Abstract
In a cavitating water jet, cavity clouds emerge and collapse with an unsteady, but periodic tendency where the frequencies depend on the working conditions. The presented work aims at examining and analyze the dynamic behavior and properties of the clouds under different circumstances. Computer vision and image processing were introduced as tools to define the cavitation clouds based on the Contour Recognition technique. A Canny operator and Otsu threshold fragmenting methods were used. The use of these methods allows for a better understanding of the cavitating jet clouds' behavior based on the pixel intensities and shows that for an arbitrary cloud the surface itself has a dynamic feature and depends on the cavity composition. The clouds' properties could be measured and correlated to the applied working conditions. Also, the oscillation frequencies of the area of the clouds could be determined. The analysis shows that the quality of the obtained results depends mainly on the input threshold values separating the foreground and background pixels. The difficulty of defining the threshold value is discussed in the paper, as well as the validity of using the Contour Recognition technique in this field.
Highlights
Cavitation is considered as a complex phenomenon involving high speed, high pressure, multiple phases, phase transition, turbulence, and unstable features
The 3d surface graphs and 2d contour plots are the same. They are just different representations of the information content that is extracted from the grayscale image, captured by a high-speed camera. 3d surface plots do not reflect any reliable information about the 3d cavitation cloud topology
An experimental study was conducted to investigate the characteristics of the cavitating water jet, which deserves attention because of the highly impulsive cavitation cloud with periodic, but unsteady behavior
Summary
Cavitation is considered as a complex phenomenon involving high speed, high pressure, multiple phases, phase transition, turbulence, and unstable features. For further improvement of cavitating water jet generators, the basic theory of cavitation behavior, impact-pressure distribution, and related parameters should be investigated (Hitoshi et al 2009; Hutli et al 2013a, 2016a, b, 2018). Many researchers have shown that the cavitating water jet produces periodical cavitation clouds and produces strong impacts through cloud collapsing (Yamaguchi and Shimizu 1987; Vijay et al 1990; Soyama et al 1994; Hutli and Nedeljkovic 2008). The understanding of the cavitation cloud behavior and the dynamics of individual bubbles is essential to increase the application fields of the cavitation. The cavitating jet generator is a tool to create intensive, fast, controllable, coherent structure and severe cavitation phenomenon which is suitable for cavitation study and application
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