1) Standing waves with maximum pressures of 188 kPa have been produced in resonators containing ambient pressure air; 2) Addition of structures inside the resonator shifts the fundamental frequency and decreases the amplitude of the generated pressure waves; 3) Addition of holes to the resonator does reduce the magnitude of the acoustic waves produced, but their addition does not prohibit the generation of large magnitude non-linear standing waves; 4) The feasibility of reducing leakage using non-linear acoustics has been confirmed
We have investigated the distribution of sound pressure levels in the Helmholtz resonators over a wi...
The study investigates the effect of changing various input parameters on the pressure responses at ...
Sound waves are longitudinal waves. In a longitudinal wave, particles of medium vibrations are paral...
Lawrenson et. al. [Journal of the Acoustic Society of America, Nov. 1998] described the generation o...
This presentation presents work on numerical investigations of nonlinear acoustic phenomena in reson...
Leakage and wear are two fundamental problems in all traditional turbine seals that contribute to an...
The finite-amplitude standing wave behavior of air within several tubes was experimentally investiga...
Investigation of high amplitude pressure oscillations generated by boundary driving in shaped resona...
International audienceAn experimental and theoretical study of the pressure oscillations generated b...
Optimizing resonator shapes for maximizing the ratio of maximum to minimum gas pressure at an end of...
International audienceAn experimental and theoretical study of the pressure oscillations generated b...
International audienceAn experimental and theoretical study of the pressure oscillations generated b...
A dissonant acoustic resonator with a conical shaped cavity was tested in four configurations: (A) b...
In this work it has been shown experimentally that it is possible to create a high pressure with an ...
It is well known that the resonator geometry strongly influences the resonant frequencies of an acou...
We have investigated the distribution of sound pressure levels in the Helmholtz resonators over a wi...
The study investigates the effect of changing various input parameters on the pressure responses at ...
Sound waves are longitudinal waves. In a longitudinal wave, particles of medium vibrations are paral...
Lawrenson et. al. [Journal of the Acoustic Society of America, Nov. 1998] described the generation o...
This presentation presents work on numerical investigations of nonlinear acoustic phenomena in reson...
Leakage and wear are two fundamental problems in all traditional turbine seals that contribute to an...
The finite-amplitude standing wave behavior of air within several tubes was experimentally investiga...
Investigation of high amplitude pressure oscillations generated by boundary driving in shaped resona...
International audienceAn experimental and theoretical study of the pressure oscillations generated b...
Optimizing resonator shapes for maximizing the ratio of maximum to minimum gas pressure at an end of...
International audienceAn experimental and theoretical study of the pressure oscillations generated b...
International audienceAn experimental and theoretical study of the pressure oscillations generated b...
A dissonant acoustic resonator with a conical shaped cavity was tested in four configurations: (A) b...
In this work it has been shown experimentally that it is possible to create a high pressure with an ...
It is well known that the resonator geometry strongly influences the resonant frequencies of an acou...
We have investigated the distribution of sound pressure levels in the Helmholtz resonators over a wi...
The study investigates the effect of changing various input parameters on the pressure responses at ...
Sound waves are longitudinal waves. In a longitudinal wave, particles of medium vibrations are paral...
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