THESE de DOCTORAT - cerfacs
THESE de DOCTORAT - cerfacs
THESE de DOCTORAT - cerfacs
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BIBLIOGRAPHY 129<br />
[14] CHIU, H. H., AND SUMMERFIELD, M. Theory of combustion noise. Acta Astronautica<br />
1 (1974), 967–984.<br />
[15] CHRISTOPHE, J., AND MOREAU, S. LES of the trailing-edge flow and noise of a<br />
controlled-diffusion airfoil at high angle of attack. In Proceedings of the Summer Program<br />
2008 (Center for Turbulence Research, NASA AMES, Stanford University, USA,<br />
2008), pp. 1–12.<br />
[16] CLAVIN, P., AND SIGGIA, E. D. Turbulent premixed flames and sound generation.<br />
Combust. Sci. Tech. 78 (1991), 147–155.<br />
[17] COLIN, O., DUCROS, F., VEYNANTE, D., AND POINSOT, T. A thickened flame mo<strong>de</strong>l for<br />
large eddy simulations of turbulent premixed combustion. Phys. Fluids 12, 7 (2000),<br />
1843–1863.<br />
[18] CROCCO, L. Aspects of combustion instability in liquid propellant rocket motors. part<br />
I. J. American Rocket Society 21 (1951), 163–178.<br />
[19] CROCCO, L. Aspects of combustion instability in liquid propellant rocket motors. part<br />
II. J. American Rocket Society 22 (1952), 77–16.<br />
[20] CURLE, N. The influence of solid boundaries upon aerodynamic sound. Proc. R. Soc.<br />
Lond. Series A (1955).<br />
[21] DI MARE, F., JONES, W., AND MENZIES, K. Large-Eddy Simulation of a mo<strong>de</strong>l gas<br />
turbine combustor. Combust. Flame 137 (2004), 278–294.<br />
[22] DOWLING, A. P. The calculation of thermoacoustic oscillations. J. Sound Vib. 180, 4<br />
(1995), 557–581.<br />
[23] ECKSTEIN, J., FREITAG, E., HIRSCH, C., AND SATTELMAYER, T. Experimental study on<br />
the role of entropy waves on low-frequency oscillations for a diffusion burner. In Asme<br />
Turbo Expo. (Viena, Austria, 2004).<br />
[24] EWERT, R., MEINKE, M., AND SCHRÖDER, W. Aeroacoustic source terms for the linearized<br />
Euler equations. AIAA Journal (2000), 2000–2046.<br />
[25] EWERT, R., MEINKE, M., AND SCHRÖDER, W. Comparison of source term formulations<br />
for a hybrid CFD/CAA method. AIAA Journal (2001), 2001–2200.<br />
[26] EWERT, R., AND SCHRÖDER, W. Acoustic perturbation equations based on flow <strong>de</strong>composition<br />
via source filtering. J. Comput. Phys. 188 (2003), 365–398.<br />
[27] FARASSAT, F. Linear acoustics formulas for calculation of rotating bla<strong>de</strong> noise. AIAA<br />
Journal 19, 9 (1981), 1122–1130.<br />
[28] FLEMMING, F., SADIKI, A., AND JANICKA, J. Investigation of combustion noise using a<br />
LES/CAA hybrid approach. In Proc. Combust. Inst. (2007), vol. 31, pp. 3189–3196.<br />
[29] FRAYSSÉ, V., AND ET AL. A set of GMRES routines for real and complex arithmetics on<br />
high performance computers. Tech. rep., CERFACS, 2003.