Journal ArticleDOI
The shear-induced migration of particles in concentrated suspensions
TLDR
In this article, it was shown that shear-induced migration of particles out of the sheared Couette gap and into the fluid reservoir, which reduces the particle concentration in the gap and thereby the observed viscosity, is consistent with a gap-limited shearinduced diffusion process normal to the plane of shear, with the relevant diffusion coefficient being proportional to the applied shear rate.Abstract:
In the course of viscometric measurements of concentrated suspensions of spheres in Newtonian fluids using a Couette device, Gadala-Maria & Acrivos (1980) observed a decrease in the suspension viscosity after long periods of shearing even though the viscosity of the pure suspending fluid remained constant under identical conditions. In the present work we demonstrate that this phenomenon is due to the shear-induced migration of particles out of the sheared Couette gap and into the fluid reservoir, which reduces the particle concentration in the gap and thereby the observed viscosity. We show further that this rate of viscosity decrease is consistent with a gap-limited shear-induced diffusion process normal to the plane of shear, with the relevant diffusion coefficient being proportional to is the applied shear rate.Additional experiments also uncovered a new phenomenon - a short-term increase in the viscosity upon initial shearing of a suspension in a Couette device - which was attributed to the diffusive migration of particles across the width of the Couette gap and thus was used to infer values of the corresponding diffusion coefficient within the plane of shear parallel to gradients in fluid velocity.In the theoretical part we demonstrate that the particle migrations that led to these observed phenomena may be explained in terms of the irreversible interparticle interactions that occur in these suspensions. From simple arguments, these interactions are shown to lead to effective diffusivities both normal to the plane of shear and normal to the direction of fluid motion within the plane of shear whose estimated magnitudes are comparable with those that were inferred from the experimental measurements. Furthermore, these interactions should induce, within a shear flow, particle drifts from regions of high to low shear stress, which are estimated to be of sufficient intensity to account for the observed initial viscosity increase mentioned above.read more
Citations
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Targeted O2 delivery by blood substitutes: in vitro arteriolar simulations of first- and second-generation products.
TL;DR: Results from in vivo HBOC transfusion experiments cannot be predicted by the model, unless PolyBvHb has a significant decrease in extraluminal O(2) transport resistance as compared to MP4, which is consistent with the literature that shows arteriolar O( 2) consumption to increase with intravascular pO(2).
Journal ArticleDOI
Structural evolution of colloidal gels during constricted microchannel flow.
TL;DR: Dense clusters undergo shear-induced yielding at intercluster boundaries, which enhances the structural heterogeneity of the suspension at the constriction outlet, leading to markedly nonuniform local flow profiles.
Evolution of particle migration in pressure-driven flow of a Brownian suspension
TL;DR: In this article, shear-induced migration of spherical colloidal particles flowing through rectangular channels was studied by confocal microscopy, where particle volume fraction was varied from 0.05$ to 0.34, and the flow rate was also varied, which results in a bulk Péclet number, which varies by two orders of magnitude.
Journal ArticleDOI
New method for predicting the power requirement for mixing shear thickening suspensions
TL;DR: In this paper, the power requirement for mechanically agitating shear thickening liquid suspensions is investigated and an alternative method is proposed involving the replacement of the bob of the viscometer by a small impeller; this gives a more useful flow curve for power requirement predictions in mixing devices with a similar geometry.
Journal ArticleDOI
Numerical simulation of microchannel blockage by the random walk method
TL;DR: In this paper, the authors considered the drift of solid particles in the microchannel, which is filled with a viscous liquid, and analyzed the evolution of the liquid flow, namely pressure field, stream function and vorticity.
References
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Journal ArticleDOI
Inertial migration of rigid spheres in two-dimensional unidirectional flows
B. P. Ho,L. G. Leal +1 more
TL;DR: In this article, the Segre-Silberberg effect of inertia-induced lateral migration of a neutrally buoyant rigid sphere in a Newtonian fluid is studied theoretically for simple shear flow and for two-dimensional Poiseuille flow.
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Shear‐Induced Structure in a Concentrated Suspension of Solid Spheres
TL;DR: In this article, a Couette device of a R•17 Weissenberg Rheogoniometer with suspensions of polystyrene spheres, 40-50 μm in diameter, suspended in a mixture of silicone oils at volume fractions 0⩽φ0.55 was used for steady and transient shear measurements.
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Measurement of shear-induced self-diffusion in concentrated suspensions of spheres
TL;DR: In this paper, a technique for determining the coefficient of shear-induced particle self-diffusion in concentrated suspensions of solid spheres, which relies on the fact that this coefficient can be computed from the measured variations in the time taken by a single marked particle in the suspension to complete successive circuits in a Couette device, was presented.
Journal ArticleDOI
Self-diffusion of particles in shear flow of a suspension
TL;DR: In this paper, a self-diffusion coefficient for lateral dispersion of spherical and disk-like particles in linear shear flow of a slurry at very low Reynolds number was determined experimentally.
Journal ArticleDOI
The kinetics of flowing dispersions
TL;DR: In this article, the velocity profiles of dilute suspensions of rigid spheres in Newtonian liquids undergoing Couette or Poiseuille flow were found to be identical with those predicted by the theory with no particles present.