ML15223A675

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NRC000227 - Gary Stevens Statement of Professional Qualifications
ML15223A675
Person / Time
Site: Indian Point  Entergy icon.png
Issue date: 08/10/2015
From:
NRC/OGC
To:
SECY RAS
References
RAS 28156, ASLBP 07-858-03-LR-BD01, 50-247-LR, 50-286-LR
Download: ML15223A675 (7)


Text

NRC000227 Submitted: August 10, 2015 Gary L. Stevens, P.E.

Senior Materials Engineer Education MS, Mechanical Engineering, San Jose State University, San Jose, CA, 1991 BS, Mechanical Engineering, California Polytechnic State University, San Luis Obispo, CA, 1981 Professional Associations Registered Professional Mechanical Engineer, State of California, since 1986 Registered Professional Mechanical Engineer, State of Colorado, since 2000 Registered Professional Mechanical Engineer, State of Maryland, since 2010 Professional Experience 2015 to Present U.S. Nuclear Regulatory Commission, Rockville, MD Office of Nuclear Reactor Regulation Senior Materials Engineer 2010 to 2015 U.S. Nuclear Regulatory Commission, Rockville, MD Office of Nuclear Regulatory Research Senior Materials Engineer 1999 to 2010 Structural Integrity Associates, Inc., Centennial, CO Senior Associate 1996 to 1999 Structural Integrity Associates, Inc., San Jose, CA Associate 1995 to 1996 Structural Integrity Associates, Inc., San Jose, CA Senior Consultant 1981 to 1995 GE Nuclear Energy, San Jose, CA Senior Engineer Summary Mr. Stevens has 34 years of technical and supervisory experience in the nuclear energy field. His experience includes reactor pressure vessel integrity evaluation and regulatory experience, ASME Code stress, fatigue, and fracture mechanics analyses, analytical computer applications, and on-line fatigue monitoring of critical plant components. Mr. Stevens also has significant business and project management experience, which includes technical project management, technical proposal preparation and related customer interface, hardware design interface, and computer application development and management.

G. L. Stevens, P.E.

Page 2 Mr. Stevens joined the U.S. Nuclear Regulatory Commission (NRC) in January 2010 as a Senior Materials Engineer in the Office of Nuclear Regulatory Research in Rockville, MD, where he contributed to nuclear reactor pressure vessel embrittlement research. This research included projects related to the technical bases for reactor pressure vessel fracture toughness requirements (10 CFR 50 Appendix G), and preparation of several regulatory guides and supporting technical bases documents, including one for the Alternate Pressurized Thermal Shock Rule (10 CFR 50.61a). Mr. Stevens also participated in the NRCs Extremely Low Probability of Rupture (xLPR) project, which is a major software project devoted to evaluating the probability of rupture in nuclear plant piping systems, and he hosted several public meetings on a variety of technical topics.

Since 2010, Mr. Stevens has led the NRCs research efforts on environmentally assisted fatigue in nuclear power plant components. Current activity in this research area includes preparation of Revision 1 to Regulatory Guide 1.207, Guidelines For Evaluating the Effects of Light-Water Reactor Coolant Environments in Fatigue Analyses of Metal Components, and the supporting technical basis document, NUREG/CR-6909, Revision 1, Effect of LWR Coolant Environments on the Fatigue Life of Reactor Materials. Mr. Stevens is also a technical contributor to the NRCs Subsequent License Renewal efforts for plant operation beyond 60 years.

Mr. Stevens has been an attending member for several ASME Section XI Committees since the early 1990s. His current participation includes the Subgroup on Evaluation Standards (where he has served as secretary since 2002), the Executive Committee on Nuclear Inservice Inspection, and the Standards Committee on Nuclear Inservice Inspection. As part of Standards Committee membership, Mr. Stevens collects and manages all NRC technical input for all ASME Section XI ballot actions and for NRC Rulemaking efforts.

In March of 2015, Mr. Stevens moved to the Office of Nuclear Reactor Regulation where he works on a variety of reactor pressure vessel safety evaluations associated with licensee submittals (examination relief requests, pressure-temperature curve submittals, etc.). He also was the primary author for a Regulatory Issue Summary (RIS) issued in 2014 that provides clarification of reactor pressure vessel fracture toughness requirements.

