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{{#Wiki_filter:Harvesting An Overview and Historical Perspective Rob Tregoning NRC Public Meeting on Harvesting NRC Headquarters, Rockville, MD June 27, 2022
{{#Wiki_filter:Harvesting An Overview and Historical Perspective Rob Tregoning NRC Public Meeting on Harvesting NRC Headquarters, Rockville, MD June 27, 2022


Definitions and meeting scope Harvesting (v, adj) - removal of materials, components, or structures (MCS) from a commercial nuclear power plant (NPP) for the purpose of performing subsequent evaluations Mock-ups (n, adj) - Components produced to simulate NPP component geometries, fabrication, or repair techniques Surveillance Specimens (n) - Sacrificial test articles placed within an operating NPP that are intended for subsequent removal to evaluate age-related degradation Archival Material (n) - Remaining excess material from the fabrication of an NPP component June 27, 2022               Public Meeting on Harvesting Page 2
June 27, 2022 Public Meeting on Harvesting Definitions and meeting scope


Role of harvesting in aging management Knowledge gained through harvesting is but one facet that can support effective                        Effective Aging Management aging management June 27, 2022          Public Meeting on Harvesting      Page 3
Harvesting (v, adj) - removal of materials, components, or structures (MCS) from a commercial nuclear power plant (NPP) for the purpose of performing subsequent evaluations


Types of harvesting Harvesting can occur in one of three phases of an MCSs life Pre-Service Motivation: Understand initial performance and/or characteristics of an as-fabricated MCS Possible when NPPs have been partially or fully constructed, but not operated During Service Motivation: Evaluate current performance and/or characteristics of an MCS or evaluate the root cause of service-induced degradation Possible when an MCS is removed from service prematurely due to unanticipated age-related degradation Post-Service Motivation: Evaluate an MCS at the end of its service life to understand the progression of age-related degradation Possible when components are replaced or when NPPs permanently shut-down June 27, 2022                      Public Meeting on Harvesting          Page 4
Mock-ups (n, adj) - Components produced to simulate NPP component geometries, fabrication, or repair techniques


An abbreviated history of nuclear harvesting Surry Steam        Shippingport Aging        Reactor Pressure Vessel      Zorita NPP Generator Project    Evaluation Program              Head Materials            Zion NPP Nine-Mile Point            Pulled SGTs                                  Crystal River NPP Washington Nuclear Cracked Piping Midland      Shoreham                                              SMILE Project NPP                          Power Station        Baffle Bolts NPP 1960            1970            1980              1990            2000              2010              2020 Steam Generator BWR Piping and STG Cracking PWR Vessel Head                    Baffle Bolt Tube (STG) Wastage                                                                    Cracking Internals Cracking                and Piping Cracking Commercial NPP                                                                                         First Subsequent First License Operation Begins Harvesting Eras                                        Renewal Granted        License  Renewal Granted In the Beginning (1970 - 1990)
Surveillance Specimens (n) - Sacrificial test articles placed within an operating NPP that are intended for subsequent removal to evaluate age-related degradation
Limited opportunities                                                            Timeline Legend Some prematurely replaced components                                        Canceled NPPs Mature Operations (1990 - 2010)                                                    Degraded/Replaced Components Several canceled plants                                                    Shut-Down NPPs Occasional degraded components Current Situation (after 2010)
Supply outstrips demand Increased importance of partnering June 27, 2022                              Public Meeting on Harvesting                                          Page 5


A few early harvesting vignettes Surry Steam Generator Project Objectives:
Archival Material (n) - Remaining excess material from the fabrication of an NPP component Page 2
Validate integrity assessment by burst testing service-degraded specimens Evaluate reliability of techniques to detect, characterize and size degradation International consortium of government and industry organizations More Information: NUREG/CR-5117 Shippingport Aging Evaluation Program Objective: Evaluate aging effects of components and specimens from the decommissioned Shippingport PWR Evaluated over 200 components (e.g., battery chargers, valves, a motor control center) and specimens (e.g., from neutron shield tank, concrete, cast stainless steel components, piping)
More Information: NUREG-1144, Rev. 2 Midland Reactor Pressure Vessel Objective: Evaluate unirradiated and irradiated properties of a low-upper-shelf energy reactor pressure vessel weld material RPV head was used as an interim replacement for Davis-Besse head More Information: NUREG/CR-5736 June 27, 2022                              Public Meeting on Harvesting                  Page 6


