论文信息 - Acoustic liner optimum impedance for spinning modes with mode cut-off ratio as the design criterion

Acoustic liner optimum impedance for spinning modes with mode cut-off ratio as the design criterion

The theoretical optimum acoustic impedance for higher order spinning modes was studied in cylindrical ducts with a boundary layer at the outer edge of a uniform flow. All of the propagating modes were considered from highly propagating to nearly cut-off. It was observed that the mode cut-off ratio uniquely determined the optimum wall impedance and maximum possible attenuation for a given boundary layer thickness, Mach number and frequency. The implications of this phenomenon are quite important in noise suppressor design. Instead of the acoustic power distribution among all of the propagating modes, only the power distribution as a function of cut-off ratio needs to be known. Also, the far field radiation pattern is a function of modal cut-off ratio, and much needed information for liner design can be obtained from these more easily obtained data.

E. J. Rice | E. Rice

[1] Walter Eversman,et al. Transmission of Sound in Ducts with Thin Shear Layers—Convergence to the Uniform Flow Case , 1972 .

[2] G. F. Homicz,et al. A note on the radiative directivity patterns of duct acoustic modes , 1975 .

[3] S. Ko,et al. Sound attenuation in acoustically lined circular ducts in the presence of uniform flow and shear flow , 1972 .

[4] A. H. Nayfeh,et al. Effect of mean-velocity profile shapes on sound transmission through two-dimensional ducts , 1974 .

[5] M. Lighthill. On displacement thickness , 1958, Journal of Fluid Mechanics.

[6] Brian J. Tester,et al. The optimization of modal sound attenuation in ducts, in the absence of mean flow , 1973 .