At Structural Integrity Associates, Mr. Stevens was responsible for a variety of projects for both PWR and BWR systems. These included the development of Class 1 fatigue management programs for plant license renewal applications (including environmental fatigue-related issues),

the management, development, and installation of on-line fatigue and fatigue crack growth monitoring systems, finite element model stress and fatigue analyses, and a variety of fracture mechanics applications including limit load and linear elastic fracture mechanics methodologies.

He was Structural Integritys Product Lead for BWR License Renewal Services, BWR Fatigue Monitoring, and BWR Pressure-Temperature Curves. Mr. Stevens was actively involved with developing nuclear plant Class 1 fatigue management programs. He also was a key contributor to the fracture mechanics work related to BWR internals, which was developed under funding from the BWR Vessel and Internals Project (BWRVIP).

At GE, Mr. Stevens began his career as a participant in the Edison Engineering Training Program, 07/2015

G. L. Stevens, P.E.

Page 3 which provided three rotating work assignments before participants accepted a permanent position.

His rotational work experience included nuclear fuel channel design, computer program design and development, spare parts, document database development, and structural analysis and design.

After selecting a permanent position in March 1983, Mr. Stevens spent over 12 years performing ASME Code stress, fatigue, and fracture mechanics evaluations for BWR vessel, piping, and vessel internals components. He was a key participant on most BWR vessel internals structural issues from the first significant incidences of detected cracking in 1993. During his tenure at GE, Mr. Stevens became recognized as a structural analysis expert for BWR services, he received the prestigious Young Engineer Award for his contributions in the structural analysis area, and he received the Product Application - Service Engineering Award for his successful implementation of thermal cycle monitoring in Japan.

Over his career, Mr. Stevens has authored more than 40 technical papers covering all of the technical areas in which he worked (bibliography attached). He has also provided selected technical training to clients in the areas of fatigue and fracture mechanics. Mr. Stevens has developed an extensive working knowledge of the stress, fatigue and fracture mechanics areas through this experience, and he has gained related computer and analysis experience in several computer environments (C, FORTRAN, BASIC, UNIX, and HP BASIC). In addition, he has extensive past experience in the use and application of the ANSYS finite element computer code to structural evaluation of nuclear components.

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Page 4 PROFESSIONAL PUBLICATIONS Masters Thesis: Stevens, Gary L., Simulation of an Unsteady Thin Oil Film, A Thesis Presented to the Faculty of the Department of Mechanical Engineering, In Partial Fulfillment of the Requirements for the Degree of Master of Science, San Jose State University, May 1991.

[1] Stevens, G. L. and Ranganath, S., Use of On-Line Fatigue Monitoring of Nuclear Reactor Components as a Tool for Plant Life Extension, PVP Volume 171, pp. 85 - 92, ASME, 1989 Pressure Vessels and Piping Conference, Honolulu, HA, July 23-27, 1989.

[2] Stevens, G. L. and Ranganath, S., Use of On-Line Fatigue Monitoring of Nuclear Reactor Components as a Tool for Plant Life Extension, Nuclear Plant Journal, Volume 7, No. 6, pp. 56 - 59, November-December 1989.

[3] Stevens, G. L. and Ranganath, S., Use of On-Line Fatigue Monitoring of Nuclear Reactor Components as a Tool for Plant Life Extension, ASME, Journal of Pressure Vessel Technology, Vol. 113, pp. 349 - 357, August 1991.

[4] Ranganath, S., Pickett, E. A., Stevens, G. L., Diaz, T. P., Weinstein, D., Ford, F. P., and Pathania, R., Prediction of Environmentally Assisted Crack Growth in a Large Diameter Stainless Steel Pipe, ca. 1991, forum unknown.

[5] Dykes, Edward R., Mortenson, Steven C., Kingston, Richard E., and Stevens, Gary L.,

Automated Examination and Monitoring of Boiling Water Reactor Pressure Vessels, Materials Evaluation, Volume 49, No. 10, pp. 1328 - 1336, October 1991.

[6] Sakai, T., Tokunaga, K., Stevens, G. L., and Ranganath, S., Implementation of Automated, On-Line Fatigue Monitoring in a Boiling Water Reactor, ASME, 1993 Pressure Vessel and Piping Conference, PVP-Vol. 252, Plant Systems/Components Aging Management - 1993, Denver, CO, July 25-29, 1993.

