Suspension Mechanics: I. Inertial and Non-Newtonian Migration of Neutrally Buoyant Rigid Spheres in Two-Dimensional Unidirectional Flows. II. The Effect of Viscoelasticity on the Creeping Motion of a Train of Neutrally Buoyant Newtonian Drops through a Circular Tube

Citation

Ho, Bosco Po-Wai (1975) Suspension Mechanics: I. Inertial and Non-Newtonian Migration of Neutrally Buoyant Rigid Spheres in Two-Dimensional Unidirectional Flows. II. The Effect of Viscoelasticity on the Creeping Motion of a Train of Neutrally Buoyant Newtonian Drops through a Circular Tube. Dissertation (Ph.D.), California Institute of Technology. doi:10.7907/A0MZ-B010. https://resolver.caltech.edu/CaltechTHESIS:07152014-151002249

Abstract

The lateral migration of neutrally buoyant rigid spheres in two-dimensional unidirectional flows was studied theoretically. The cases of both inertia-induced migration in a Newtonian fluid and normal stress-induced migration in a second-order fluid were considered. Analytical results for the lateral velocities were obtained, and the equilibrium positions and trajectories of the spheres compared favorably with the experimental data available in the literature. The effective viscosity was obtained for a dilute suspension of spheres which were simultaneously undergoing inertia-induced migration and translational Brownian motion in a plane Poiseuille flow. The migration of spheres suspended in a second-order fluid inside a screw extruder was also considered.

The creeping motion of neutrally buoyant concentrically located Newtonian drops through a circular tube was studied experimentally for drops which have an undeformed radius comparable to that of the tube. Both a Newtonian and a viscoelastic suspending fluid were used in order to determine the influence of viscoelasticity. The extra pressure drop due to the presence of the suspended drops, the shape and velocity of the drops, and the streamlines of the flow were obtained for various viscosity ratios, total flow rates, and drop sizes. The results were compared with existing theoretical and experimental data.

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