Abstract
A numerical procedure for the numerical simulation of a flow-impedance tube is presented and validated by the author [16]. This method is extended in the present paper to numerical simulation of noise radiation from lined ducts and to non-linear propgation of plane-wave in 2D and axisymetric lined duct.
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C.K.W. Tam & J.C. Webb, Dispersion-Relation-Preserving Finite Difference Schemes for Computational Acoustics, J. Compute. Phys. 107, 262–282, 1993
C. Campos-Pozuelo, B. Dubus & J.A. Galego-Juarez, Finite-Element analysis of the nonlinear propagation of high-intensity acoustic waves, J. Acoust. Soc. Am. 106 (1) 91–101, July 1999.
Ozyoruk, Y., Long, L. N. & Jones, M. G., Time-domain numerical simulation of a flow-impedance tube, Journal of Computational Physics, 146, 29–57,1998.
Tester, B. J., The propagation and attenuation of sound in lined ducts containing plug flow, Journal of Sound and Vibration, 28,151–203,1973.
Ozyoruk, Y., E. Alpman, V. Ahuja & Long, L. N. A frequency-domain numerical method for noise radiation from ducted fans AIAA-2002-2587
D. Stanescu, M.Y Hussaini & F. Farassat, Aircraft engine noise scattering A discontinuous spectral element approach
T.L. Parott, W.R. Watson, & M.G. Jones Experimental validation of a two-dimensional shear flow model for determining acoustic impedance NASA TP-2679, 1987.
R.J, Astley, G.J. Macaulay, J.P. Coyette & L. Cremers Three-dimensional wave-envelope elements of variable order for acoustic radiation and scattering. Part I. Formulation in the frequency domain J. Acoust. Soc. Am. 103 (1) Jan. 1998
M. McMullen A. Jameson & J. J. Alonso, Application of a non-linear frequency domain to the Euler and Navier-Stokes equations AIAA-2002-0120, 40th AIAA ASME, Reno, NV, 2002
K.C. Hall, J.P. Thomas & W.S. Clark, Computation of unsteady non-linear flows in cascade using harmonic balance technique, Proceedings of the 9th International Symposium on Unsteady Aerodynamics, Aeroacoustics and Aeroelasticity of Turbomachines, Lyon, France September 2000, p. 409–426
D.V. Gaitonde & M.R. Visbal, Further development of Navier-Sokes solution procedure based on higher-order formulas. AIAA99–0557, 37th AIAA AIAA ASME, Reno, NV, 1999
M.B. Giles Nonreflecting boundary condition for Euler equation calculations AIAA Journal 28 (12) 2050 1990.
Y Ozyoruk & L.N. Long Time-domain calculation of sound propagation in lined ducts with sheared flows 5th AIAA-CEAS AIAA-99-1817
H. Ju & K.Y Fung, Time-domain impedance boundary conditions with mean flow effects AIAA Journal Vol. 39, No 9, 2001, pp. 1683–1690
J. H. Lan, Y Guo & C. Breard, Validation and application of two frequency domain acoustic propagation codes AIAA-2003-3244 9th AIAA/CEAS Aeroacoustics Conference and Exhibit
C. BÅ•reard, Acoustic propagation and radiation modeling of lined duct with linear and non-linear freequency-domain solver AIAA-2003-3265 9th AIAA/CEAS Aeroacoustics Conference and Exhibit
R.J. Silcox, Experimental investigation of geometry and flow effects on acoustic radiation from duct inlets. AIAA-83-0713, 8th Aeroacoustics Conference, Atlanta, 1983
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Breard, C. (2006). A FREQUENCY-DOMAIN SOLVER FOR THE NON-LINEAR PROPAGATION AND RADIATION OF FAN NOISE. In: Hall, K.C., Kielb, R.E., Thomas, J.P. (eds) UNSTEADY AERODYNAMICS, AEROACOUSTICS AND AEROELASTICITY OF TURBOMACHINES. Springer, Dordrecht. https://doi.org/10.1007/1-4020-4605-7_21
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