[7] Chapman, T. L., Ranganath, S. and Stevens, G. L., Application of Advanced Ultrasonic Test Techniques Coupled with Fatigue and Leakage Monitoring to Assure Integrity of BWR Feedwater Nozzles, Nuclear Engineering and Design, Volume 144, pp. 389-397, North-Holland, 1993.

[8] Tokunaga, K. Aoki, T., Sakai, A. Ranganath, S. and Stevens, G. L., On-line Fatigue Monitoring System for Reactor Pressure Vessel, The Thermal and Nuclear Power, Volume 45, No. 450, 1994 (in Japanese).

[9] Gerber, David A. and Stevens, Gary L., EPRI/BGE License Renewal Fatigue Evaluation Project, PVP Volume 360, pp. 403 - 411, ASME, 1998 Pressure Vessels and Piping Conference, San Diego, CA, July 26-30, 1998.

[10] Stevens, G. L.,

Deardorff,

A. F., Gerber, D. A., and Rosinski, S. T., Fatigue Monitoring for Demonstrating Fatigue Design Basis Compliance, ASME, 1999 Pressure Vessels and Piping Conference, Boston, MA, August 1-5, 1999.

[11] Stevens, G. L., Gerber, D. A., and Rosinski, S. T., Latest Advances in Fatigue Monitoring Technology Using EPRI's FatiguePro Software, Paper ID Number: D3-A1-US, 15th International Conference on Structural Mechanics in Reactor Technology (SMiRT-15), Seoul, Korea, August 15-20, 1999.

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[12] Gore, P., Wilton, B., Mattson, R. A., Langdon, J. W., Yemma, L., and Stevens, G. L.,

Alternate Core Plate Rim Hold-Down Bolt Evaluation, ICONE-8260, Proceedings of ICONE 8, 8th International Conference on Nuclear Engineering, Baltimore, MD, April 2-6, 2000.

[13] Mattson, R. A., Stevens, G. L., and Swann, D. M., Jet Pump Flaw Evaluation Procedures, ICONE-8261, Proceedings of ICONE 8, 8th International Conference on Nuclear Engineering, Baltimore, MD, April 2-6, 2000.

[14] Bamford, W. H., Stevens, G. L., Griesbach, T. J., and Malik, S. N., Technical Basis for Revised P-T Curve Methodology, ASME, 2000 Pressure Vessels and Piping Conference, Seattle, WA, July 23-27, 2000.

[15] Nickell, R. E., Gerber, D. A., and Stevens, G. L., An Approach for Evaluating the Effects of Reactor Water Environments on Fatigue Life, EPRI, International Conference on Fatigue of Reactor Components, Silverado Country Club & Conference Center, Napa, CA, July 31-August 2, 2000.

[16] Bamford, W. H., Bishop, B. A., Kurek, D., Closky, N., Stevens, G., Becker, L., and Ranganath, S., Technical Basis for Elimination of Reactor Vessel Nozzle Inner Radius Inspections, ASME, 2001 Pressure Vessels and Piping Conference, Atlanta, GA, July 22-26, 2001.

[17] Pando, D., Gorrochategui, I., and Stevens, G. L., Fatigue Evaluation of a BWR Feedwater Nozzle Using an On-Line Fatigue Monitoring System, EPRI, Materials Reliability Program: Second International Conference on Fatigue of Reactor Components (MRP-84), Snowbird, UT, July 29 - August 1, 2002.

[18] Stevens, G. L., Davis, J. M., Carey, J. J., and

Deardorff,

A. F., Assessment of Environmental Fatigue (FEN) Approaches, PVP2005-71636, ASME, 2005 Pressure Vessels and Piping Conference, Denver, CO, July 17-21, 2005.

[19] Gosselin, S. R., Simonen, F. A., Carter, R. G., Davis, J. M., and Stevens, G. L.,

Enhanced ASME Section XI Appendix L Flaw Tolerance Procedure, PVP2005-71100, ASME, 2005 Pressure Vessels and Piping Conference, Denver, CO, July 17-21, 2005.

[20] Davis, J. M., and Stevens, G. L., Evaluation of Controlling Transient Ramp Times Using Piping Methodologies When Considering Environmental Fatigue (FEN) Effects, PVP2007-26210, ASME, 2007 Pressure Vessels and Piping Conference, San Antonio, TX, July 22-26, 2007.

