Exchange of stabilities in Couette flow between cylinders with Navier-slip conditions

Abstract: Viscous Couette flow is derived for flow between two infinitely long concentric rotating cylinders with Navier slip on both. Its axisymmetric linear stability is studied within a regime that would be hydrodynamically stable according to Rayleigh's criterion: opposing gradients of angular velocity and specific angular momentum, based on the rotation rates and radii of the cylinders. Stability conditions are analyzed, by methods based on those of Synge and Chandrasekhar. For sufficiently small slip length on the… Show more

“…Notice that the particular choice (4) requires the right side to be positive, so one or more of the constants must be negative. For instance flows with wall slip [16,17], in which the boundary conditions might be so complicated as to defy an exact analysis by Bessel functions, may also be handled in a similar way. Looking ahead, the method followed here is to provide a more abstract approach which could be applicable in other situations.…”

Strong exchange of stabilities in rapidly rotating parabolic Poiseuille flow

“…Notice that the particular choice (4) requires the right side to be positive, so one or more of the constants must be negative. For instance flows with wall slip [16,17], in which the boundary conditions might be so complicated as to defy an exact analysis by Bessel functions, may also be handled in a similar way. Looking ahead, the method followed here is to provide a more abstract approach which could be applicable in other situations.…”

Strong exchange of stabilities in rapidly rotating parabolic Poiseuille flow