Particle Velocity Fluctuations in Steady State Sedimentation: Stratification Controlled Correlations

Abstract

The structure and dynamics of steady state sedimentation of semi-concentrated (φ=0.10) monodisperse spheres are studied in liquid fluidized beds. Laser turbidity and particle imaging methods are used to measure the particle velocity fluctuations and the steady state concentration profiles. Using a wide range of particle and system sizes, we find that the measured gradients ∇ φ, the fluctuation magnitudes σv, and their spatial correlation lengths , are not uniform in the columns - they all show strongly z-dependent profiles. These profiles also display a scaling in which results from different particle sizes collapse together when plotted in the forms -a∇ φ(z), (z)/a, and σv(z)/vp, demonstrating the universality of the particle dynamics and structure in steady state sedimentation. Our results are also used to test a recently proposed model for the correlation lengths (z) in terms of the concentration stratification ∇ φ(z) [P.J. Mucha and M.P. Brenner, Phys. Fluids 15, 1305 (2003)], (z)=c0 a[φ S(φ)]1/5[-a∇φ(z)]-2/5. We find that the correlation lengths predicted by this model are in very good agreement with our measured values, showing that the origin of the fluctuation length lies with the concentration stratification ∇ φ.