[21] Stevens, G. L., Davis, J. M., and Spain, L., Sample Environmental Fatigue Calculations Associated With the Review of Draft Regulatory Guide DG-1144, PVP2007-26211, ASME, 2007 Pressure Vessels and Piping Conference, San Antonio, TX, July 22-26, 2007.

[22] Stevens, G. L., Griesbach, T. J., Gerber, D. A., and Gilman, T. D., Fatigue Monitoring for Demonstrating Fatigue Design Basis Compliance, IAEA Second International Symposium on Nuclear Power Plant Life Management, Shanghai, China, October 15-18, 2007.

[23] Yetisir, M., Stevens, G. L., Robertson, S., Ding, Y., and Burton, G. Monitoring and Managing Component Fatigue in CANDU Stations, 2008 Canadian Nuclear Society Conference, Toronto, ON, June 1-4, 2008.

[24] Yetisir, M., Stevens, G. L., and Robertson, S., Managing of Component Fatigue in CANDU Stations for Life Extension, ICONE16-48757, Proceedings of ICONE 16, 16th International Conference on Nuclear Engineering, Orlando, FL, May 11-15, 2008.

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[25] Mehta, H. S., Griesbach, T. J., and Stevens, G. L., Suggested Improvements to Appendix G of ASME Section XI Code, PVP2008-61624, ASME, 2008 Pressure Vessels and Piping Conference, Chicago, IL, July 27-31, 2008.

[26] Stevens, G. L., Yetisir, M., Scovil, A., and Slade, J., Monitoring and Managing Component Fatigue at Point Lepreau Generating Station, Paper No. 89, 8th International Conference on CANDU Maintenance, Toronto, Ontario, November 16-18, 2008.

[27] Herrmann, T. J., Novotny, T. D., and Stevens, G. L., Dispelling the Myths Behind Regulatory Issue Summary 2008-30 (Nuclear Plant Component Fatigue Sensitivity Analyses), PVP2009-78136, ASME, 2009 Pressure Vessels and Piping Conference, Prague, Czech Republic, July 22-26, 2009.

[28] Yin, S., Stevens G. L., Bass, B. R., and Kirk, M. T., Stress and Fracture Mechanics Analyses of Boiling Water Reactor and Pressurized Water Reactor Vessel Nozzles, PVP2011-57014, ASME, 2011 Pressure Vessels and Piping Conference, Baltimore, MD, July 17-22, 2011.

[29] Mehta, H. S., Griesbach, T. J., Sommerville, D. V., and Stevens, G. L., Additional Improvements to Appendix G of ASME Section XI Code for Nozzles, PVP2011-57015, ASME, 2011 Pressure Vessels and Piping Conference, Baltimore, MD, July 17-22, 2011.

[30] Gilman, T. D., Rathbun, H. R., and Stevens, G. L., Investigation of Differences in the Finite Element Solution of a Sample Fatigue Cumulative Usage Factor Calculation Problem, PVP2011-57651, ASME, 2011 Pressure Vessels and Piping Conference, Baltimore, MD, July 17-22, 2011.

[31] Kirk, M. T., Stevens, G. L., Erickson, M. J., and Yin, S., A Proposal for the Maximum KIc for Use in ASME Code Flaw and Fracture Toughness Evaluations, PVP2011-57173, ASME, 2011 Pressure Vessels and Piping Conference, Baltimore, MD, July 17-22, 2011.

[32] Kirk, M. and Stevens, G., The Influence of Alloy Composition on the Magnitude of the Flux Effect on Irradiation Hardening of RPV Steels, ASTM Symposium on Effects of Radiation on Nuclear Materials, 25th Volume, ASTM STP-1547, T. Yamamoto, M.

Sokolov, and B. Hanson, Eds., American Society for Testing and Materials, West Conshohocken, PA, 2011.

[33] Stevens, Gary L. and Tregoning, Robert L., NRC Research Activities on Environmentally-Assisted Fatigue, Paper No. M45728, 15th International Conference on Environmental Degradation of Materials in Nuclear Power Systems - Water Reactors, August 7-11, 2011, Cheyenne Mountain Resort, Colorado Springs, CO, USA.

[34] Tregoning, Robert L. and Stevens, Gary L., U.S. Nuclear Regulatory Commission Plans for Commercial Power Plant Licensing and Assessment of Environmental Effects on Fatigue Lives of Critical Reactor Components, 37th Materials Testing Institute (MPA)

Seminar, University of Stuttgart, Stuttgart, Germany, October 5-7, 2011.

