Aging steam generator tubes have been experiencing a variety of degradations such as pitting, fretting wear, erosion-corrosion, thinning, cracking, and denting. To assist with steam generator life cycle management, some defect-specific flaw models have been developed from burst pressure testing results. In this work, an alternative approach; heterogeneous finite element model (HFEM), is explored. The HFEM is first validated by comparing the predicted failure modes and failure pressure with experimental measurements of several tubes. Several issues related to the finite element analyses such as temporal convergence, mesh size effect, and the determination of critical failure parameters are detailed. The HFEM is then applied to predict the failure pressure for use in a fitness-for-service condition monitoring assessment of one removed steam generator tube. HFEM not only calculates the correct failure pressure for a variety of defects, but also predicts the correct change of failure mode. The Taguchi experimental design method is also applied to prioritize the flaw dimensions that affect the integrity of degraded steam generator tubes such as the defect length, depth, and width. It has been shown that the defect depth is the dominant parameter controlling the failure pressure. The failure pressure varies almost linearly with defect depth when the defect length is greater than two times the tube diameter. An axial slot specific flaw model is finally developed.
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e-mail: duanx@aecl.ca
e-mail: kozlukm@aecl.ca
e-mail: sandra.pagan@opg.com
e-mail: brian.mills@kinectrics.com
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November 2008
Research Papers
Structural Integrity Assessment of Steam Generator Tube by the Use of Heterogeneous Finite Element Method
Xinjian Duan,
Xinjian Duan
Reactor Engineering Department,
e-mail: duanx@aecl.ca
Atomic Energy of Canada Limited
, 2251 Speakman Drive, Mississauga, ON, L5K 1B2, Canada
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Michael J. Kozluk,
Michael J. Kozluk
Reactor Engineering Department,
e-mail: kozlukm@aecl.ca
Atomic Energy of Canada Limited
, 2251 Speakman Drive, Mississauga, ON, L5K 1B2, Canada
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Sandra Pagan,
Sandra Pagan
Steam Generator Section,
e-mail: sandra.pagan@opg.com
Ontario Power Generation
, 889 Brock Road, Pickering, ON, L1W 3J2, Canada
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Brian Mills
Brian Mills
Generation Life Cycle Management,
e-mail: brian.mills@kinectrics.com
Kinectrics Inc.
, 800 Kipling Avenue, Toronto, ON, M8Z 6C4, Canada
Search for other works by this author on:
Xinjian Duan
Reactor Engineering Department,
Atomic Energy of Canada Limited
, 2251 Speakman Drive, Mississauga, ON, L5K 1B2, Canadae-mail: duanx@aecl.ca
Michael J. Kozluk
Reactor Engineering Department,
Atomic Energy of Canada Limited
, 2251 Speakman Drive, Mississauga, ON, L5K 1B2, Canadae-mail: kozlukm@aecl.ca
Sandra Pagan
Steam Generator Section,
Ontario Power Generation
, 889 Brock Road, Pickering, ON, L1W 3J2, Canadae-mail: sandra.pagan@opg.com
Brian Mills
Generation Life Cycle Management,
Kinectrics Inc.
, 800 Kipling Avenue, Toronto, ON, M8Z 6C4, Canadae-mail: brian.mills@kinectrics.com
J. Pressure Vessel Technol. Nov 2008, 130(4): 041207 (10 pages)
Published Online: September 10, 2008
Article history
Received:
October 24, 2006
Revised:
July 20, 2007
Published:
September 10, 2008
Citation
Duan, X., Kozluk, M. J., Pagan, S., and Mills, B. (September 10, 2008). "Structural Integrity Assessment of Steam Generator Tube by the Use of Heterogeneous Finite Element Method." ASME. J. Pressure Vessel Technol. November 2008; 130(4): 041207. https://doi.org/10.1115/1.2967727
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