Jet formation from bubbles near a solid boundary in a compressible liquid: Numerical study of distance dependence
Christiane Lechner, Werner Lauterborn, Max Koch, Robert Mettin
Abstract
Bubble expansion and collapse in a Newtonian liquid is studied numerically for a range of dimensionless initial distances from a solid boundary. Bubbles farther from the solid develop the well-known microjet during collapse. However, for bubbles very close to the solid, a different jet mechanism leads to the formation of very fast, thin jets. The results are relevant for a better understanding of cavitational erosion.
Topics & Concepts
MechanicsDimensionless quantityBubbleJet (fluid)CompressibilityBoundary (topology)Range (aeronautics)Non-Newtonian fluidNewtonian fluidPhysicsMaterials scienceSolid surfaceClassical mechanicsBoundary value problemSolid bodyMechanism (biology)Entrainment (biomusicology)Computer simulationThermodynamicsNumerical analysisFluid Dynamics and MixingUltrasound and Cavitation PhenomenaFluid Dynamics and Heat Transfer