Synopses & Reviews
This volume covers topics in cavitation bubble dynamics, sound and wave propagation in bubbly mixtures, bubbles in flow, sonoluminescence, acoustic cavitation, underwater explosions, and bursting bubbles at a free surface. The physics and chemistry of sonoluminescence and the modelling of jet impact during bubble collapse are examples of issues which enjoy considerable attention. One of the most exciting areas of contemporary chemistry and physics is single bubble picosecond sonoluminescence. The high pressures and temperatures generated over picoseconds, coupled with previously unachievable rates of reaction have recently attracted attention. High temperatures and pressures are often associated with symmetric bubble collapse; however, asymmetric collapse can typically lead to the development of a damaging ultra-high-speed liquid jet that pierces the collapsing bubble. Occurrence of this high speed jet was reported at both the microscale in laser surgery and the large scale in underwater explosions, but it is also frequently present in collapsing cavitation bubbles. The volume contains a wealth of information on the latest research on a range of topics in bubble dynamics, underwater acoustics and multiphase flow and is an essential reference for scientists and engineers conducting research in these areas.
Synopsis
This volume contains papers presented at the IUTAM Symposium on Bubble Dynamics and Interface Phenomena held at the University of Birmingham from 6-9 September 1993. In many respects it follows on a decade later from the very successful IUTAM Symposium held at CALTECH in June 1981 on the Mechanics and physics of bubbles in liquids which was organised by the late Milton Plesset and Leen van Wijngaarden. The intervening period has seen major development with both experiment and theory. On the experimental side there have been ad- vances with very high speed photography and data recording that provide detailed information on fluid and interface motion. Major developments in both computer hardware and software have also led to extensive improvement in our understand- ing of bubble and interface dynamics although development is still limited by the sheer complexity of the laminar and turbulent flow regimes often associated with bubbly flows. The symposium attracts wide and extensive interest from engineers, physical, chemical, biological and medical scientists and applied mathematicians. The sci- entific committee sought to achieve a balance between theory and experiment over a range of fields in bubble dynamics and interface phenomena. It was our intention to emphasise both the breadth and recent developments in these various fields and to encourage cross-fertilisation of ideas on both experimental techniques and theo- retical developments. The programme, and the proceedings recorded herein, cover bubble dynamics, sound and wave propagation, bubbles in flow, sonoluminescence, acoustic cavitation, underwater explosions, bursting bubbles and ESWL.
Table of Contents
Preface.
Part One: Bubble Dynamics and Bubble Interactions. Bubble dynamics: Some things we did not know ten years ago;
A. Prosperetti. Experimental studies of bubble collapse;
J.E. Field. Interaction of two laser-produced cavitation bubbles near boundaries;
Y. Tomita, K. Sato, A. Shima. Interaction of two laser-induced cavitation bubbles;
K. Jungnickel, A. Vogel. Dynamics of cavitation bubble interactions;
P.B. Robinson, J.R. Blake. Vortex simulations of bubble oscillations;
H.N. Ogammauz. Self-propulsion of bubbles in a weakly nonuniform flow field;
A. Galper, T. Miloh. The dynamics of cavity clusters in polymer aqueous solutions subjected to an oscillating pressure;
A. Shima, T. Tsujino. Dynamics of bubbly clusters and free surfaces at shock wave reflection;
A. Besov, V. Kedrinskii. Time-resolved measurements of shock-wave emission and cavitation-bubble generation in intraocular laser surgery with ps and ns pulses;
A. Vogel, S. Busch. Part Two: Sound and Wave Propagation. On equations of dynamics of bubbly liquids;
R.I. Nigmatulin. Equations describing the propagation of nonlinear modulation waves in bubbly liquids;
N.A. Gumerov. Linear wave propagation in bubbly liquids with a continuous bubble size distribution;
S.L. Gavriliyuk. Active and passive acoustic roles of bubbles in the ocean;
S.W. Yoon, B.K. Choi. Transient bubble oscillations associated with the underwater noise of rain detected optically and some properties of light scattered by bubbles;
J.S. Stroud, P.L. Marston. Cavitation nuclei and thresholds of acoustic cavitation in ocean water;
V.A. Akulichev. Part Three: Bubbles in Flow. Bubble dynamics and the sound emitted by cavitation;
L. van Wijngaarden. Strong bubble/bubble and bubble/flow interactions;
G.L. Chahine. Comparison of observed and calculated shapes of travelling cavitation bubbles;
Y. Kuhn de Chizelle, C.E. Brennen. Patch cavitation in flow past a rigid body;
S.D. Howison, J.D. Morgan, J.R. Ockendon. Dynamic calibration of transient sensors by spark generated cavity;
F. Pereira, M. Farhat, F. Avellan. Observations of cloud cavitation on a stationary 2D profile;
D.F. de Lange, G.J. de Bruin, L. van Wijngaarden. Numerical simulations of rising bubbles;
A. Esmaeeli, E. Ervin, G. Tryggvason. Modelling bubbly flows;
J.C.R. Hunt, J.R. Perkins, K. Lunde, N.H. Thomas. Role of coherent structures in bubble transport by turbulent shear flows;
K.J. Sene, J.C.R. Hunt, R.J. Perkins, N.H. Thomas. A new design of the cavitation susceptibility meter: The venturix;
T.M. Pham, J.M. Michel, Y. Lecoffre. Part Four: Sonoluminescence, Acoustic Cavitation and Ultrasound. Single-bubble sonoluminescence;
L.A. Crum, S. Cordry. Approaching bubble dynamics with lasers, holography and computers;
W. Lauterborn, I. Eick, A. Philipp. Pressure measurements during acoustic cavitation by sonoluminescence;
K.S. Suslick, K.A. Kemper. Bubbles deformation and interface disruption as a source of sonochemical and sonoluminescent activity;
T. Lepoint, N. Foglet, L. Faille, F. Mullie. Sonochemistry -- The chemical uses of cavitation;
T.J. Mason. Response of bubbles to ultrasonic radiation pressure: Dynamics in low gravity and shape oscillations;
P.L. Marston, E.H. Trinh, J. Depew, T.J. Asaki. Surface mode deformations on an oscillating bubble;
S.J. Shaw. Visualisation of laser-induced vapor bubbles and pressure waves;
A.P. Alloncle, D. Dufresne, M. Autric. Part Five: Jet Impact and Underwater Explosions. Low pressure zones under a liquid--solid impact;
A.A. Korobkin. Inertial shocks in surface waves and collapsing bubbles;
M. Longuet-Higgins. Jet formation at a free surface;
D.H. Peregrine, P.R. Prentice. The rebound of toroidal bubbles;
J.P. best. Energy losses in non-classical free surface flows;
W.G. Szymczak. Behaviour of an underwater explosion bubble near a rigid boundary: Theory and experiment;
M. Hooton, J.R. Blake, W.K. Soh. The behavior of a cavitation bubble near a rigid wall;
S. Zhang, J.H. Duncan, G.L. Chahine. Numerical simulation of the interaction of an explosion bubble with submerged spherical pressure vessel;
J.H. Duncan, C.D. Milligan. Part Six: Bursting Bubbles, Coalescence and Internal Phenomena. Bouncing and coalescence phenomena of two bubbles in water;
P.C. Duineveld. Bursting of bubbles stabilised by surfactants for control of cell damage;
A.J. Kowalski, N.H. Thomas. Internal phenomena in bubble motion;
F. Takemura, Y. Matsumoto. Investigations into the use of two frequency excitation to accurately determine bubble sizes;
A.D. Phelps, T.G. Leighton. Index of authors and papers.