Litcius/Paper detail

Packets of Capillary and Acoustic Waves of Drop Impact

Yu. D. Chashechkin

2021Herald of the Bauman Moscow State Technical University Series Natural Sciences15 citationsDOI

Abstract

Flows, capillary waves, and acoustic signals generated by a drop of water falling into a pool of degassed liquid were recorded by a high-speed video camera, hydro-phone, and microphone. A large-scale analysis of the system of equations was performed. The fast conversion of available surface potential energy is traced. The converted energy is stored in a thin layer in the vicinity of the merged free surfaces and creates large perturbations of temperature, pressure and flow velocity. Capillary waves start to radiate simultaneously with the formation of a cavity and the rise of the crown. New groups of capillary waves arise with all changes in the flow structure --- the formation and immersion of a splash, come back of secondary drops, the formation of cavities, the immersion of a streamer and droplets. Simultaneously with the waves, ligaments --- thin near-surface flows are formed that affect the transport and rupture of gas cavities. Thin flows quickly decay and form again when a new group of capillary waves is generated. A comparison of flow patterns and acoustic signals indicates that the generation of resonant sound packets is synchronized with the pinch-off gas fragments from the cavity or their breaking. The duration of the sound depends on the initial heterogeneity of the geometry of the sounding cavity, gradually transforming into a smooth spheroidal form

Topics & Concepts

Capillary actionMechanicsDrop (telecommunication)Acoustic waveCapillary waveMaterials scienceWakeSplashMicrophoneAcousticsOpticsPhysicsSound pressureSurface waveMeteorologyComposite materialTelecommunicationsComputer scienceFluid Dynamics and Heat TransferElectrohydrodynamics and Fluid DynamicsSurface Modification and Superhydrophobicity