Present day turbogenerator installations are statically indeterminate rotor-bearing-foundation systems utilizing nonlinear hydrodynamic bearings. For optimal balancing and diagnostic purposes it is important to be able to correctly predict the system vibration behavior over the operating speed range. Essential aspects of this involve identifying the unbalance state, identifying appropriate dynamic foundation parameters, and identifying the system configuration state (relative location of the support bearings). This paper shows that, provided the system response is periodic at some speeds over the operating range and appropriate rotor and bearing housing motion measurements are made, it is possible, in principle, to satisfactorily achieve the above identifications without relying on the Reynolds equation for evaluating bearing forces. Preliminary results indicate that the identifications achieved promise to be superior to identification approaches that use the Reynolds equation.

Issue Section:
Gas Turbines: Structures and Dynamics
Keywords:
turbogenerators, vibrations, machine bearings, hydrodynamics, motion measurement, state estimation, machine theory, rotors
Topics:
Bearings, Rotors, Vibration, Equations of motion, Motion measurement, Modeling, Turbogenerators
1.
Lund
,
J. W.
, and
Tonnesen
,
J.
,
1972
, “
Analysis and Experiments on Multi-Plane Balancing of a Flexible Rotor
,”
ASME J. Eng. Ind.
,
94
, pp.
233
242
.
2.
Feng
,
N. S.
, and
Hahn
,
E. J.
,
1996
, “
Using Vibration Analysis Software to Balance Turbomachinery
,”
Mech. Eng. Trans., IEAust
,
21
, pp.
147
155
.
3.
Chen, P. Y. P., Feng, N. S., and Hahn, E. J., 2001, “Flexible Rotor Balancing Taking Bearing Non-Linearity Into Account,” ASME Paper No. DETC2001/VIB-21380.
4.
Hori
,
Y.
, and
Uematsu
,
R.
,
1980
, “
Influence of Misalignment of Support Journal Bearings on Stability of a Multi-Rotor System
,”
Tribol. Int.
,
13
, pp.
249
252
.
5.
Feng
,
N. S.
, and
Hahn
,
E. J.
,
1998
, “
Vibration Analysis of Statically Indeterminate Rotors With Hydrodynamic Bearings
,”
ASME J. Tribol.
,
120
, pp.
781
788
.
6.
Krodkiewski
,
J. M.
, and
Ding
,
J.
,
1993
, “
Theory and Experiment on a Method for On-Site Identification of Configurations of Multi-Bearing Rotor Systems
,”
J. Sound Vib.
,
164
, pp.
281
293
.
7.
Hu
,
W.
,
Feng
,
N. S.
, and
Hahn
,
E. J.
,
2004
, “
A Comparison of Techniques for Identifying the Configuration State of Statically Indeterminate Rotor Bearing Systems
,”
Tribol. Int.
,
37
, pp.
149
157
.
8.
Lees, A. W., Friswell, M. I., Smart, M. G., and Prells, U., 1998, “The Identification of Foundation Vibration Parameters From Running Machine Data,” Proc. of 7th Int. Symposium on Transport Phenomena and Dynamics of Rotating Machinery, Honolulu, pp. 715–724.
9.
Diana, G., Cheli, F., and Vania, A., 1988, “A Method to Identify the Foundation Modal Parameters Through Measurements of the Rotor Vibrations,” Proc. 4th Int. Conference on Vibrations in Rotating Machinery, IMechE, Edinburgh, pp. 217–222.
10.
Vazquez, J. A., and Barret, L. V., 1996, “Representing Flexible Support by Polynomial Transfer Functions,” ASME Paper No. 96-GT-27.
11.
Smart
,
M.
,
Friswell
,
M. I.
,
Lees
,
A. W.
, and
Prells
,
U.
,
1998
, “
Estimating Turbogenerator Foundation Parameters
,”
Proc. Inst. Mech. Eng., Part C: J. Mech. Eng. Sci.
,
22
, pp.
653
665
.
12.
Feng, N. S., and Hahn, E. J., 2001, “Identification of Pedestal Parameters in Rotor Bearing Systems Using Known Unbalance,” ASME Paper No. DETC2001/VIB-21553.
13.
Feng, N. S., and Hahn, E. J., 1998, “On the Use of Linearised Hydrodynamic Bearing Force Coefficients for Foundation Identification Purposes,” Proc. of 5th Int. Tribology Conference, AUSTRIB ’98, Brisbane, pp. 383–387.
14.
Feng, N. S., and Hahn, E. J., 2000, “Experimental Evaluation of Linear and Non-Linear Pedestal Identification,” Proc. of ISMA25, Noise and Vibration Engineering Conference, Leuven, pp. 877–883.
15.
Pham, D., Feng, N. S., and Hahn, E. J., 2003, “The Effect of the Lubricant Supply Situation on the Vibration Behavior of Rotor Bearing Systems,” Proc. of 10th Int. Congress on Sound and Vibration, Stockholm, pp. 3597–3604.
16.
Chen, P. Y. P., Feng, N. S., and Hahn, E. J., 2002, “On the Balancing of Non-Linear Rotor Bearing Foundation Systems,” Proc. of 9th Int. Symposium on Transport Phenomena and Dynamics of Rotating Machinery, Honolulu.
17.
Feng
,
N. S.
, and
Hahn
,
E. J.
,
1995
, “
Including Foundation Effects on the Vibration Behavior of Rotating Machinery
,”
Mech. Syst. Signal Process.
,
9
, pp.
243
256
.
18.
Hu, W., 2004, “On Identifying the Configuration State of Rotor-Bearing-Pedestal Systems,” Ph.D. thesis, UNSW.
19.
Hahn
,
E. J.
, and
Chen
,
P. Y. P.
,
1994
, “
Harmonic Balance Analysis of General Squeeze Film Damped Multi-Degree-of-Freedom Rotor Bearing Systems
,”
ASME J. Tribol.
,
116
, pp.
499
507
.
20.
Miah, H., 2002, “An Experimental Rig to Study Lateral Misalignment Effects in Rotor Bearing Pedestal Systems,” M.E. thesis, UNSW.
Copyright © 2005
 by ASME
You do not currently have access to this content.