Some regulatory success stories Generic Aging Lessons-Learned report (LR, SLR)
Effective Aging Management June 27, 2022 Public Meeting on Harvesting Role of harvesting in aging management Page 3 Knowledge gained through harvesting is but one facet that can support effective aging management
Identifies which existing plant programs are adequate for aging management and recommends specific areas where these programs should be augmented One acceptable way to manage aging effects for long-term operation Role of harvesting: Supported development of mechanical, structural, electrical AMPs and identification of those areas needing further evaluation Alternate Pressurized Thermal Shock (PTS) Rule (10 CFR 50.61a)
Voluntary rule provides alternative fracture toughness requirements for demonstrating adequate protection against PTS events Role of harvesting: Underpinned much of the basis for underlying flaw distribution, crack initiation, through-wall cracking, and nucleonics models Reactor pressure vessel head inspections (10 CFR 50.55a)
Requirements for visual, volumetric, and surface examinations of penetrations Role of harvesting: Provided confirmation that inspection frequencies are adequate to manage degradation June 27, 2022                       Public Meeting on Harvesting               Page 7


Summary Nuclear stakeholders have actively employed harvesting since the inception of commercial nuclear power plant operation to better understand performance of important materials, components, and structures Knowledge gained through harvesting is one facet that can support effective aging management While we are entering a new phase where harvesting supply is greater than demand, strategic use of harvesting will continue to play an important role to support long-term nuclear power plant operation June 27, 2022                Public Meeting on Harvesting Page 8
Harvesting can occur in one of three phases of an MCSs life


A sampling of harvesting related reports
Pre-Service
: 1. J.R. Hawthorne and A.L. Hiser, Experimental Assessments of Gundremmingen RPV Archive Material for Fluence Rate Effects Studies, NUREG/CR-5201 (MEA-2286), U.S. Nuclear Regulatory Commission, October 1988.
 
: 2. Kurtz, R. J., et al. 1990. Steam Generator Integrated Program/Stream Generator Group Project, Final Project Summary Report, NUREG/CR-5117, PNL-6226. Prepared for the U.S. Nuclear Regulatory Commission (NRC) by Pacific Northwest Laboratory, Richland, Washington.
Motivation: Understand initial performance and/or characteristics of an as-fabricated MCS
: 3. O.K. Chopra, and W.J. Shack, Mechanical Properties of Thermally Aged Cast Stainless Steels from Shippingport Reactor Components, NUREG/CR-6275 (ANL-94/37), U.S. Nuclear Regulatory Commission, April 1995.
 
: 4. G. J. Schuster, S. R. Doctor, S.L. Crawford, and A. F. Pardini, Characterization of Flaws in U.S. Reactor Pressure Vessels:
Possible when NPPs have been partially or fully constructed, but not operated
 
During Service
 
Motivation: Evaluate current performance and/or characteristics of an MCS or evaluate the root cause of service-induced degradation
 
Possible when an MCS is removed from service prematurely due to unanticipated age-related degradation
 
Post-Service
 
Motivation: Evaluate an MCS at the end of its service life to understand the progression of age-related degradation
 
Possible when components are replaced or when NPPs permanently shut-down June 27, 2022 Public Meeting on Harvesting Types of harvesting Page 4
 
June 27, 2022 Public Meeting on Harvesting An abbreviated history of nuclear harvesting Page 5 Harvesting Eras
 
In the Beginning (1970 - 1990)
 
Limited opportunities
 
Some prematurely replaced components
 
Mature Operations (1990 - 2010)
 
Several canceled plants
 
Occasional degraded components
 
Current Situation (after 2010)
 
Supply outstrips demand
 
Increased importance of partnering 1960 1970 1980 1990 2000 2010 2020 Commercial NPP Operation Begins First Subsequent License Renewal Granted First License Renewal Granted Shippingport Aging Evaluation Program Surry Steam Generator Project Midland NPP Nine-Mile Point Cracked Piping Shoreham NPP Reactor Pressure Vessel Head Materials Washington Nuclear Power Station Pulled SGTs PWR Vessel Head and Piping Cracking STG Cracking BWR Piping and Internals Cracking Steam Generator Tube (STG) Wastage Baffle Bolt Cracking SMILE Project Zorita NPP Crystal River NPP Zion NPP Baffle Bolts Canceled NPPs Degraded/Replaced Components Shut-Down NPPs Timeline Legend
 
