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Experimental investigation of three-dimensional effects in cavitating flows with time-resolved stereo Particle Image Velocimetry Physics of Fluids

Article dans une revue avec comité de lecture
Author
LONG, Kunpeng
531216 Laboratoire de Mécanique des Fluides de Lille - Kampé de Fériet [LMFL]
ccCOUTIER-DELGOSHA, Olivier
531216 Laboratoire de Mécanique des Fluides de Lille - Kampé de Fériet [LMFL]
47147 Virginia Tech [Blacksburg]
ccBAYEUL-LAINÉ, Annie-Claude
531216 Laboratoire de Mécanique des Fluides de Lille - Kampé de Fériet [LMFL]

URI
http://hdl.handle.net/10985/23284
DOI
10.1063/5.0136242
Date
2023-02
Journal
Physics of fluids

Abstract

The present paper is devoted to characterizing the three-dimensional effects in a cavitating flow generated in a Venturi-type profile. Experimental measurements based on 2D3C(Two-dimensionalthree-component) stereoscopic PIV(Particle Image Velocimetry) are conducted to obtain the three components of the velocity field in multiple vertical planes aligned with the main flow direction, from the center of the channel to the side walls. Time-resolved acquisitions are conducted, so not only time-averaged quantities but also velocity fluctuations can be discussed. The attention was focused on configurations of cloud cavitation, where the attached cavity experiences large-scale periodical oscillations and shedding of clouds of vapor. Although the water channel is purely two-dimensional, some significant flow velocities in the third direction (depth of the test section) were measured. Some of those velocities were found to be related to small differences between the boundary conditions on the two sides, such as minor gaps between the sides and the bottom wall, while others reflect intrinsic three-dimensional mechanisms inside the cavitation area, such as side jets that contribute to the periodical instability process. These mechanisms are discussed, and a possible 3D(Threedimensional) structure of the cavitating flow is proposed.

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