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Refined multiload method for measuring acoustical source characteristics of an intake or exhaust system
1.M. G. Prasad, “A four load method for evaluation of acoustical source impedance in a duct,” J. Sound Vib. 114, 347–356 (1987).
2.M. G. Prasad and M. J. Crocker, “On the measurement of the internal source impedance of a multi-cylinder engine exhaust system,” J. Sound Vib. 90, 479–508 (1983).
3.M. L. Kathuriya and M. L. Munjal, “Experimental evaluation of the aeroacoustic characteristics of a source of pulsating gas flow,” J. Acoust. Soc. Am. 65, 240–278 (1979).
4.A. G. Galaitsis and E. K. Bender, “Measurement of the acoustic impedance of an internal combustion engine,” J. Acoust. Soc. Am. (Suppl. 1) 58, S8(A) (1975).
5.D. F. Ross and M. J. Crocker, “Measurement of the acoustical internal impedance of an internal combustion engine,” J. Acoust. Soc. Am. 74, 18–27 (1983).
6.A. F. Seybert and D. F. Ross, “Experimental determination of acoustic properties using a two-microphone random-excitation technique,” J. Acoust. Soc. Am. 61, 1362–1370 (1977).
7.M. L. Munjal and A. G. Doige, “The two-microphone method incorporating the effects of mean flow and acoustic damping,” J. Sound Vib. 137, 135–138 (1990).
8.T. Fujimori, S. Sato, and H. Miura, “An automated measurement system of complex sound pressure reflection coefficients,” Proc. Inter Noise 84, 1009–1014 (1984).
9.S.-H. Jang and J.-G. Ih, “On the multiple microphone method for measuring in duct acoustic properties in the presence of mean flow,” J. Acoust. Soc. Am. 103, 1520–1526 (1998).
10.B. S. Sridhara and M. J. Crocker, “Error analysis for the four-load method used to measure the source impedance in ducts,” J. Acoust. Soc. Am. 92, 2924–2931 (1992).
11.L. Desmons and J. Hardy, “A least squares method for evaluation of characteristics of acoustical sources,” J. Sound Vib. 175, 365–376 (1994).
12.H. Bodén, “On multi-load methods for determination of the source data of acoustic one-port sources,” J. Sound Vib. 180, 725–743 (1995).
13.M. L. Munjal and A. G. Doige, “On the relation between convective source characteristics and their acoustic counterparts,” J. Sound Vib. 136, 343–346 (1990).
14.H. Bodén and M. Åbom, “Maximum sound power from in-duct sources with applications to fans,” J. Sound Vib. 187, 543–550 (1995).
15.A. G. Doige and H. S. Alves, “Experimental characterization of noise sources for duct acoustics,” Trans. ASME, J. Vib., Acoust Stress Rel. Design 111, 108–114 (1989).
16.B. S. Sridhara and M. J. Crocker, “Prediction of sound pressure radiated from open end of a pipe and muffler insertion loss using a single, efficient scheme: Application to a vacuum pump,” J. Acoust. Soc. Am. 99, 1333–1338 (1996).
17.J.-G. Ih, S.-H. Jang, S.-J. Kim, and J.-S. Shim, “Measurement of the acoustic source characteristics of the intake port in the refrigerator compressor,” Proceedings of the 1998 International Compressor Engineering Conference, Purdue, 1998, pp. 561–564.
18.J.-S. Lee and J.-G. Ih, “On the method for estimating the volume velocity of an acoustic source in a chamber,” J. Sound Vib. 182, 505–522 (1995).
19.A. Michalke, F. Arnold, and F. Holste, “On the coherence of the sound field in a circular duct with uniform mean flow,” J. Sound Vib. 190, 261–271 (1996).
20.M. L. Munjal, Acoustics of Ducts and Mufflers (Wiley-Interscience, New York, 1987).
21.R. M. Munt, “Acoustic transmission properties of a jet pipe with subsonic jet flow: I. The cold jet reflection coefficient,” J. Sound Vib. 142, 413–436 (1990).
22.H. Bodén and F. Albertson, “In-duct acoustic one-port sources, linear or nonlinear?” Proc. Inter Noise 98, 227–230 (1998).
23.V. H. Gupta and M. L. Munjal, “On numerical prediction of the acoustic source characteristics of an engine exhaust system,” J. Acoust. Soc. Am. 92, 2716–2725 (1992).
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