Surry Steam Generator Project
 
Objectives:
 
Validate integrity assessment by burst testing service-degraded specimens
 
Evaluate reliability of techniques to detect, characterize and size degradation
 
International consortium of government and industry organizations
 
More Information: NUREG/CR-5117
 
Shippingport Aging Evaluation Program
 
Objective: Evaluate aging effects of components and specimens from the decommissioned Shippingport PWR
 
Evaluated over 200 components (e.g., battery chargers, valves, a motor control center) and specimens (e.g., from neutron shield tank, concrete, cast stainless steel components, piping)
 
More Information: NUREG-1144, Rev. 2
 
Midland Reactor Pressure Vessel
 
Objective: Evaluate unirradiated and irradiated properties of a low-upper-shelf energy reactor pressure vessel weld material
 
RPV head was used as an interim replacement for Davis-Besse head
 
More Information: NUREG/CR-5736 June 27, 2022 Public Meeting on Harvesting A few early harvesting vignettes Page 6
 
June 27, 2022 Public Meeting on Harvesting Some regulatory success stories
 
Generic Aging Lessons-Learned report (LR, SLR)
 
Identifies which existing plant programs are adequate for aging management and recommends specific areas where these programs should be augmented
 
One acceptable way to manage aging effects for long-term operation
 
Role of harvesting: Supported development of mechanical, structural, electrical AMPs and identification of those areas needing further evaluation
 
Alternate Pressurized Thermal Shock (PTS) Rule (10 CFR 50.61a)
 
Voluntary rule provides alternative fracture toughness requirements for demonstrating adequate protection against PTS events
 
Role of harvesting: Underpinned much of the basis for underlying flaw distribution, crack initiation, through-wall cracking, and nucleonics models
 
Reactor pressure vessel head inspections (10 CFR 50.55a)
 
Requirements for visual, volumetric, and surface examinations of penetrations
 
Role of harvesting: Provided confirmation that inspection frequencies are adequate to manage degradation Page 7
 
June 27, 2022 Public Meeting on Harvesting Summary
 
Nuclear stakeholders have actively employed harvesting since the inception of commercial nuclear power plant operation to better understand performance of important materials, components, and structures
 
Knowledge gained through harvesting is one facet that can support effective aging management
 
While we are entering a new phase where harvesting supply is greater than demand, strategic use of harvesting will continue to play an important role to support long-term nuclear power plant operation Page 8
 
