Litcius/Paper detail

Controlling the Dynamics of Cloud Cavitation Bubbles through Acoustic Feedback

Kazuki Maeda, Adam D. Maxwell

2021Physical Review Applied12 citationsDOIOpen Access PDF

Abstract

Cloud cavitation causes nontrivial energy concentration and acoustic shielding in liquid and its control is a long-standing challenge due to complex dynamics of bubble clouds. We present a framework to study closed-loop control of cavitation through acoustic feedback. While previous approaches have used empirical thresholding, we employ model-based state estimation of coherent bubble dynamics based on theory and high-performance computing. Using a pulsed ultrasound setup, we demonstrate set-point control of the pulse-repetition frequency (PRF) to modulate acoustic cavitation near a solid target over $O(100)$ s. We identify a quasiequilibrium correlation between the PRF and the bubble dynamics and an optimal PRF to minimize acoustic shielding of the target. This framework can be readily scaled up by enhanced acoustic sensing and computational power.

Topics & Concepts

CavitationBubbleAcousticsDynamics (music)Electromagnetic shieldingPhysicsMechanicsUltrasoundEnergy (signal processing)Materials scienceVibrationAcoustic radiationCloud computingAcoustic waveAir bubbleFeedback controlUltrasound and Cavitation PhenomenaUltrasound and Hyperthermia ApplicationsCavitation Phenomena in Pumps