Numerical simulation of primary atomization: Interaction with experimental analysis
Artikel i vetenskaplig tidskrift, 2013
This paper focuses on recent developments in numerical simulations and experimental techniques applied to jet atomization. Interface tracking based on coupled level-set, VOF, and ghost fluid approaches is presented, together with experimental methods including morphological analysis, multi-scale analysis, and laser correlation velocimetry. Experimental diagnostics and analysis are applied and validated against images provided by numerical simulations, allowing comparisons between experimental data, combined experimental techniques and simulated images, and pure numerical results. © 2013 by Begell House, Inc.
LCV
Morphology
Simulation
Atomization
Level set
Författare
David Sedarsky
Universite de Rouen
Alain Berlemont
Universite de Rouen
INSA
J.B. Blaisot
Universite de Rouen
Z. Bouali
Universite de Rouen
J. Cousin
Universite de Rouen
P. Desjonqueres
Universite de Rouen
M. Doring
INSA
Universite de Rouen
C. Dumouchel
Universite de Rouen
INSA
S. Idlahcen
Universite de Rouen
INSA
N. Leboucher
Universite de Rouen
K. Lounnaci
INSA
Universite de Rouen
T. Ménard
Universite de Rouen
C. Rozé
INSA
Universite de Rouen
G. Vaudor
Universite de Rouen
INSA
Atomization and Sprays
1044-5110 (ISSN)
Vol. 23 12 1103-1138Styrkeområden
Transport
Energi
Ämneskategorier (SSIF 2011)
Den kondenserade materiens fysik
DOI
10.1615/AtomizSpr.2013007525