Revealing the origins of vortex cavitation in a Venturi tube by high speed X-ray imaging

Soyama, Hitoshi; Uličný, Jozef; Koliyadu, Jayanath C. P.; Villanueva-Perez, Pablo; Bean, Richard; Giovanetti, Gabriele; Bellucci, Valerio; Liang, Xiaoyu; Sato, Tokushi; Yashiro, Wataru; Asimakopoulou, Eleni Myrto; Korsunsky, Alexander M.; Vagovič, Patrik; Kim, Chan; Kirkwood, Henry J.; Birnsteinova, Sarlota; Eakins, Daniel; Letrun, Romain; Kajiwara, Kentaro; Zhang, Yuhe; Mancuso, Adrian P.
doi:10.1016/j.ultsonch.2023.106715
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000599839 1001_ $$0P:(DE-H253)PIP1091795$$aSoyama, Hitoshi$$b0$$eCorresponding author
000599839 245__ $$aRevealing the origins of vortex cavitation in a Venturi tube by high speed X-ray imaging
000599839 260__ $$aAmsterdam [u.a.]$$bElsevier Science$$c2023
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000599839 520__ $$aHydrodynamic cavitation is useful in many processing applications, for example, in chemical reactors, water treatment and biochemical engineering. An important type of hydrodynamic cavitation that occurs in a Venturi tube is vortex cavitation known to cause luminescence whose intensity is closely related to the size and number of cavitation events. However, the mechanistic origins of bubbles constituting vortex cavitation remains unclear, although it has been concluded that the pressure fields generated by the cavitation collapse strongly depends on the bubble geometry. The common view is that vortex cavitation consists of numerous small spherical bubbles. In the present paper, aspects of vortex cavitation arising in a Venturi tube were visualized using high-speed X-ray imaging at SPring-8 and European XFEL. It was discovered that vortex cavitation in a Venturi tube consisted of angulated rather than spherical bubbles. The tangential velocity of the surface of vortex cavitation was assessed considering the Rankine vortex model.
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000599839 7001_ $$0P:(DE-H253)PIP1102712$$aLiang, Xiaoyu$$b1
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