Title :
A new approach to determine transient generator winding and damper currents in case of internal and external faults and abnormal operation. III. Results
Author :
Kulig, T.S. ; Buckley, G.W. ; Lambrecht, D. ; Liese, M.
Author_Institution :
Siemens AG, Erlangen, West Germany
fDate :
3/1/1990 12:00:00 AM
Abstract :
For pt.II see IEEE Winter Meeting, New Orleans, LA, 1986. A novel method for analyzing the steady-state and transient currents in the stator, rotor, and damper windings of a large generator is discussed, and the application of the method to five classes of problems of practical importance is described. These are (1) internal phase-to-phase fault in a two-circuit machine; (2) 180° out-of-phase synchronization; (3) three-phase short circuit at generator terminals; (4) clearing of a three-phase system fault; and (5) unbalanced steady-state negative phase sequence load of 6%. The authors show the individual damper bar currents and energies or electric power loadings for these cases and, for one example, the time variations of stator and damper winding currents. The investigation was conducted on a standard two-pole generator that was designed for 60 Hz operation and has a rating of 700 MW
Keywords :
AC generators; electrical faults; machine windings; transients; 180° out-of-phase synchronization; 3-phase short circuits; 3-phase system fault clearing; 60 Hz; 700 MW; abnormal operation; damper bar currents; damper windings; generator terminals; internal phase-to-phase fault; power loadings; rotor windings; stator windings; steady-state currents; transient currents; two-circuit machine; unbalanced steady-state negative phase sequence load; Bars; Circuit faults; Computer aided software engineering; Damping; Eddy currents; Failure analysis; Iron; Performance analysis; Power generation; Rotors; Shock absorbers; Stator windings; Steady-state; Time series analysis;
Journal_Title :
Energy Conversion, IEEE Transactions on
