Flow of rarefied gas over an enclosed rotating disk

The flow near a rotating disk of finite radius which forms the top of a right circular cylinder is considered. Limited numerical solutions are presented for a slow rotational rate. However, emphasis is given to large rotational Reynolds numbers where most experiments with rotating disks are carried

The flow near a disk rotating in a cylinder of water was studied by using dye tracers and by taking time exposure photographs of neutrally buoyant beads. The rotational Reynolds number was large so that boundary layers formed on all surfaces. The rate of dissolution of cinnamic acid from the disk fa

This paper is devoted to a study of the ilow of a second-order fluid (Ilowing with a small mass rate of symmetrical radial outflow m, taken negative for a ner radial inflow) over a finite rotating disc enclosed within a coaxial cylinderical casing. The effects of the second-order terms are observed

The perturbation equations which characterize the stability of flow over a rotating infinite disk are derived via strict order of magnitude analysis. These equations contain viscous terms not considered by Stuart,' curvature and Coriolis terms not considered by Brown? and axial velocity terms not co