论文信息 - Study on cavitation inception in hydraulic oil flow through a long two-dimensional constriction

Study on cavitation inception in hydraulic oil flow through a long two-dimensional constriction

Abstract It is known that the traditional ‘nucleus’ theory for cavitation is incompatible with certain facts physically and experimentally recognizable in oil hydraulic flows. In order to re-examine this issue, cavitation of hydraulic oil flow through a long two-dimensional acrylic constriction was observed by various techniques: stroboscopic photography with a microscope, laser beam transmission, pressure and noise measurements, and luminescence and electrical charge detection. It was revealed that, at the incipient stage of cavitation, one stationary microscopic cavity always emerges suddenly on the inlet edge. Light emission was also observed in the cavitation together with electrostatic charge. All the findings taken together, which cannot be consistently explained by nucleus theory, lead to the following hypothesis: at the separation point a tensile force rips a liquid particle from the wall, leaving behind a vacuum space, which forms the incipient stationary cavity on the edge.

[1] Allan J. Acosta,et al. Viscous Effects in the Inception of Cavitation on Axisymmetric Bodies , 1973 .

[2] Joseph Katz,et al. Cavitation phenomena within regions of flow separation , 1984 .

[3] T. Konishi,et al. Rupture of an oil column under sudden tensile stress. , 1990 .

[4] Seiichi Washio,et al. Creation and Observation of Tensile Waves in Oil Column , 1994 .

[5] D H Trevena,et al. Cavitation and the generation of tension in liquids , 1984 .

[6] J. William Holl,et al. Nuclei and Cavitation , 1970 .

[7] K. J. Taylor,et al. Light emission from cavitating water , 1964 .

[8] R. T. Knapp. Cavitation and Nuclei , 1958, Journal of Fluids Engineering.

[9] A. Hayward. The role of stabilized gas nuclei in hydrodynamic cavitation inception , 1970 .

[10] Leonard Liebermann,et al. Air Bubbles in Water , 1957 .

[11] T. Kao,et al. Experimental investigations of the stability of channel flows. Part 1. Flow of a single liquid in a rectangular channel , 1970, Journal of Fluid Mechanics.