Expansion Chamber
100%
Effervescent Atomization
100%
Void Fraction
33%
Orifice
33%
Pressure Drop
33%
Optimal Volume
33%
Special Design
16%
Cross-sectional Area
16%
Area Ratio
16%
One-dimensional Model
16%
Bicomponent
16%
Thermodynamic Conditions
16%
Injector
16%
Bubble Growth
16%
Superheat Degree
16%
Spray Forming
16%
Nucleus Formation
16%
Inlet Orifice
16%
Orifice Geometry
16%
Engineering
Atomisation
100%
Expansion Chamber
100%
Orifice
66%
Void Fraction
33%
One Dimensional
33%
Pressure Drop
33%
Flow Rate
16%
Cross Section
16%
Special Attention
16%
Dimensional Model
16%
Area Ratio
16%
Bubble Growth
16%
Section Area
16%
Chemical Engineering
Atomizer Nozzle
100%
Bubble Formation
100%
Material Science
Orifice
100%
Void Fraction
50%