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Keywords: acoustic resonance
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Proceedings Papers
Proc. ASME. PVP2023, Volume 3: Fluid-Structure Interaction, V003T04A012, July 16–21, 2023
Publisher: American Society of Mechanical Engineers
Paper No: PVP2023-106295
... Abstract In gas-gas heat exchangers, pure tone noise can be generated by gas flow pass tube arrays when the frequency of vortex shedding is close to that of acoustic modes, which is called acoustic resonance. Such resonance phenomenon usually occurred while serving because it is difficult...
Proceedings Papers
Proc. ASME. PVP2023, Volume 3: Fluid-Structure Interaction, V003T04A015, July 16–21, 2023
Publisher: American Society of Mechanical Engineers
Paper No: PVP2023-106498
... of the shear layer instability in the gap between the cylinders on the excitation of acoustic resonance and its coupling with higher-order acoustic modes. The results show that the tandem cylinders’ position with respect to the acoustic particle velocity anti-nodes of the cross-modes is a significant factor...
Proceedings Papers
Proc. ASME. PVP2022, Volume 3: Fluid-Structure Interaction; High Pressure Technology, V003T04A008, July 17–22, 2022
Publisher: American Society of Mechanical Engineers
Paper No: PVP2022-84907
... Abstract This paper presents an experimental study of the aeroacoustics response from a circular cylinder in cross-flow with a control rod. The effectiveness of the control rod on suppressing acoustic resonance excitation is investigated. The control rod diameter-to-circular cylinder diameter...
Proceedings Papers
Proc. ASME. PVP2013, Volume 4: Fluid-Structure Interaction, V004T04A028, July 14–18, 2013
Publisher: American Society of Mechanical Engineers
Paper No: PVP2013-97149
... Gas flow over ducted cavities can excite strong acoustic resonances within the confined volumes housing the cavities. When the wavelength of the resonant acoustic modes is comparable to, or smaller than, the cavity dimensions, these modes are referred to as trapped acoustic modes. The excitation...
Proceedings Papers
Proc. ASME. PVP2013, Volume 4: Fluid-Structure Interaction, V004T04A071, July 14–18, 2013
Publisher: American Society of Mechanical Engineers
Paper No: PVP2013-97534
... Acoustic resonance in liquid-filled pipe systems is an undesirable phenomenon that cannot always be prevented. It causes noise, vibration, fatigue, instability, and it may lead to damage of hydraulic machinery and pipe supports. If possible, resonance should be anticipated in the design process...
Proceedings Papers
Proc. ASME. PVP2012, Volume 4: Fluid-Structure Interaction, 183-191, July 15–19, 2012
Publisher: American Society of Mechanical Engineers
Paper No: PVP2012-78085
... Acoustic resonance in a two-pipe system is simulated with four different models for the periodic excitation. Analytical solutions are provided in full for the three linear excitations. Exact numerical results are presented for the nonlinear excitation. The influence of a large-diameter supply...
Proceedings Papers
Proc. ASME. PVP2011, Volume 4: Fluid-Structure Interaction, 269-276, July 17–21, 2011
Publisher: American Society of Mechanical Engineers
Paper No: PVP2011-57437
... experimentally and presented in the form of a dimensionless complex source term. Acoustic resonance shallow cavity aeroacoustic source DRAFT - PVP2011-57437 AEROACOUSTIC SOURCE OF A SHALLOW CAVITY IN A PIPELINE S. Mohamed McMaster University Hamilton, Ontario, Canada H. R. Graf Sulzer Innotec...
Proceedings Papers
Proc. ASME. PVP2010, ASME 2010 Pressure Vessels and Piping Conference: Volume 4, 303-314, July 18–22, 2010
Publisher: American Society of Mechanical Engineers
Paper No: PVP2010-25083
... 14 01 2011 The fundamentals of oscillating flow in a reservoir-pipe-orifice system are revisited in a theoretical study related to acoustic resonance experiments carried out in a large-scale pipeline. Four different types of system excitation are considered: forcing velocity, forcing...