The dynamics and stability of a rigid cylindrical body oscillating about a hinge in a coaxial cylindrical duct containing flowing fluid are considered in this paper. A previously developed analytical model, in which the fluid-dynamic forces exerted on the oscillating cylinder had been determined by means of inviscid flow theory, is extended to take into account the unsteady viscous effects of a real fluid flow, in an approximate manner. It is shown that there exists a critical location of the hinge: if the cylinder is supported upstream of that point, then it remains stable at all flow velocities; however, if it is supported downstream of that location, then negative-damping oscillatory instability is possible for flow velocities sufficiently large to overcome the positive restraining mechanical damping of the system. The critical location of the hinge depends on the relative width of the annular passage with respect to its mean radius. By comparing inviscid and viscous flow theory results, it is shown that inviscid theory generally underestimates stability, by a margin increasing with the narrowness of the annulus.
[1]
John Boyd.
The Influence of Fluid Forces on the Sticking and the Lateral Vibration of Pistons
,
1964
.
[2]
Martin Ostoja-Starzewski,et al.
Dynamics of a Flexible Cylinder in Subsonic Axial Flow
,
1981
.
[3]
Michael P. Païdoussis,et al.
The Unsteady Potential Flow in an Axially Variable Annulus and Its Effect on the Dynamics of the Oscillating Rigid Center-Body
,
1985
.
[4]
R. G. Kennison,et al.
THEORETICAL ANALYSIS OF FLOW-INDUCED VIBRATION OF A BLADE SUSPENDED IN A FLOW CHANNEL.
,
1966
.
[5]
T. Mulcahy.
Leakage-flow-induced vibration of a tube-in-tube slip joint. [LMFBR]
,
1983
.
[6]
D. E. Hobson.
Fluid-Elastic Instabilities caused by Flow in an Annulus
,
1982
.
[7]
M. P. Païdoussis,et al.
Dynamics of Flexible Cylinders in Axisymmetrically Confined Axial Flow
,
1979
.
[8]
T. M. Mulcahy,et al.
A Review of Leakage-Flow-Induced Vibrations of Reactor Components
,
1983
.