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RESEARCH PRODUCT
The rheology of three-phase suspensions at low bubble capillary number
J.m. TrubyS.p. MuellerE.w. LlewellinH.m. Madersubject
Condensed Matter::Soft Condensed MatterPhysics::Fluid Dynamics1005bubble suspensionparticle suspensionthree phaserheology117190Research Articlesanalogue experimentsdescription
We develop a model for the rheology of a three-phase suspension of bubbles and particles in a Newtonian liquid undergoing steady flow. We adopt an 'effective-medium' approach in which the bubbly liquid is treated as a continuous medium which suspends the particles. The resulting three-phase model combines separate two-phase models for bubble suspension rheology and particle suspension rheology, which are taken from the literature. The model is validated against new experimental data for three-phase suspensions of bubbles and spherical particles, collected in the low bubble capillary number regime. Good agreement is found across the experimental range of particle volume fraction ([Formula: see text]) and bubble volume fraction ([Formula: see text]). Consistent with model predictions, experimental results demonstrate that adding bubbles to a dilute particle suspension at low capillarity increases its viscosity, while adding bubbles to a concentrated particle suspension decreases its viscosity. The model accounts for particle anisometry and is easily extended to account for variable capillarity, but has not been experimentally validated for these cases.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2015-01-08 | Proceedings. Mathematical, Physical, and Engineering Sciences / The Royal Society |