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Active stabilization of compressor surge

Published online by Cambridge University Press:  26 April 2006

J. E. Ffowcs Williams  and
X. Y. Huang
J. E. Ffowcs Williams
Affiliation:
Department of Engineering, University of Cambridge, Trumpington Street, Cambridge, CB2 1PZ, UK
X. Y. Huang
Affiliation:
Department of Engineering, University of Cambridge, Trumpington Street, Cambridge, CB2 1PZ, UK
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Abstract

This paper describes the stabilization of compressor surge by an active method. It is known that surge follows when small disturbances grow in an unstable compression system, and that small growth can be modelled through a linear stability analysis. An active element is here introduced to counter any tendency to instability and the control law governing the active stabilizer is determined from linear theory. We follow precisely the suggestion put forward by Epstein et al. (1986) and verify that their theory conforms to practice. The theory is verified in an experiment on a compression system whose plenum volume is controlled. Suppression of the flow instability was achieved by switching on the controller and the compressor was made to operate stably on a part of its characteristic beyond the nature stall line. Furthermore the controlled compressor is much more resilient to external disturbances than is the natural case. The controller is even effective on deep surge – a feature of great interest but hardly predictable from the Epstein et al. initiative for this kind of study.

Type
Research Article
Information
Journal of Fluid Mechanics , Volume 204 , July 1989 , pp. 245 - 262
Copyright
© 1989 Cambridge University Press

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References

Dorf, R. C.: 1980 Modern Control Systems, 3rd edn, pp. 148.
Emmons, H. W., Pearson, C. E. & Grant, H. P., 1955 Compressor surge and stall propagation. Trans. ASME 79, 455469.Google Scholar
Epsten, A. H., Williams, J. E. Ffowcs & Greitzer, E. M. 1986 Active suppression of compressor instabilities. AIAA 10th Aeroacoustics Conference Seattle, Paper 86–1994.Google Scholar
Greitzer, E. M.: 1976 Surge and rotating stall in axial flow compressors, part 1: Theoretical compressor model. Trans. ASME A: J. Engng for Power 98, 190198.Google Scholar
Greitzer, E. M.: 1981 The stability of pumping systems. Trans. ASME I: J. Fluids Engng 103, 193242.Google Scholar
Hansen, K. E., Jørgensen, P. & Larsen, P. S. 1981 Experimental and theoretical study of surge in a small centrifugal compressor. Trans. ASME I: J. Fluids Engng 103, 391395.Google Scholar
Huang, X. Y.: 1988 Active control of aerodynamic instabilities. Ph.D. thesis, Cambridge University.
Stenning, A. H.: 1980 Rotating stall and surge. Trans. ASME I: J. Fluids Engng, 102, 1420.Google Scholar