Title :
Turbine generator laboratory model tests to damp torsional oscillations with supplementary signals
Author :
Sokhey, I.S. ; Limebeer, D.J.N. ; MacDonald, D.C.
Author_Institution :
Southern Electric plc, Maidenhead, UK
fDate :
3/1/1993 12:00:00 AM
Abstract :
The improvement of generator stability by the use of supplementary signals into the voltage regulator and governor loops using discrete-time linear optimal control theory has been studied with particular emphasis on providing better damping for torsional oscillations. A multi-inertia laboratory model equipped with data acquisition and control computers was constructed to model the shaft dynamics of a 660 MW Drax turbine-generator. It is shown that the shaft torsional phenomena can be adequately simulated on a micro-synchronous-generator at least as far as the dominant shaft torsional modes of vibration are concerned. The practical implementation of multi-mode linear quadratic Gaussian (LQG) controllers has been shown to enhance system stability and provide better damping to the lower frequency torsional modes, which are those most susceptible to excitation
Keywords :
damping; discrete time systems; machine control; machine testing; oscillations; stability; torsion; turbogenerators; voltage control; 660 MW; Drax power station; control computers; data acquisition; discrete-time linear optimal control; generator stability; governor loops; laboratory model tests; linear quadratic Gaussian controllers; micro-synchronous-generator; shaft torsional phenomena; supplementary signals; torsional oscillations damping; turbine-generator; turbogenerators; voltage regulator; Damping; Data acquisition; Laboratories; Optimal control; Regulators; Shafts; Signal generators; Stability; Testing; Turbines;
Journal_Title :
Energy Conversion, IEEE Transactions on
