Use of NDE and FM for the assessment of remaining life of steam turbines

Alley, T; Stone, R

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Use of NDE and FM for the assessment of remaining life of steam turbines

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Abstract

Catastrophic failures of rotating turbine components, such as the Gallatin rotor burst in 1974 and the shrunk-on disk rupture at Hinkley Point in 1969, alerted the utility industry to the failure potential of these components. Such failures can cause severe financial loss; endanger personnel; and, in nuclear plants, damage safety related equipment. To adequately predict the remaining life of a turbine rotor requires accurate information about component flaws, material properties, future operating loads, relevant failure mechanisms, and an approach to combine this information to make an assessment of remaining life. EPRI has supported the development of improved ultrasonic test equipment for use from the rotor bore (bore-sonic examination) and a fracture mechanics based life assessment code called SAFER (Stress and Fracture Evaluation of Rotors). The EPRI NDE Center has supported the transfer of this technology to industry. This presentation deals with the NDE Center`s transfer of the NDE and life assessment technology to industry and discusses a particular application by Duke Power Company at their Allen Plant, Unit 1 to extend the operating life of an IP/LP turbine. (author).

Authors:

Alley, T; ^[1] Stone, R ^[2]

Duke Power Co., Charlotte, NC (United States)
Electric Power Research Inst., Charlotte, NC (United States). Nondestructive Evaluation Center

Publication Date:

Dec 31, 1988

Product Type:

Conference

Report Number:

NEA-CSNI-R-91-14; CONF-8810570-

Reference Number:

SCA: 420200; 420500; PA: AIX-28:064491; EDB-97:126469; SN: 97001855202

Resource Relation:

Conference: Workshop on the complementary roles of fracture mechanics and non-destructive examination in the safety assessment of components, Wuerenlingen (Switzerland), 3-5 Oct 1988; Other Information: PBD: 1988; Related Information: Is Part Of The complementary roles of fracture mechanics and non-destructive examination in the safety assessment of components; PB: 526 p.

Subject:

42 ENGINEERING NOT INCLUDED IN OTHER CATEGORIES; STEAM TURBINES; DEFECTS; EPRI; FAILURES; FRACTURE MECHANICS; LIFETIME; NONDESTRUCTIVE ANALYSIS; REACTOR COOLING SYSTEMS; ROTORS; STRESSES; ULTRASONIC TESTING

OSTI ID:

529042

Research Organizations:

Nuclear Energy Agency, 75 - Paris (France). Committee on the Safety of Nuclear Installations

Country of Origin:

NEA

Language:

English

Other Identifying Numbers:

Other: ON: DE98600708; TRN: XN9600128064491

Availability:

INIS; OSTI as DE98600708

Submitting Site:

INIS

Size:

pp. 509

Announcement Date:

Oct 15, 1997

Citation Formats

Alley, T, and Stone, R. Use of NDE and FM for the assessment of remaining life of steam turbines. NEA: N. p., 1988. Web.

Alley, T, & Stone, R. Use of NDE and FM for the assessment of remaining life of steam turbines. NEA.

Alley, T, and Stone, R. 1988. "Use of NDE and FM for the assessment of remaining life of steam turbines." NEA.

@misc{etde_529042,
title = {Use of NDE and FM for the assessment of remaining life of steam turbines}
author = {Alley, T, and Stone, R}
abstractNote = {Catastrophic failures of rotating turbine components, such as the Gallatin rotor burst in 1974 and the shrunk-on disk rupture at Hinkley Point in 1969, alerted the utility industry to the failure potential of these components. Such failures can cause severe financial loss; endanger personnel; and, in nuclear plants, damage safety related equipment. To adequately predict the remaining life of a turbine rotor requires accurate information about component flaws, material properties, future operating loads, relevant failure mechanisms, and an approach to combine this information to make an assessment of remaining life. EPRI has supported the development of improved ultrasonic test equipment for use from the rotor bore (bore-sonic examination) and a fracture mechanics based life assessment code called SAFER (Stress and Fracture Evaluation of Rotors). The EPRI NDE Center has supported the transfer of this technology to industry. This presentation deals with the NDE Center`s transfer of the NDE and life assessment technology to industry and discusses a particular application by Duke Power Company at their Allen Plant, Unit 1 to extend the operating life of an IP/LP turbine. (author).}
place = {NEA}
year = {1988}
month = {Dec}
}

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