Hydrodynamic interaction between gas bubbles in liquid

L. Van Wijngaarden; D. J. Jeffrey

doi:10.1017/S0022112076001110

Abstract

A calculation is given of the velocity which a cloud of identical gas bubbles acquires when the liquid in which the cloud is immersed is impulsively accelerated. From the results an expression follows for the effective virtual mass of a bubble in a gas-bubble/liquid mixture. Further consideration is given to that part of the momentum flux in the mixture associated with relative motion between liquid and bubbles. An expression for this quantity is derived which appears to differ from the one used in practice. It is shown that qualitative support for the expression obtained here is provided by experimental observations reported in the literature.

References

Batchelor, G. K. 1972 Sedimentation in a dilute dispersion of spheres. J. Fluid Mech. 52, 4, 245.Google Scholar

Batchelor, G. K. 1974 Transport properties of two-phase materials with random structure. Ann. Rev. Fluid Mech. 6 227.Google Scholar

Jeffrey, D. J. 1973 Conduction through a random suspension of spheres. Proc. Roy. Soc. A 335, 355.Google Scholar

Kellou, O. D. 1953 Foundations of PotendicGl Theory. Dover.

Lamb, H. 1932 Hydrodynamics. Cambridge University Press.

Lundgren, T. S. 1972 Slow flow through stationary random beds and suspensions of spheres. J. Fluid Mech. 51, 273.Google Scholar

Milne-Thomson, L. M. 1968 Theoretical Hydrodynamics. Macmillan.

Prins, C. A. 1974 Aspects of two-phase, gas liquid, separation related to nuclear steam supply systems. Delft Univ. Tech. Rep. WTHD56.Google Scholar

Ross, D. K. 1970 The Dirichlet boundary value problem for two non-overlapping spheres. Bull. Auatr. Math. Soc. 2, 237.Google Scholar

Voinov, V. V., Vomov, O. V. & Petrov, A. G. 1973 Hydrodynamic interaction between bodies in a perfect incompressible fluid and their motion in non-uniform streams. Prikl. Math. Mech. 37, 680.Google Scholar

Zuber, N. 1964 On the dispersed two-phase flow in the laminar flow regime. Chem. Engng Sci. 19, 897.Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Wijngaarden, L. Van and Vossers, G. 1978. Mechanics and physics of gas bubbles in liquids: a report on Euromech 98. Journal of Fluid Mechanics, Vol. 87, Issue. 04, p. 695.

Sandhu, N. and Jameson, G.J. 1979. An experimental study of choked foam flows in a convergent-divergent' nozzle. International Journal of Multiphase Flow, Vol. 5, Issue. 1, p. 39.

Nakagawa, H. Mori, Y. and Hijikata, K. 1980. Small amplitude pressure wave in subsonic and supersonic bubble flows in convergent-divergent nozzles. International Journal of Multiphase Flow, Vol. 6, Issue. 6, p. 563.

Wijngaarden, L. 1980. Cavitation and Inhomogeneities in Underwater Acoustics. p. 127.

Rietema, K. 1982. Science and technology of dispersed two-phase systems—I and II. Chemical Engineering Science, Vol. 37, Issue. 8, p. 1125.

Wijngaarden, L. 1982. Bubble interactions in liquid/gas flows. Applied Scientific Research, Vol. 38, Issue. 1, p. 331.

Biesheuvel, A. and Van Wijngaarden, L. 1982. The motion of pairs of gas bubbles in a perfect liquid. Journal of Engineering Mathematics, Vol. 16, Issue. 4, p. 349.

van Wijngaarden, L. 1982. Mechanics and Physics of Bubbles in Liquids. p. 331.

Tan, M. J. and Bankoff, S. G. 1984. Propagation of pressure waves in bubbly mixtures. The Physics of Fluids, Vol. 27, Issue. 6, p. 1362.

Lhuillier, Daniel 1985. Phenomenology of inertia effects in a dispersed solid-fluid mixture. International Journal of Multiphase Flow, Vol. 11, Issue. 4, p. 427.

Geurst, J.A. 1985. Virtual mass in two-phase bubbly flow. Physica A: Statistical Mechanics and its Applications, Vol. 129, Issue. 2, p. 233.

Biesheuvel, A. 1985. A note on the generalized Lagally theorem. Journal of Engineering Mathematics, Vol. 19, Issue. 1, p. 69.

Geurst, J.A. 1986. Variational principles and two-fluid hydrodynamics of bubbly liquid/gas mixtures. Physica A: Statistical Mechanics and its Applications, Vol. 135, Issue. 2-3, p. 455.

Fujikawa, Shigeo and Takahira, Hiroyuki 1988. Dynamics of two nonspherical cavitation bubbles in liquids. Fluid Dynamics Research, Vol. 4, Issue. 3, p. 179.

Kowe, R Hunt, J.C.R Hunt, A Couet, B and Bradbury, L.J.S 1988. The effects of bubbles on the volume fluxes and the pressure gradients in unsteady and non-uniform flow of liquids. International Journal of Multiphase Flow, Vol. 14, Issue. 5, p. 587.

Steindor, M. 1988. 1987. Vol. 81, Issue. , p. 157.

Kok, J.B.W. 1988. Kinetic energy and added mass of hydrodynamically interacting gas bubbles in liquid. Physica A: Statistical Mechanics and its Applications, Vol. 148, Issue. 1-2, p. 240.

Biesheuvel, A. and Spoelstra, S. 1989. The added mass coefficient of a dispersion of spherical gas bubbles in liquid. International Journal of Multiphase Flow, Vol. 15, Issue. 6, p. 911.

Billiotte, M. 1989. Coefficient de masse apparente dans un ecoulement diphasique. Mechanics Research Communications, Vol. 16, Issue. 1, p. 25.

Davidson, Malcolm R. 1990. Numerical calculations of two-phase flow in a liquid bath with bottom gas injection: The central plume. Applied Mathematical Modelling, Vol. 14, Issue. 2, p. 67.

Download full list

Article contents

Hydrodynamic interaction between gas bubbles in liquid

Abstract

Access options

References

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Hydrodynamic interaction between gas bubbles in liquid

Abstract

Access options

References

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests