Affiliation:
1. North China Electric Power University
Abstract
Taking a 660MW turbine generator shaft system as a target system, the torsional stresses responses are calculated under two-phase short-circuit fault by the finite element (FE) method which can obtain torsional stresses in local areas accurately. The results show that torsional stresses threaten the safety of shafts appear at the first several cycles of the vibration. And the amplitude of stress in weak cross sections located between the low pressure cylinder and the generator is much greater. In addition, the proportion of torsional stresses frequency components in different sections is distinct. The results are helpful to improve the safety management level of the unit.
Publisher
Trans Tech Publications, Ltd.
Reference6 articles.
1. Yujiong Gu, Safety analysis and application on torsional vibration of turbo-generator set, first ed., Science Press, Beijing, (2013).
2. C. Chyn, R.C. Wu, T.P. Tsao, Torsional fatigue of turbine-generator shafts owing to network faults, IEEE Proceedings: Generation, Transmission, and Distribution. 143 (1996) 479-486.
3. Chengbing He,Dongchao Chen,Yujiong Gu, Study on dynamic response of torsional vibration of turbo-generator unit caused by short circuit fault, Advanced Materials Research. 566 (2012) 248-252.
4. Chao Liu, Dongxiang Jiang, Jie Chen, Jingming Chen, Torsional vibration and fatigue evaluation in repairing the worn shafting of the steam turbine, Engineering Failure Analysis. 26 (2012) 1-11.
5. Hong Jiang, Yong Pan, Qi Yuan, The calculation and analysis of torsional vibration response of large steam turbine-generator set on excitation of short circuit, Chinese Journal of Applied Mechanics. 13 (1996) 114-118.
Cited by
2 articles.
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