Litcius/Paper detail

Kelvin-Helmholtz instability governs the cavitation cloud shedding in Venturi microchannel

Darjan Podbevšek, Martin Petkovšek, Claus‐Dieter Ohl, Matevž Dular

2021International Journal of Multiphase Flow54 citationsDOIOpen Access PDF

Abstract

The paper shows visualization of cavitation inside a micro-Venturi channel.While the initial aim of the study was to establish supercavitating conditions inside a micro-Venturi, yet we found that this regime is suppressed due to the formation of a Kelvin-Helmholtz instability, which triggers a semi periodical attached cavity collapse.In depth observations using high speed imaging with visible light and X-rays revealed that this is, besides the re-entrant jet and the shock wave, a third mechanism leading to the shedding of cloud cavitation.In addition, a simple model was proposed which explains the formation of the Kelvin-Helmholtz instability in cavitating micro-Venturi and also offers explanation on why this is the dominant mechanism of cavitation cloud shedding at small scales.

Topics & Concepts

Venturi effectCavitationInstabilityMechanicsJet (fluid)Shock waveSupercavitationFlow visualizationPhysicsMaterials scienceFlow (mathematics)GeologyInletGeomorphologyCavitation Phenomena in PumpsHydraulic and Pneumatic SystemsUltrasound and Cavitation Phenomena