1 |
R. C. Cavitt, R. A. Frederick Jr., V. G. Bazarov, Laboratory Scale Survey of Pentad Injector Stability Characteristics, J. Propulsion and Power, 24(3) (2008), 534-540.
DOI
|
2 |
F. E. C. Culick, V. Yang, Overview of Combustion Instabilities in Liquid-Propellant Rocket Engines, Progress in Astronautics and Aeronautics, 169 (1995), 3-37.
|
3 |
S. Seo, Characteristics of High-Frequency Combustion Instabilities Occurring in Combustion Devices, J. Korean Soc. Combust., 17(1) (2012), 30-36.
|
4 |
J. Son, Y. H. Min, C. H. Sohn, An Experimental Study On Characteristics of Flame and Combustion Stability of Coaxial Jet Injectors, J. Korean Soc. Combust., 21(2) (2016), 15-21
DOI
|
5 |
C. J. Kim, C. H. Sohn, An experimental study on stability rating of impinging-jet using air injection in a subscale chamber, J. Mech. Sci. Tech., 26 (2012), 1963-1970.
DOI
|
6 |
S. Seo, K. J. Lee, Experimental study of combustion stability assessment of injector, J. Korean Soc. Aero. Space Sci., 32 (2004), 61-66
|
7 |
C. H. Sohn, W. S. Seol, A. A. Shibanov, V. P. Pikalov, On the Method for Hot-Firing Modeling of High-Frequency Combustion Instability in Liquid Rocket Engines, Trasn. Korean Soc. Mech. Eng. B, 18(6) (2004), 1010-1018.
|
8 |
V. P. Pikalov, A. A. Shibanov, A. A. Narizhny, A. P. Agarkov, A. K. Nedachkovsky, Studies of the Combustion Stability to Acoustic Oscillations Using KARI Injectors of Basic Configuration under Model Operation Combustions, Progress Report of KARI-00-14, Phase 2, PART C, 2001,
|
9 |
F. E. C. Culick, V. Yang, Experimental Procedures Aiding the Design of Acoustic Cavities, Progress in Astronautics and Aeronautics, 169 (1995), 377-399.
|
10 |
K. J. Lee, A study on the High Frequency Combustion Stability of LOx/Kerosene Liquid Rocket Engine Thrust Chamber, Ph.D Thesis CNU, 2010.
|