Wall forces on a sphere in a rotating liquid-filled cylinder

Abstract

We experimentally study the behavior of a particle slightly denser than the surrounding liquid in solid body rotating flow. Earlier work revealed that a heavy particle has an unstable equilibrium point in unbounded rotation flows. In the confinement of the rotational flow by a cylindrical wall a heavy sphere with density 1.05 g/cm3 describes an orbital motion in our experiments. This is due to the effect of the wall near the sphere, i.e. a repulsive force (Fw). We model Fw on the sphere as a function of the distance from the wall (L): FW L-4 as proposed by Takemura and Magnaudet (2003). Remarkably, the path from the model including Fw reproduce the experimentally measured trajectory. In addition during an orbital motion the particle does not spin around its axis, and we provide a possible explanation for this phenomenon.