June 27, 2022 Public Meeting on Harvesting A sampling of harvesting related reports Page 9 1.
J.R. Hawthorne and A.L. Hiser, Experimental Assessments of Gundremmingen RPV Archive Material for Fluence Rate Effects Studies, NUREG/CR-5201 (MEA-2286), U.S. Nuclear Regulatory Commission, October 1988.
2.
Kurtz, R. J., et al. 1990. Steam Generator Integrated Program/Stream Generator Group Project, Final Project Summary Report, NUREG/CR-5117, PNL-6226. Prepared for the U.S. Nuclear Regulatory Commission (NRC) by Pacific Northwest Laboratory, Richland, Washington.
3.
O.K. Chopra, and W.J. Shack, Mechanical Properties of Thermally Aged Cast Stainless Steels from Shippingport Reactor Components, NUREG/CR-6275 (ANL-94/37), U.S. Nuclear Regulatory Commission, April 1995.
4.
G. J. Schuster, S. R. Doctor, S.L. Crawford, and A. F. Pardini, Characterization of Flaws in U.S. Reactor Pressure Vessels:
Density and Distribution of Flaw Indications in the Shoreham Vessel, NUREG/CR-6471 Volume 3, U.S. Nuclear Regulatory Commission, November 1999.
Density and Distribution of Flaw Indications in the Shoreham Vessel, NUREG/CR-6471 Volume 3, U.S. Nuclear Regulatory Commission, November 1999.
: 5. G. J. Schuster, S. R. Doctor, A.F. Pardini, and S.L. Crawford, Characterization of Flaws in U.S. Reactor Pressure Vessels:
5.
G. J. Schuster, S. R. Doctor, A.F. Pardini, and S.L. Crawford, Characterization of Flaws in U.S. Reactor Pressure Vessels:
Validation of Flaw Density and Distribution in the Weld Metal of the PVRUF Vessel, NUREG/CR-6471 Volume 2, U.S.
Validation of Flaw Density and Distribution in the Weld Metal of the PVRUF Vessel, NUREG/CR-6471 Volume 2, U.S.
Nuclear Regulatory Commission, August 2000.
Nuclear Regulatory Commission, August 2000.
: 6. D.E. McCabe, et al. Evaluation of WF-70 Weld Metal From the Midland Unit 1 Reactor Vessel, NUREG/CR-5736 (ORNL/TM-13748), U.S. Nuclear Regulatory Commission, November 2000.
6.
: 7. A.B. Johnson, Jr., S.K. Sundaram, F.A. Garner, Program Plan for Acquiring and Examining Naturally Aged Materials and Components for Nuclear Reactors, PNNL-13930, Pacific Northwest National Laboratory, December 2001. (Prepared for the U.S. Department of Energy).
D.E. McCabe, et al. Evaluation of WF-70 Weld Metal From the Midland Unit 1 Reactor Vessel, NUREG/CR-5736 (ORNL/TM-13748), U.S. Nuclear Regulatory Commission, November 2000.
: 8. B. Alexandreanu, O.K. Chopra, and W.J. Shack, Crack Growth Rates in a PWR Environment of Nickel Alloys from the Davis-Besse and V.C. Summer Power Plants, NUREG/CR-6921 (ANL-05/55), U.S. Nuclear Regulatory Commission, November 2006.
7.
: 9. S.E. Cumblidge, et al. Nondestructive and Destructive Examination Studies on Removed-from-Service Control Rod Drive Mechanism Penetrations, NUREG/CR-6996, U.S. Nuclear Regulatory Commission, July 2009.
A.B. Johnson, Jr., S.K. Sundaram, F.A. Garner, Program Plan for Acquiring and Examining Naturally Aged Materials and Components for Nuclear Reactors, PNNL-13930, Pacific Northwest National Laboratory, December 2001. (Prepared for the U.S. Department of Energy).
June 27, 2022                                  Public Meeting on Harvesting                                        Page 9
8.
B. Alexandreanu, O.K. Chopra, and W.J. Shack, Crack Growth Rates in a PWR Environment of Nickel Alloys from the Davis-Besse and V.C. Summer Power Plants, NUREG/CR-6921 (ANL-05/55), U.S. Nuclear Regulatory Commission, November 2006.
9.
S.E. Cumblidge, et al. Nondestructive and Destructive Examination Studies on Removed-from-Service Control Rod Drive Mechanism Penetrations, NUREG/CR-6996, U.S. Nuclear Regulatory Commission, July 2009.


