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Some investigations on the use of ultrasonics in travelling bubble cavitation control
Published online by Cambridge University Press: 16 April 2004
Abstract
In this paper we report results from some investigations on the use of ultrasonics in controlling travelling bubble cavitation. Control of this type of cavitation, generated using a venturi device, has been achieved by manipulation of potential nuclei using a piezoelectric device, termed the Ultrasonic Nuclei Manipulator (UNM). The performance of the UNM, activated in continuous-wave (CW) and pulsed modes, has been studied over a range of dissolved gas concentration ($C$). The performance under CW-excitation is found to depend sensitively on $C$, with lack of control in near-saturated water samples. Failure to control cavitation at $C \approx 1$ under CW-excitation is suggested to be a result of bubble growth by rectified diffusion under these conditions. The pulsed mode of excitation of the UNM, in such cases, seems to be a very promising alternative. Further improvement is observed by using two piezoelectric crystals, one driven in the CW-mode and the second in pulsed mode, as the UNM. Through carefully designed experimentation, this has been traced to the movement of nuclei under the influence of Bjerknes forces. Besides reduction of noise, other measures of control have been identified and investigated. For example, it has been found that the maximum velocity achievable at the venturi throat can be increased from about 15 m s$^{-1}$ to about 22 m s$^{-1}$ with nuclei manipulation using ultrasonics.
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- © 2004 Cambridge University Press
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