Torsional Fatigue of Turbine-Generator Shafts Caused by Different Electrical System Faults and Switching Operations

The torsional stresses that occur in large steam turbine- generator shafts due to both planned and unplanned system switching operations are discussed. These operations include routine line switching, reclosing line-to-ground faults by either triple-pole or single-pole breaker operation, reclosing line-to-line and three-phase faults, malsynchronization and load rejection. The calculation of cumulative fatigue of individual turbine-generator shafts from computer-plotted torsional swing traces is explained. The benefits of single-pole breaker operation and of dividing the output of large generators between different electrical systems are briefly mentioned.

[1]  D. Lambrecht,et al.  Effect of clearing short circuits and automatic reclosing on torsional stress and life expenditure of turbine-generator shafts , 1976, IEEE Transactions on Power Apparatus and Systems.

[2]  E.W. Kimbark Selective-pole switching of long double-circuit EHV line , 1976, IEEE Transactions on Power Apparatus and Systems.