A further sampling of harvesting related reports
June 27, 2022 Public Meeting on Harvesting A further sampling of harvesting related reports Page 10 10.
: 10. S.E. Cumblidge, et al. Evaluation of Ultrasonic Time-of-Flight Diffraction Data for Selected Control Rod Drive Nozzles from Davis Besse Nuclear Power Plant, PNNL-19362, Pacific Northwest National Laboratory, April 2011.
S.E. Cumblidge, et al. Evaluation of Ultrasonic Time-of-Flight Diffraction Data for Selected Control Rod Drive Nozzles from Davis Besse Nuclear Power Plant, PNNL-19362, Pacific Northwest National Laboratory, April 2011.
: 11. S.L. Crawford, et al. Ultrasonic Phased Array Assessment of the Interference Fit and Leak Path of the North Anna Unit 2 Control Rod Drive Mechanism Nozzle 63 with Destructive Validation, NUREG/CR-7142 (PNNL-21547), U.S. Nuclear Regulatory Commission, August 2012.
11.
: 12. R. Fuentes, et al. Characterization and Analysis of Boral from the Zion Nuclear Power Plant Spent Fuel Pool, SRNL-TR-2018-00244, Rev. 0, Savannah River National Laboratory, March 2019 (ML19155A215).
S.L. Crawford, et al. Ultrasonic Phased Array Assessment of the Interference Fit and Leak Path of the North Anna Unit 2 Control Rod Drive Mechanism Nozzle 63 with Destructive Validation, NUREG/CR-7142 (PNNL-21547), U.S. Nuclear Regulatory Commission, August 2012.
: 13. P. Ramuhalli, et al. Criteria and Planning Guidance to Ex-Plant Harvesting to Support Subsequent License Renewal, PNNL-27120, Rev. 1, Pacific Northwest National Laboratory, March 2019 (ML19081A006).
12.
: 14. Y. Chen, et al. Crack Growth Rate and Fracture Toughness Tests on Irradiated Ex-Plant Materials. ANL-19/45, Argonne National Laboratory, July 2020 (ML20198M503).
R. Fuentes, et al. Characterization and Analysis of Boral from the Zion Nuclear Power Plant Spent Fuel Pool, SRNL-TR-2018-00244, Rev. 0, Savannah River National Laboratory, March 2019 (ML19155A215).
: 15. Chen, Y., W-Y. Chen, and B. Alexandreanu, Irradiated Microstructure of Zorita Materials, ANL-20/50, Argonne National Laboratory, Lemont, IL, August 2020. (ML20269A143)
13.
: 16. Kombaiah, B., C. Judge, J. Charboneau, S. Smith, L. Gimenes Rodrigues Albuquerque, and V. Montes de Oca Carioni, Chemical Compositional Analysis and Microstructural Characterization of Harvested Zorita Reactor Pressure Vessel (RPV) Internals, INL/EXT-21-62220, Idaho National Laboratory, Idaho Falls, ID, March 2021. (ML21124A112)
P. Ramuhalli, et al. Criteria and Planning Guidance to Ex-Plant Harvesting to Support Subsequent License Renewal, PNNL-27120, Rev. 1, Pacific Northwest National Laboratory, March 2019 (ML19081A006).
: 17. Le Pape., Y., et al, Assessment of San Onofre Concrete Susceptibility Against Irradiation Damage, Research Information Letter (RIL) 2022-07. Prepared for the U.S. Nuclear Regulatory Commission (NRC) by Oak Ridge National Laboratory, Oak Ridge, TN, 2022.
14.
: 18. Hiser, M., P. Purtscher, R.Tregoning, NRC Technical Assessment of Zorita Materials Testing Results, Research Information Letter (RIL) 2022-05. U.S. Nuclear Regulatory Commission (NRC), May 2022.
Y. Chen, et al. Crack Growth Rate and Fracture Toughness Tests on Irradiated Ex-Plant Materials. ANL-19/45, Argonne National Laboratory, July 2020 (ML20198M503).
June 27, 2022                                  Public Meeting on Harvesting                                      Page 10}}
15.
Chen, Y., W-Y. Chen, and B. Alexandreanu, Irradiated Microstructure of Zorita Materials, ANL-20/50, Argonne National Laboratory, Lemont, IL, August 2020. (ML20269A143) 16.
Kombaiah, B., C. Judge, J. Charboneau, S. Smith, L. Gimenes Rodrigues Albuquerque, and V. Montes de Oca Carioni, Chemical Compositional Analysis and Microstructural Characterization of Harvested Zorita Reactor Pressure Vessel (RPV) Internals, INL/EXT-21-62220, Idaho National Laboratory, Idaho Falls, ID, March 2021. (ML21124A112) 17.
Le Pape., Y., et al, Assessment of San Onofre Concrete Susceptibility Against Irradiation Damage, Research Information Letter (RIL) 2022-07. Prepared for the U.S. Nuclear Regulatory Commission (NRC) by Oak Ridge National Laboratory, Oak Ridge, TN, 2022.
18.
Hiser, M., P. Purtscher, R.Tregoning, NRC Technical Assessment of Zorita Materials Testing Results, Research Information Letter (RIL) 2022-05. U.S. Nuclear Regulatory Commission (NRC), May 2022.}}

Latest revision as of 16:39, 27 November 2024

NRC Presentation: Harvesting, an Overview and Historical Perspective
ML22174A323
Person / Time
Issue date: 06/27/2022
From: Robert Tregoning
NRC/RES/DE
To:
J. Poehler
Shared Package
ML22174A322 List:
References
Download: ML22174A323 (10)


Text

Harvesting An Overview and Historical Perspective Rob Tregoning NRC Public Meeting on Harvesting NRC Headquarters, Rockville, MD June 27, 2022

June 27, 2022 Public Meeting on Harvesting Definitions and meeting scope

Harvesting (v, adj) - removal of materials, components, or structures (MCS) from a commercial nuclear power plant (NPP) for the purpose of performing subsequent evaluations

Mock-ups (n, adj) - Components produced to simulate NPP component geometries, fabrication, or repair techniques

