Passive eddy-current damping as a means of vibration control in cryogenic turbomachinery
Abstract
Lateral shaft vibrations produced by a rotating unbalance weight were damped by means of eddy currents generated in copper conductors that were precessing cyclicly in the gap formed by the pole faces of C-shaped, permanent magnets. The damper assembly, which was located at the lower bearing support of a vertically oriented rotor was completely immersed in liquid nitrogen during the test run. The test rotor was operated over a speed range from 800 to 10,000 rpm. Three magnet/conductor designs were evaluated. Experimental damping coefficients varied from 180 to 530 N sec/m. Reasonable agreement was noted for theoretical values of damping for these same assemblies. Values of damping coefficients varied from 150 to 780 N sec/m. The results demonstrate that passive eddy-current damping is a viable candidate for vibration control in cryogenic turbomachinery.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- February 1986
- Bibcode:
- 1986STIN...8624722C
- Keywords:
-
- Bearings;
- Cryogenics;
- Damping;
- Eddy Currents;
- Rotor Aerodynamics;
- Turbine Pumps;
- Liquid Nitrogen;
- Magnetic Fields;
- Turbomachinery;
- Vibration Damping;
- Launch Vehicles and Space Vehicles