Litcius/Paper detail

Experimental study of the evolution of water-entry cavity bubbles behind a hydrophobic sphere

Q. Zhang, Zhi Zong, Tiezhi Sun, Z. Y. Chen, H. T. Li

2020Physics of Fluids27 citationsDOI

Abstract

This paper describes an experimental investigation of the cavity evolution and shedding wake behind a hydrophobic sphere during the water-entry process. Two distinct shedding phenomena are confirmed by varying the impact velocity and sphere size: regular air-bubble shedding and unstable air-cloud shedding. Both of these modes are highly dependent on the Weber and Bond numbers. Under the air-bubble shedding mode, approximately periodic big bubble shedding and low-frequency oscillation signals are observed. The relationship between big bubble shedding events and the corresponding acoustic signals is derived, and an empirical method for predicting the shedding period is proposed. The in-phase relationship between small bubble shedding and cavity rippling is confirmed, and we refer to the cavity shedding phenomenon as “acoustic” shedding. Unlike the observations of air-bubble shedding, the air-cloud shedding mode produces a group of disordered small bubbles from the rear of the cavity. Moreover, the cavity seal type has a significant effect on the cavity shedding mode. A deep seal always promotes the onset of air-cloud shedding, whereas surface seals with relatively low Bond numbers result in the air-bubble shedding mode. A surface seal suppresses resonance in the cavity volume. By observing the cavity motion, we find that air-cloud shedding is always accompanied by severe cavity resonance and a rapid decrease in cavity length. Under the air-bubble shedding mode, the cavity motion exhibits relatively weak oscillations.

Topics & Concepts

BubbleVortex sheddingPhysicsCavity wallMechanicsResonance (particle physics)Oscillation (cell signaling)OpticsMaterials scienceAtomic physicsChemistryComposite materialReynolds numberTurbulenceBiochemistryFluid Dynamics Simulations and InteractionsFluid Dynamics and Heat TransferCoastal and Marine Dynamics