Surveillance Specimens (n) - Sacrificial test articles placed within an operating NPP that are intended for subsequent removal to evaluate age-related degradation

Archival Material (n) - Remaining excess material from the fabrication of an NPP component Page 2

Effective Aging Management June 27, 2022 Public Meeting on Harvesting Role of harvesting in aging management Page 3 Knowledge gained through harvesting is but one facet that can support effective aging management

Harvesting can occur in one of three phases of an MCSs life

Pre-Service

Motivation: Understand initial performance and/or characteristics of an as-fabricated MCS

Possible when NPPs have been partially or fully constructed, but not operated

During Service

Motivation: Evaluate current performance and/or characteristics of an MCS or evaluate the root cause of service-induced degradation

Possible when an MCS is removed from service prematurely due to unanticipated age-related degradation

Post-Service

Motivation: Evaluate an MCS at the end of its service life to understand the progression of age-related degradation

Possible when components are replaced or when NPPs permanently shut-down June 27, 2022 Public Meeting on Harvesting Types of harvesting Page 4

June 27, 2022 Public Meeting on Harvesting An abbreviated history of nuclear harvesting Page 5 Harvesting Eras

In the Beginning (1970 - 1990)

Limited opportunities

Some prematurely replaced components

Mature Operations (1990 - 2010)

Several canceled plants

Occasional degraded components

Current Situation (after 2010)

Supply outstrips demand

Increased importance of partnering 1960 1970 1980 1990 2000 2010 2020 Commercial NPP Operation Begins First Subsequent License Renewal Granted First License Renewal Granted Shippingport Aging Evaluation Program Surry Steam Generator Project Midland NPP Nine-Mile Point Cracked Piping Shoreham NPP Reactor Pressure Vessel Head Materials Washington Nuclear Power Station Pulled SGTs PWR Vessel Head and Piping Cracking STG Cracking BWR Piping and Internals Cracking Steam Generator Tube (STG) Wastage Baffle Bolt Cracking SMILE Project Zorita NPP Crystal River NPP Zion NPP Baffle Bolts Canceled NPPs Degraded/Replaced Components Shut-Down NPPs Timeline Legend

Surry Steam Generator Project

Objectives:

Validate integrity assessment by burst testing service-degraded specimens

Evaluate reliability of techniques to detect, characterize and size degradation

International consortium of government and industry organizations

More Information: NUREG/CR-5117

Shippingport Aging Evaluation Program

Objective: Evaluate aging effects of components and specimens from the decommissioned Shippingport PWR

Evaluated over 200 components (e.g., battery chargers, valves, a motor control center) and specimens (e.g., from neutron shield tank, concrete, cast stainless steel components, piping)

More Information: NUREG-1144, Rev. 2

Midland Reactor Pressure Vessel

Objective: Evaluate unirradiated and irradiated properties of a low-upper-shelf energy reactor pressure vessel weld material

RPV head was used as an interim replacement for Davis-Besse head

More Information: NUREG/CR-5736 June 27, 2022 Public Meeting on Harvesting A few early harvesting vignettes Page 6

June 27, 2022 Public Meeting on Harvesting Some regulatory success stories

Generic Aging Lessons-Learned report (LR, SLR)

Identifies which existing plant programs are adequate for aging management and recommends specific areas where these programs should be augmented

One acceptable way to manage aging effects for long-term operation

Role of harvesting: Supported development of mechanical, structural, electrical AMPs and identification of those areas needing further evaluation

Alternate Pressurized Thermal Shock (PTS) Rule (10 CFR 50.61a)

Voluntary rule provides alternative fracture toughness requirements for demonstrating adequate protection against PTS events

Role of harvesting: Underpinned much of the basis for underlying flaw distribution, crack initiation, through-wall cracking, and nucleonics models

Reactor pressure vessel head inspections (10 CFR 50.55a)

Requirements for visual, volumetric, and surface examinations of penetrations

Role of harvesting: Provided confirmation that inspection frequencies are adequate to manage degradation Page 7

June 27, 2022 Public Meeting on Harvesting Summary

Nuclear stakeholders have actively employed harvesting since the inception of commercial nuclear power plant operation to better understand performance of important materials, components, and structures

Knowledge gained through harvesting is one facet that can support effective aging management

While we are entering a new phase where harvesting supply is greater than demand, strategic use of harvesting will continue to play an important role to support long-term nuclear power plant operation Page 8

June 27, 2022 Public Meeting on Harvesting A sampling of harvesting related reports Page 9 1.

