Flow In Diverging Channel Research Articles

The stability of a family of Jeffery–Hamel solutions for divergent channel flow

A set of Jeffery–Hamel profiles (for radial, viscous, incompressible flow) have been shown by Fraenkel (1962, 1963) to approximate to profiles in certain two-dimensional divergent channels. The stability of a family of these profiles is investigated by a numerical solution of the Orr-Sommerfeld problem. Neutralstability curves are calculated in the (R,k)-planes (where R is the Reynolds number of the basic flow and k is the wave-number of the disturbance), and fairly low critical Reynolds numbers are found. For those profiles that have regions of reversed flow, negative wave velocities are found on the lower branch of the neutral curve, and also it is found that Rk tends to a finite limit as R → ∞ on the lower branch. These unexpected results are further discussed and verified by independent methods. The relation of the calculations to some experiments of Patterson (1934, 1935) is discussed.

High-Velocity Flow in Open Channels: A Symposium: Design of Channel Expansion

Following an introductory discussion of supercritical flow in divergent channels, the matter of channel design is discussed under three sequent headings: (1) Surface configuration at abrupt expansi...