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/content/asa/journal/arlo/6/1/10.1121/1.1815253
1.
1.R.S. Brown, R. Dunlap, S.W. Young, and R.C. Waugh, “Vortex shedding as a source of acoustic energy in segmented solid rockets,” J. Spacecraft 18, 312319 (1981).
2.
2.F.E.C. Culick and K. Magiawala, “Excitation of acoustic modes in a chamber by vortex shedding,” J. Sound Vib. 64, 455457 (1979).
3.
3.G.A. Flandro, “Vortex driving mechanism in oscillatory rocket flows,” J. Prop. 2, 206214 (1986).
4.
4.C. Fureby, “A computational study of combustion instabilities due to vortex shedding,” in Proceedings of the Combustion Institute (2000), Vol. 28, pp. 783–791.
5.
5.J.E. Rossiter, “Wind tunnel experiments on the flow over rectangular cavities at subsonic and transonic speeds,” Aeronautical Research Council, Report and Memorandum, No. 3438 (1964).
6.
6.R.D. Blevins, Flow-Induced Vibration (Van Nostrand, New York, 1977).
7.
7.J.C. Bruggeman, A. Hirschberg, M.E.H. van Dongen, A.P.J. Wijnands, and J. Gorter, “Flow induced pulsations in gas transport systems: analysis of the influence of closed side branches,” J. Fluids Eng. 111, 484491 (1989).
8.
8.K. Hourigan, M.C. Welsh, M.C. Thompson, and A.N. Stokes, “Aerodynamic sources of acoustic resonance in a duct with baffles,” J. Fluids Struct. 4, 345370 (1990).
9.
9.M.S. Howe, “Contributions to the theory of aerodynamic sound, with application to excess jet noise and the theory of the flute,” J. Fluid Mech. 71, 625673 (1975).
10.
10.M.S. Howe, Acoustics of Fluid-Structure Interactions (Cambridge U.P., Cambridge, 1998).
11.
11.K.I. Matveev and F.E.C. Culick, “A model for combustion instability involving vortex shedding,” Combust. Sci. Technol. 175, 125 (2003).
12.
12.W.-H. Jou and S. Menon, “Modes of oscillation in a nonreacting ramjet combustor flow,” J. Prop. 6, 535543 (1990).
13.
13.F.E.C. Culick, “Nonlinear behavior of acoustic waves in combustion chambers,” Acta Astron. 3, 714757 (1976).
14.
14.A.A. Andronov, A.A. Vitt, and S.E. Khaikin, Theory of Oscillators (Dover, New York, 1987).
15.
15.R.R. Clements, “An inviscid model of two-dimensional vortex shedding,” J. Fluid Mech. 57, 321336 (1973).
16.
16.J.P. Castro, “Vortex shedding from a ring in oscillatory flow,” J. Wind Eng. Ind. Aerodyn. 71, 387398 (1997).
17.
17.M. Mettenleiter, E. Haile, and S. Candel, “Adaptive control of aeroacoustic instabilities,” J. Sound Vib. 230, 761789 (2000).
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2004-10-27
2016-12-04
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