Stabilizing SSR oscillations with a shunt reactor controller for uncertain levels of series compensation

Author

Eitelberg, Ed ; Balda, J.C. ; Boje, E.S. ; Harley, R.G.

Author_Institution

Natal Univ., Durban, South Africa

Volume

3

Issue

3

fYear

1988

Firstpage

936

Lastpage

943

Abstract

The authors demonstrate how frequency-domain techniques based on I. Horowitz et al.´s (1986) quantitative feedback theory can be applied to the design of fixed-parameter controllers in power systems where the plant parameters have large uncertainties. They present the design of a controller for a shunt reactor to eliminate torsional shaft oscillations in a turbogenerator susceptible to subsynchronous resonance (SSR). The considered parameter uncertainty is the series capacitor compensation level, which has been assumed to vary between 12% and 76%. Simulated transients results of the uncontrolled/controlled system are depicted.<>

Keywords

compensation; controllers; power system control; reactors (electric); stability; turbogenerators; SSR oscillations; frequency-domain; power system control; quantitative feedback theory; series compensation; shunt reactor controller; stabilisation; subsynchronous resonance; torsional shaft oscillations; transients; turbogenerator; Control systems; Feedback; Inductors; Power system control; Power systems; Resonance; Shafts; Shunt (electrical); Turbogenerators; Uncertainty;

fLanguage

English

Journal_Title

Power Systems, IEEE Transactions on

Publisher

ieee

ISSN

0885-8950

Type

jour

DOI

10.1109/59.14544

Filename

14544