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Australian Journal of Mechanical Engineering Volume 1, 2004 - Issue 2
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conference paper

Numerical evaluation of an identification technique for flexibly supported rigid turbomachinery foundations

N FengSchool of Mechanical and Manufacturing Engineering The University of New South Wales, Sydney2052, AustraliaView further author information
&
E J HahnSchool of Mechanical and Manufacturing Engineering The University of New South Wales, Sydney2052, AustraliaView further author information
Pages 73-82 | Published online: 22 Sep 2015

References

  • Feng NS & Hahn EJ. Including foundation effects on the vibration behaviour of rotating machinery. Mechanical Systems and Signal Processing, 1995; 9(3): 243–56.
  • Lees AW, Friswell MI, Smart MG & Prells U. The identification of foundation vibration parameters from running machine data. 7th Int. Symp. on Transport Phenomena and Dynamics of Rotating Machinery, Honolulu, 1998: 715–24.
  • Vazquez JA & Barret LV. Representing flexible support by polynomial transfer functions. ASME Paper No. 96-GT-27, Stockholm, 1996: 6pp.
  • Diana G, Cheli F & Vania A. A method to identify the foundation modal parameters through measurements of the rotor vibrations. Proc. 4th Int. Conf. on Vibrations in Rotating Machinery, IMechE, Edinburgh, 1988: 217–22.
  • Lees AW. The least squares method applied to identify rotor/foundation parameters. Proc. 4th Int. Conf. on Vibrations in Rotating Machinery, IMechE, Edinburgh, 1988: 209–15.
  • Feng NS & Hahn EJ. On the identification of a flexibly supported rigid foundation with unknown location of the principal axes of inertia. ISROMAC-7 Proceedings, 1998; B: 705–13.
  • Smart M, Friswell MI, Lees AW & Prells U. Estimating turbogenerator foundation parameters. Proc. IMechE, 1998; 22, C: 653–65.
  • Feng NS & Hahn EJ. Experimental identification of the pedestals in a rotor-bearing-pedestal system. IFToMM 5th Int. Conf. on Rotor Dynamics, Darmstadt, 1998: 734–45.
  • Feng NS & Hahn EJ. Experimental evaluation of linear and non-linear pedestal identification. Proc. ISMA25, Noise and Vibration Engineering Conference, Leuven, 2000: 877–83.
  • Feng NS & Hahn EJ. Identification of pedestal parameters in rotor bearing systems using known unbalance. Proc. ASME Design Engineering Technical Conferences, Symposium on Experiments with Nonlinear Dynamic Systems, Paper No. DETC 2001/VIB-21553, 2001: 9pp.
  • Cheli F, Dedini FG & Vania A. Supporting structure effect on rotating machinery vibration. Proc. Int. Conf. on Vibrations in Rotating Machinery, IMechE, Bath, 1992: 543–8.

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