A large and growing portion of electricity is produced by aging thermal power plants. Although excellent, high quality materials such as CrMoV steel and 12% Cr steel, etc. are used for the steam turbines, various forms of metallurgical degradation, due to creep and fatigue, etc. affect the parts and components during long-term operation at high temperature. Extending the life of steam turbines and ensuring high reliability requires life assessment technology, scheduled repairing, conversion, modification and upgrading of components in order to provide a stable power supply. As the high temperature parts and components of aged steam turbines are mainly metallurgically damaged by creep, fatigue and the interaction of both, life assessment combined with analytical and nondestructive methods is essential for realizing strategic plant life extension. We have developed a life assessment technology that takes material degradation into consideration, and have applied the procedure to more than 650 units and 2500 components since 1983. A rotor bore replication device was developed in 1989 for the purpose of nondestructive observation of creep voids and supporting the validity of life prediction results. This paper describes the technical features and applied experience of recent life assessment technology for existing high temperature steam turbines.
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ASME 2005 Power Conference
April 5–7, 2005
Chicago, Illinois, USA
Conference Sponsors:
- Power Division
ISBN:
0-7918-4182-0
PROCEEDINGS PAPER
Recent Life Assessment Technology for Existing Steam Turbines
K. Saito
Toshiba Corporation, Yokohama, Japan
A. Sakuma
Toshiba Corporation, Yokohama, Japan
M. Fukuda
Toshiba Corporation, Yokohama, Japan
Paper No:
PWR2005-50345, pp. 597-602; 6 pages
Published Online:
October 27, 2008
Citation
Saito, K, Sakuma, A, & Fukuda, M. "Recent Life Assessment Technology for Existing Steam Turbines." Proceedings of the ASME 2005 Power Conference. ASME 2005 Power Conference. Chicago, Illinois, USA. April 5–7, 2005. pp. 597-602. ASME. https://doi.org/10.1115/PWR2005-50345
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