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T. Shimizu, N. Yamanishi, "CFD in Rocket Development", Nagare, 24, 2005, 273-280 (in Japanese)
M. Terhardt, G. Hagemann and M. Frey, "Flow separation and side-load behavior of the Vulcain engine", AIAA Paper, 1999-2762, 1999
K. Yonezawa, Y. Watanabe, T. Morimoto, Y. Tsujimoto, K. Yokota, "Suppression of Restricted Shock Separation in Overexpanded Rocket Nozzles", Transaction of Japan Society of Mechanical Engineers (Series B), 71-711, 2005, 2702-2709 (in Japanese)
M. Frey, and G. Hagemann, "Restricted Shock Separation in Rocket Nozzles", Journal of Propulsion and Power, 16-3, 2000, 478-484
K. Yonezawa, Y. Yamashita, Y. Tsujimoto, Y. Watanabe, K. Yokota, "Effect of Nozzle Contour on Flow Separation in Overexpanded Rocket Nozzle", Transaction of Japan Society of Mechanical Engineers (Series B), 71-707, 2005, 1789-1797 (in Japanese)
S. B. Verma, "Shock unsteadiness in a thrust optimized parabolic nozzle", Shock Waves, 19, 2009, 193-212
CrossRef
C. E. Smith, "The starting process in a hypersonic nozzle", Journal of Fluid Mechanics, 24-4, 1966, 625-640
H. O. Amann, "Experimental Study of the Starting Process in a Reflection Nozzle", Physics of Fluids Supplement, 12, 1969, I-150-I-153
O. Igra, L. Wang, J. Falcovits, O. Amann, "Simulation of the starting flow in a wedge-like nozzle", Shock Waves, 8, 1998, 235-242
CrossRef
A. -S. Mouronval, A. Hadjadj, "Numerical Study of the Starting Process in a Supersonic Nozzle", Journal of Propulsion and Power, 21-2, 2005, 374-377
M. G. Lee, T. Murakami and M. Nishida, "Computational and Experimental Studies of Unsteady Viscous Nozzle Flows", JSME international Journal, Series B, 38-3, 1995, 346-352
T. Saito and K. Takayama, "Numerical simulations of nozzle starting process", Shock Waves, 9, 1999, 73-79
CrossRef
A. -S. Mouronval, A. Hadjadj, A. N. Kudryavtsev, D. Vandromme, "Numerical investigation of transient nozzle flow", Shock Waves, 12, 2002, 403-411
CrossRef
D. A. Anderson, J. C. Tannehill, R. H. Pletcher, "Computational Fluid Mechanics and Heat Transfer", Hemisphere Publishing Corporation, New York, 1984
E. F. Toro, "The Weighted Average Flux Method Applied to the Time-Dependent Euler Equations", Phil. Trans. Roy. Soc. London, A341, 1992, 499-530
E. F. Toro, "Riemann Solvers and Numerical Methods for Fluid Dynamics", Springer-Verlag Berlin Heidelberg, 1997
B. S. Baldwin H. Lomax, "Thin Layer Approximation and Algebraic Model for Separated Turbulent Flows", AIAA paper, 78-257
S. M. Bogdonoff and C. E. Kepler, "Separation of a Supersonic Turbulent Boundary Layer", Journal of the Aeronautical Sciences, 22-6, 1955, 414-430
E. E. Zukoski, "Turbulent Boundary-Layer Separation in Front of a Forward-Facing Step", AIAA Journal, 5-10, 1967, 1746-1753
M. Arens and E. Spiegler, "Shock-Induced Boundary Layer Separation in Overexpanded Conical Exhaust Nozzles", AIAA Journal, 1-3, 1963, 578-581
Y. Miyazato, M. Kashitani, H. D. Kim, H. Katanoda, K. Matsuo, "Shock-Induced Turbulent Boundary Layer Separation in Supersonic Nozzles", Transaction of Japan Society of Mechanical Engineers (series B), 63-607, 1997, 879-886 (in Japanese)
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International Journal of Aerospace Innovations


International Journal of Aerospace Innovations

Print ISSN: 1757-2258

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