[35] Benson, M., Stevens, G. L., Kirk, M., Cipolla, R., and Scarth, D., Understanding Equivalent Margins Analysis for Required Upper Shelf Energy, PVP2012-78227, ASME, 2012 Pressure Vessels and Piping Conference, Toronto, ON, Canada, July 15-19, 2012.

[36] Walter, M., Stevens, G. L., Yin, S., Sommerville, D., Palm, N., and Heinecke, C.,

Supplemental Stress and Fracture Mechanics Analyses of Pressurized Water Reactor Pressure Vessel Nozzles, PVP2012-78119, ASME, 2012 Pressure Vessels and Piping Conference, Toronto, ON, Canada, July 15-19, 2012.

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[37] Kirk, M., Hein, H., Erickson, M., Server, W., and Stevens, G., A Fracture Toughness Based Transition Between Reference Temperature for Use in the ASME Code with the Crack Arrest (KIA) Curve,PVP2014-28311, ASME, 2014 Pressure Vessels and Piping Conference, Anaheim, CA, July 20-24, 2014.

[38] Kirk, M., Erickson, M., Server, W., Stevens, G., and Cipolla, R., Assessment of Fracture Toughness Models for Ferritic Steels Used in Section XI of the ASME Code Relative to Current Data-Based Models,PVP2014-28540, ASME, 2014 Pressure Vessels and Piping Conference, Anaheim, CA, July 20-24, 2014.

[39] Reinhardt, W. and Stevens, G., Comparison of Peak Stress-Based and Flaw Tolerance-Based Fatigue Analysis of a Cylinder with Variable Stress Concentrations,PVP2014-28895, ASME, 2014 Pressure Vessels and Piping Conference, Anaheim, CA, July 20-24, 2014.

[40] Dewees, D. J., Hirschberg, P., Reinhardt, W., Stevens, G. L., Roarty, D. H., Gosselin, S.,

Wright, K., and Damiani, T. M., ASME Section III Flaw Tolerance Sample Problem for Fatigue Design of Nuclear System Components,PVP2014-28788, ASME, 2014 Pressure Vessels and Piping Conference, Anaheim, CA, July 20-24, 2014.

[41] Mehta, H. S., Stevens, G. L., Sommerville, D. S., Benson, M., Kirk, M., Griesbach, T. J.,

and Kusnick, J., Treatment of Stresses Exceeding Material Yield Strength in ASME Code Section XI Appendix G Fracture Toughness Evaluations,PVP2014-28397, ASME, 2014 Pressure Vessels and Piping Conference, Anaheim, CA, July 20-24, 2014.

[42] Stevens, G. L., Chopra, O. K., and Tregoning, R. L., Observations and Recommendations for Further Research Regarding Environmentally Assisted Fatigue Evaluation Methods, 40th MPA-Seminar, Materials Testing Institute, University of Stuttgart, Stuttgart, Germany, 6-7 October, 2014.

[43] Métais, T. P., Stevens, G., Blatman, G., Le Roux, J. C., and Tregoning, R. L., EDF/NRC High-Cycle Fatigue Database Proposal,PVP2015-45146, ASME, 2015 Pressure Vessels and Piping Conference, Boston, MA, July 19-23, 2015.

[44] Stevens, G. L., Kirk, M. T., and Dickson, T., Probabilistic Fracture Mechanics Evaluations That Consider Nozzles in the Extended Beltline Region of Reactor Pressure Vessels,PVP2015-45065, ASME, 2015 Pressure Vessels and Piping Conference, Boston, MA, July 19-23, 2015.

[45] Kirk, M., Stevens, G., Erickson, M., Server, W. and Gustin, H., Options for Defining the Upper Shelf Transition Temperature (TC) for Ferritic Pressure Vessel Steels,PVP2015-45307, ASME, 2015 Pressure Vessels and Piping Conference, Boston, MA, July 19-23, 2015.

[46] Kirk, M., Erickson, M., and Stevens, G., Models of the Temperature Dependence and Scatter in J-R and J0.1 for Ferritic Reactor Pressure Vessel Steels,PVP2015-45253, ASME, 2015 Pressure Vessels and Piping Conference, Boston, MA, July 19-23, 2015.

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