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Analyses of spray break-up mechanisms using the integral form of the conservation equations
Taewoo Lee
, J. H. Ryu
Mechanical and Aerospace Engineering
Engineering of Matter, Transport and Energy, School for (IAFSE-SEMTE)
Research output
:
Contribution to journal
›
Article
›
peer-review
14
Scopus citations
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Dive into the research topics of 'Analyses of spray break-up mechanisms using the integral form of the conservation equations'. Together they form a unique fingerprint.
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Mathematics
Atomization
63%
Blast
27%
Breakup
100%
Conservation
72%
Experimental Data
18%
First-principles
23%
Framework
20%
Integral form
82%
Rayleigh
19%
Relationships
10%
Reynolds number
18%
Source Terms
18%
Spray
97%
Turbulence
40%
Physics & Astronomy
aerial explosions
37%
atomizing
55%
conservation equations
84%
drop size
62%
Reynolds number
20%
sprayers
67%
turbulence
18%
turbulence effects
33%
Engineering & Materials Science
Air
19%
Atomization
83%
Conservation
69%
Reynolds number
30%
Turbulence
65%
Chemical Compounds
Drop
41%
Modification
13%
Spray
67%
Turbulence
67%
Weber Number
42%