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  1. Home
  2. Books
  3. Suspension Acoustics
  • Cited by 83
Publisher:
Cambridge University Press
Online publication date:
August 2009
Print publication year:
2005
Online ISBN:
9780511546129
DOI:
https://doi.org/10.1017/CBO9780511546129
Subjects:
Engineering, Chemical Engineering, Thermal-Fluids Engineering
Information

Book description

This book is an introduction to the physics of suspensions of bubbles, droplets, and solid particles in both gases and fluids. Rather than treating each combination separately, a unified approach is used that permits most particle-fluid combination types to be discussed together. To do this, the book first presents a detailed discussion of the basic particle motions that small particles can sustain, paying particular attention to translations and pulsations, and to the thermal effects that occur as a result of those motions. The book then introduces the reader to the dynamics and thermodynamics of suspensions, with acoustic motions providing the main focus in the latter part of the book. The important acoustic problems of attenuation and dispersion are discussed from several fundamental perspectives. The book concludes with applications of acoustic techniques to the characterization and modification of suspensions by means of acoustic waves.

Reviews

'… the analyses included in the text are all self contained; a student can work out all of them. I feel it is this analytical 'no nonsense' style that makes this book endearing in this age of easy computation. It is a good reminder of how analytical solutions of simplified systems can provide useful insights. I would recommend that all serious students and experienced researchers of the field keep this volume handy in their collections.'