J.R. Hawthorne and A.L. Hiser, Experimental Assessments of Gundremmingen RPV Archive Material for Fluence Rate Effects Studies, NUREG/CR-5201 (MEA-2286), U.S. Nuclear Regulatory Commission, October 1988.

2.

Kurtz, R. J., et al. 1990. Steam Generator Integrated Program/Stream Generator Group Project, Final Project Summary Report, NUREG/CR-5117, PNL-6226. Prepared for the U.S. Nuclear Regulatory Commission (NRC) by Pacific Northwest Laboratory, Richland, Washington.

3.

O.K. Chopra, and W.J. Shack, Mechanical Properties of Thermally Aged Cast Stainless Steels from Shippingport Reactor Components, NUREG/CR-6275 (ANL-94/37), U.S. Nuclear Regulatory Commission, April 1995.

4.

G. J. Schuster, S. R. Doctor, S.L. Crawford, and A. F. Pardini, Characterization of Flaws in U.S. Reactor Pressure Vessels:

Density and Distribution of Flaw Indications in the Shoreham Vessel, NUREG/CR-6471 Volume 3, U.S. Nuclear Regulatory Commission, November 1999.

5.

G. J. Schuster, S. R. Doctor, A.F. Pardini, and S.L. Crawford, Characterization of Flaws in U.S. Reactor Pressure Vessels:

Validation of Flaw Density and Distribution in the Weld Metal of the PVRUF Vessel, NUREG/CR-6471 Volume 2, U.S.

Nuclear Regulatory Commission, August 2000.

6.

D.E. McCabe, et al. Evaluation of WF-70 Weld Metal From the Midland Unit 1 Reactor Vessel, NUREG/CR-5736 (ORNL/TM-13748), U.S. Nuclear Regulatory Commission, November 2000.

7.

A.B. Johnson, Jr., S.K. Sundaram, F.A. Garner, Program Plan for Acquiring and Examining Naturally Aged Materials and Components for Nuclear Reactors, PNNL-13930, Pacific Northwest National Laboratory, December 2001. (Prepared for the U.S. Department of Energy).

8.

B. Alexandreanu, O.K. Chopra, and W.J. Shack, Crack Growth Rates in a PWR Environment of Nickel Alloys from the Davis-Besse and V.C. Summer Power Plants, NUREG/CR-6921 (ANL-05/55), U.S. Nuclear Regulatory Commission, November 2006.

9.

S.E. Cumblidge, et al. Nondestructive and Destructive Examination Studies on Removed-from-Service Control Rod Drive Mechanism Penetrations, NUREG/CR-6996, U.S. Nuclear Regulatory Commission, July 2009.

June 27, 2022 Public Meeting on Harvesting A further sampling of harvesting related reports Page 10 10.

S.E. Cumblidge, et al. Evaluation of Ultrasonic Time-of-Flight Diffraction Data for Selected Control Rod Drive Nozzles from Davis Besse Nuclear Power Plant, PNNL-19362, Pacific Northwest National Laboratory, April 2011.

11.

S.L. Crawford, et al. Ultrasonic Phased Array Assessment of the Interference Fit and Leak Path of the North Anna Unit 2 Control Rod Drive Mechanism Nozzle 63 with Destructive Validation, NUREG/CR-7142 (PNNL-21547), U.S. Nuclear Regulatory Commission, August 2012.

12.

R. Fuentes, et al. Characterization and Analysis of Boral from the Zion Nuclear Power Plant Spent Fuel Pool, SRNL-TR-2018-00244, Rev. 0, Savannah River National Laboratory, March 2019 (ML19155A215).

13.

P. Ramuhalli, et al. Criteria and Planning Guidance to Ex-Plant Harvesting to Support Subsequent License Renewal, PNNL-27120, Rev. 1, Pacific Northwest National Laboratory, March 2019 (ML19081A006).

14.

Y. Chen, et al. Crack Growth Rate and Fracture Toughness Tests on Irradiated Ex-Plant Materials. ANL-19/45, Argonne National Laboratory, July 2020 (ML20198M503).

15.

Chen, Y., W-Y. Chen, and B. Alexandreanu, Irradiated Microstructure of Zorita Materials, ANL-20/50, Argonne National Laboratory, Lemont, IL, August 2020. (ML20269A143) 16.

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