Jeffrey F. Morris

Inertial migration of rigid spherical particles in Poiseuille flow

An experimental study of the migration of dilute suspensions of particles in Poiseuille flow at Reynolds numbers

A Physical Introduction to Suspension Dynamics

\hbox{\it Re}\,{=}\,67\hbox{--}1700

Stationary shear flow around fixed and free bodies at finite Reynolds number

was performed, with a few experiments performed at

Trains of particles in finite-Reynolds-number pipe flow

\hbox{\it Re}

Discontinuous shear thickening in Brownian suspensions by dynamic simulation

up to 2400. The particles used in the majority of the experiments were neutrally buoyant spheres with diameters

Coalescence-induced jumping of droplet: Inertia and viscosity effects

d

Rheology of cyclopentane hydrate slurry in a model oil-continuous emulsion

yielding a ratio of pipe to particle diameter in the range

Shear and normal stress measurements in non-Brownian monodisperse and bidisperse suspensions

D/d \,{=}\, 8\hbox{--}42

Interaction of fluid interfaces with immersed solid particles using the lattice Boltzmann method for liquid-gas-particle systems

. The volume fraction of solids was less than 1% in all cases studied. The results of G. Segre & A. Silberberg ( J. Fluid Mech. 14 , 136, 1962) have been extended to show that the tubular pinch effect in which particles accumulate on a narrow annulus is moved toward the wall as

Particle‐Laden Drop Impacting on Solid Surfaces

\hbox{\it Re}