Journal article
Bubble size distribution and coarsening of aqueous foams
Chemical Engineering Science, Vol.54(18), pp.4007-4022
1999
Abstract
This paper characterises the bubble size distribution of aqueous foams, produced by a compressed-air foam generator. The time evolution of bubble size distribution in aqueous foams is experimentally measured using a CCD video camera. A computer model, which predicts the change in bubble size distribution with time, is used to simulate the coarsening and disproportionation of aqueous foams. As an extension of previous computer simulations, our model incorporates the variation in liquid fraction during the foam aging process, thereby enabling the simulation of both wet and dry foams. It is found that a Weibull-type distribution best approximates the narrow bubble-size distribution produced by a compressed-air foam generator. The modelled predictions show good agreement with the experimental measurements and a sensitivity analysis indicates a significant dependence of the model on drainage (hence on the thickness of the lamellae), the Henry constant, the gas diffusivity and the surface tension of the foam solution.
This paper characterises the bubble size distribution of aqueous foams, produced by a compressed-air foam generator. The time evolution of bubble size distribution in aqueous foams is experimentally measured using a CCD video camera. A computer model, which predicts the change in bubble size distribution with time, is used to simulate the coarsening and disproportionation of aqueous foams. As an extension of previous computer simulations, our model incorporates the variation in liquid fraction during the foam aging process, thereby enabling the simulation of both wet and dry foams. It is found that a Weibull-type distribution best approximates the narrow bubble-size distribution produced by a compressed-air foam generator. The modelled predictions show good agreement with the experimental measurements and a sensitivity analysis indicates a significant dependence of the model on drainage (hence on the thickness of the lamellae), the Henry constant, the gas diffusivity and the surface tension of the foam solution.
Details
- Title
- Bubble size distribution and coarsening of aqueous foams
- Authors/Creators
- S.A. Magrabi (Author/Creator)B.Z. Dlugogorski (Author/Creator)G.J. Jameson (Author/Creator)
- Publication Details
- Chemical Engineering Science, Vol.54(18), pp.4007-4022
- Publisher
- Pergamon Press
- Identifiers
- 991005543170807891
- Copyright
- © 1999 Elsevier Science Ltd.
- Murdoch Affiliation
- Murdoch University
- Language
- English
- Resource Type
- Journal article
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- Citation topics
- 2 Chemistry
- 2.190 Surfactants, Lipid Bilayers & Antimicrobial Peptides
- 2.190.215 Critical Micelle Concentration
- Web Of Science research areas
- Engineering, Chemical
- ESI research areas
- Chemistry