Bending a quarter wavelength resonator : Curvature effects on sound absorption properties

Applied Acoustics - Tập 131 - Trang 87-102 - 2018
Tristan Cambonie1, Fulbert Mbailassem1, Emmanuel Gourdon1
1Univ Lyon, ENTPE, LTDS UMR CNRS 5513, 3 Rue Maurice Audin, 69518, Vaulx en Velin Cedex, France

Tài liệu tham khảo

Hannink MHC. Acoustic resonators for the reduction of sound radiation and transmission [Ph.D. thesis] University of Twente, May 2007. Hannink M, Wijnant Y,Boer DA. Optimised sound absorbing trim panels for the reduction of aircraft cabin noise. In: Eleventh international congress on sound and vibration, St. Petersburg, Russia 5–8 July 2004. p. 1855–62. van der Eerden F. Sound absorption and reflection with coupled tubes. In: 3rd B2000 workshop at the University of Twente, Enschede, the Netherlands; 2000. Field, 1998, Theory and applications of quarter-wave resonators: a prelude to their use for attenuating noise entering buildings through ventilation openings, Appl Acoust, 53, 117, 10.1016/S0003-682X(97)00035-2 Kirchhoff, 1868, Ueber den einfluss der wärmeleitung in einem gase auf die schallbewegung, Ann Phys, 210, 177, 10.1002/andp.18682100602 Helmholtz HV. Verhandlung der naturhistorish-medizinischen vereins zu heidelberg, Bd III, vol. 16; 1863. Stinson, 1991, The propagation of plane sound waves in narrow and wide circular tubes, and generalization to uniform tubes of arbitrary cross-sectional shape, J Acoust Soc Am, 89, 550, 10.1121/1.400379 Rayleigh, 1896, vol. 2 Weston, 1953, The theory of the propagation of plane sound waves in tubes, Proc Phys Soc Sect B, 66, 695, 10.1088/0370-1301/66/8/310 Zwikker, 1949 Tijdeman, 1975, On the propagation of sound waves in cylindrical tubes, J Sound Vib, 39, 1, 10.1016/S0022-460X(75)80206-9 Iberall, 1950, Attenuation of oscillatory pressures in instrument lines, J Res Natl Bureau Stand, 10.6028/jres.045.008 Karam, 1967, The frequency response of pneumatic lines, J Basic Eng, 89, 371, 10.1115/1.3609610 van der Eerden FJM. Noise reduction with coupled prismatic tubes [Ph.D. dissertation]. University of Twente, Enschede, the Netherlands, November 2000. Félix, 2012, Effects of bending portions of the air column on the acoustical resonances of a wind instrument, J Acoust Soc Am, 131, 4164, 10.1121/1.3699267 Nederveen, 1998, Influence of a toroidal bend on wind instrument tuning, J Acoust Soc Am, 104, 1616, 10.1121/1.424374 Brindley, 1973, Speed of sound in bent tubes and the design of wind instruments, Nature, 246, 479, 10.1038/246479a0 Keefe, 1983, Wave propagation in strongly curved ducts, J Acoust Soc Am, 74, 320, 10.1121/1.389681 ISO 10534-2. Acoustics – Determination of sound absorption coefficient and impedance in impedance tubes – Part 2: Transfer-function method; 2003. Mbailassem F. Contrôle du bruit par effets de localisation par géométries irrégulères [Ph.D. thesis]. No d’ordre NNT: 2016LYSEI095, Université de Lyon; 2016. Nijhof, 2010 Kampinga, 2010 Kampinga, 2011, An efficient finite element model for viscothermal acoustics, Acta Acustica united with Acustica, 97, 618, 10.3813/AAA.918442 Eerden, 2000 Stinson, 1992, Propagation of sound and the assignment of shape factors in model porous materials having simple pore geometries, J Acoust Soc Am, 91, 685, 10.1121/1.402530 Bies, 2003 Allard, 2009 Jaouen L. Some comments on the expression of the end corrections of ducts and perforations for linear acoustics and large wavelength To be published in Acta Acustica with Acustica; 2017. Pierce, 1991 Soh, 1984, Laminar entrance flow in a curved pipe, J Fluid Mech, 148, 109, 10.1017/S0022112084002275 Bovendeerd, 1987, Steady entry flow in a curved pipe, J Fluid Mech, 177, 233, 10.1017/S0022112087000934 Sudo, 1992, Secondary motion of fully developed oscillatory flow in a curved pipe, J Fluid Mech, 237, 189, 10.1017/S0022112092003380