Kausik Sarkar Source: Journal of the Acoustical Society of America

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Contents

Contents
References
Bibliography
Books
BASIC PHYSICS AND MATHEMATICS
Fluid mechanics
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Young, F. R. 1989 Cavitation, McGraw-Hill
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RESEARCH ARTICLES
Acoustics of suspensions
General suspensions
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Epstein, P. S. and Carhart, R. R. 1953 The absorption of sound in suspensions and emulsions, I. Water fog in air, J. Acoust. Soc. Amer. 25, 553–565
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Morfey, C. L. 1968 Sound attenuation by small particles in a fluid, J. Sound Vib. 8, 156–170
Temkin, S. 1992 Sound speeds in suspensions in thermodynamic equilibrium, Phys. Fluids A 4, 2399–2409
Temkin, S. 1996 Viscous attenuation of sound in dilute suspensions of rigid particles, J. Acoust. Soc. Amer. 100, 825–831
Temkin, S. 1998 Sound propagation in dilute suspensions of rigid particles, J. Acoust. Soc. Amer. 103, 838–849
Temkin, S. 2000 Attenuation and dispersion of sound in dilute suspensions of spherical particles, J. Acoust. Soc. Amer. 108, 126–146
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Aerosols
Chu, B. T. 1960 Thermodynamics of a dusty gas and its applications to some aspects of wave propagation in the gas, Brown University, Division of Engineering Report No. DA-4761/1
Cole, J. III and Dobbins, R. A. 1970 Propagation of sound through atmospheric fog, J. Atmos. Sci. 27, 426–434
Cole, J. E. III and Dobbins, R. A. 1971 Measurements of the attenuation of sound in a warm air fog, J. Atmos. Sci. 28, 202–209
Davidson, G. A. and Scott, D. S. 1973 Finite-amplitude acoustics of aerosols, J. Acoust. Soc. Amer. 53, 1717–1729
Davidson, G. A. and Scott, D. S. 1973 Finite-amplitude acoustic phenomena in aerosols from a single governing equation, J. Acoust. Soc. Amer. 54, 1331–1342
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Bubbly liquids
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Emulsions
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Hydrosols
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Breakup, collision, and coalescence
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Bubble and droplet formation
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Cavitation and sonoluminescence
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Evaporation and condensation
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Heat transfer
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Miscellaneous
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Model equations
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Numerical methods
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Particle interactions
Batchelor, G. K. and Green, J. T. 1972 The hydrodynamic interaction of two small freely-moving spheres in a linear flow field, J. Fluid Mech. 56, 375–400
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Sedimentation
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Single-particle motions
Translational
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Pulsational
Crum, L. A. 1983 The polytropic exponent of gas contained within air bubbles pulsating in a liquid, J. Acoust. Soc. Amer. 73, 116–120
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Prosperetti, A. 1977 Thermal effects and damping mechanisms in the forced radial oscillations of gas bubbles in liquids, J. Acoust. Soc. Amer. 61, 17–27
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Rotational
Lee, C. P., Lyell, M. J., and Wang, T.G 1985 Viscous damping of the oscillations of a rotating simple drop, Phys. Fluids 28, 3187–3188
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Shape deformations
Chiu, H. H. 1970 Dynamics of deformation of liquid drops, Astronautica Acta 15, 199–213
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Coupled-mode motions
Faxen, H. 1921 Einwirkung der Gefäßwände auf den Widerstend gegen die Bewegung einer kleinen Kugel in einer Zähen Flussigkeit. Diss. Upsala. (See Oseen, 1927, Section 9.)
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Longuet-Higgins, M. S. 1989 Monopole emission of sound by asymmetric bubble oscillations. Part 2. An initial-value problem, J. Fluid Mech. 201, 543–565
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Size distributions
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Size measurement techniques
Davis, M. C. 1978 Coal slurry diagnostics by ultrasound transmission, J. Acoust. Soc. Amer. 64, 406–410
Dobbins, R. A. 1963 Measurement of mean particle size in a gas-particle flow, AIAA J. 1, 1940–1942
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Newhouse, V. L. and Shankar, P. M. 1984 Bubble size measurements using the nonlinear mixing of two frequencies, J. Acoust. Soc. Amer. 75, 1473–1477
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Stokeslets and other singularities
Jeffrey, D. J. 1992 The calculation of the low Reynolds number resistance functions for two unequal spheres, Phys. Fluids A 4, 16–29
Kim, S. and Mifflin, R. T. 1985 The resistance and mobility functions of two equal spheres in low-Reynolds-number flow, Phys. Fluids 28, 2033–2045
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Suspension motions (nonacoustic)
Aerosols (dusty gases)
Buresti, G. and Casarosa, C. 1989 One dimensional adiabatic flow of equilibrium gas-particle mixtures in long vertical ducts with friction, J. Fluid Mech. 203, 251–272
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Ishii, R. and Umeda, Y. 1987 Nozzle flows of gas-particle mixtures, Phys. Fluids 30, 752–760, 1987
Liu, J. T. C. 1965 On the hydrodynamic stability of parallel dusty gas flow, Phys. Fluids 8, 1939–1945
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Miura, H. and Glass, I. I. 1983 On the passage of a shock wave through a dusty-gas layer, Proc. R. Soc. Lond. A 385, 85–105
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Rudinger, G. 1970 Gas-particle flow in convergent nozzles at high loading ratio, AIAA J. 8, 1288–1294
Rudinger, G. and Chang, A. 1964 Analysis of nonsteady two-phase flow, Phys. Fluids 7, 1747–1754
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Sauerwein, H. and Fendell, F. E. 1965 Method of characteristics in two-phase flow, Phys. Fluids 8, 1564–1565
Schubert, Schmitt-von B. 1969 Existence and uniqueness of normal shock waves in gas-particle mixtures, J. Fluid Mech. 38, 633–655
Tomita, Y., Tashio, H., Deguchi, K., and Jotaki, T. 1980 Sudden expansion of gas-solid two-phase flow in a pipe, Phys. Fluids 23, 663–666
Bubbly liquids
Hsieh, D.-Y.Some aspects of dynamics of bubbly liquids, Appl. Sci. Res. 38, 305–312, 1982
Ishii, R., Umeda, Y., Murata, S., and Shishido, N. 1993 Bubbly flows through a converging-diverging nozzle, Phys. Fluids A 5, 1630–1643
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Wijngaarden, L.. On the structure of shock waves in liquid-bubble mixtures, Appl. Sci. Res. 22, 366–381
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Transport properties
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