posted on 2023-01-06, 12:47authored byMarguerite Robinson, Andrew C. Fowler, A.J. Alexander, Stephen B.G. O'Brien
We describe a simple model of a bubbly two-phase flow which is able to explain why waves propagate downward when a pint of Guinness is poured, and also how the waves are generated. Our theory involves a physically based regularization of the basic equations of the two-phase flow, using interphasic pressure difference and virtual mass terms, together with bulk or eddy viscosity terms. We show that waves can occur through an instability analogous to that which forms roll waves in inclined fluid flows, and we provide a description of the form of these waves, and compare them to observations. Our theory provides a platform for the description of waves in more general bubbly two-phase flows, and the way in which the flow breaks down to form slug flow. (C) 2008 American Institute of Physics.
History
Publication
Physics of Fluids;20, 067101
Publisher
American Institute of Physics
Note
peer-reviewed
Other Funding information
EI, SFI
Rights
Copyright 2008 American Institute of Physics. This article may be downloaded for personal use only. Any other use requires prior permission of the author and the American Institute of Physics
Language
English
Also affiliated with
MACSI - Mathematics Application Consortium for Science & Industry