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{{#Wiki_filter:1 PrairieIslandNPEm Resource From: Eckholt, Gene F. [Gene.Eckholt@xenuclear.com]
{{#Wiki_filter:PrairieIslandNPEm Resource From:                       Eckholt, Gene F. [Gene.Eckholt@xenuclear.com]
Sent: Wednesday, February 11, 2009 5:55 PM To: Stuart Sheldon
Sent:                       Wednesday, February 11, 2009 5:55 PM To:                         Stuart Sheldon


==Subject:==
==Subject:==
Selective Leaching Sampling Methodology Attachments:
Selective Leaching Sampling Methodology Attachments:                 LR_TR_540 Rev A-- Selective Leaching bindered.pdf Stu Here is the Selective Leaching Sampling Methodology Report. Attachment 1 to the report is an Excel file that was too large to send together with the report file. So I will try and send it separately.
LR_TR_540 Rev A-- Selective Leaching bindered.pdf Stu Here is the Selective Leaching Sampling Methodology Report. Attachment 1 to the report is an Excel file that was too large to send together with the report file. So I will try and send it separately.
Gene Eckholt Project Manager License Renewal Project Prairie Island Nuclear Generating Plant Phone: 651-388-1121 ext. 4137
Gene Eckholt Project Manager License Renewal Project Prairie Island Nuclear Generating Plant Phone: 651-388-1121 ext. 4137
<<LR_TR_540 Rev A-- Selective Leaching bindered.pdf>>
  <<LR_TR_540 Rev A-- Selective Leaching bindered.pdf>>  
1


Hearing Identifier: Prairie_Island_NonPublic Email Number: 634   Mail Envelope Properties   (7A9B2084CC9CEC45828E829CBF20D638033F6ABA)
Hearing Identifier:     Prairie_Island_NonPublic Email Number:           634 Mail Envelope Properties     (7A9B2084CC9CEC45828E829CBF20D638033F6ABA)


==Subject:==
==Subject:==
Selective Leaching Sampling Methodology Sent Date:   2/11/2009 5:55:15 PM Received Date: 2/11/2009 5:55:15 PM From:   Eckholt, Gene F.
Selective Leaching Sampling Methodology Sent Date:             2/11/2009 5:55:15 PM Received Date:         2/11/2009 5:55:15 PM From:                   Eckholt, Gene F.
Created By:   Gene.Eckholt@xenuclear.com Recipients:     "Stuart Sheldon" <Stuart.Sheldon@nrc.gov> Tracking Status: None  
Created By:             Gene.Eckholt@xenuclear.com Recipients:
"Stuart Sheldon" <Stuart.Sheldon@nrc.gov>
Tracking Status: None Post Office:            enex02.ft.nmcco.net Files                            Size                  Date & Time MESSAGE                          409                    2/11/2009 5:55:15 PM LR_TR_540 Rev A-- Selective Leaching bindered.pdf                    524421 Options Priority:                        Standard Return Notification:            No Reply Requested:                No Sensitivity:                    Normal Expiration Date:
Recipients Received:


Post Office:  enex02.ft.nmcco.net Files    Size      Date & Time MESSAGE    409      2/11/2009 5:55:15 PM LR_TR_540 Rev A-- Selective Leaching bindered.pdf   524421 Options  Priority:    Standard  Return Notification:    No  Reply Requested:    No  Sensitivity:    Normal  Expiration Date:      Recipients Received:       
PRAIRIE ISLAND NUCLEAR GENERATING PLANT                                                                                    LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT                                                                                          Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY                                                                  02/11/09 TABLE OF CONTENTS Section    Title                                                                                                        Page 1.0   PURPOSE ............................................................................................................ 3


PRAIRIE ISLAND NUCLEAR GENERATING PLANT                                                                                  LR-TR-540LICENSE RENEWAL TECHNICAL REPORT        Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY                                  02/11/09 Page 2 of 13 TABLE OF CONTENTS Section Title Page1.0PURPOSE............................................................................................................
==2.0    BACKGROUND==
.................................................................................................... 4 3.0    DISCUSSION ....................................................................................................... 5


==32.0BACKGROUND==
==4.0    REFERENCES==
....................................................................................................43.0DISCUSSION.......................................................................................................
................................................................................................... 10 LIST OF TABLES Table 1    Systems that Credit the Selective Leaching of Materials Program.................. 6 Table 2    Considerations in Selecting the Inspection Sample ........................................ 9 Table 3    Open Items.................................................................................................... 11 Table 4    Revision Summary ........................................................................................ 12 LIST OF ATTACHMENTS Attachment 1 - Components that Credit the Selective Leaching of Materials Program - Refer to LR-TR-540, Selective Leaching Sampling, Attachment 1.xls - (61 Pages) .......................................................................... 13 Page 2 of 13


==54.0REFERENCES==
PRAIRIE ISLAND NUCLEAR GENERATING PLANT                                                   LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT                                                           Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY                               02/11/09 1.0   PURPOSE The Prairie Island Nuclear Generating Plant (PINGP) Selective Leaching of Materials Program is a new aging management program (AMP), developed and implemented prior to the start of the period of extended operation. This AMP provides assurance that the intended functions of components susceptible to selective leaching are maintained during the period of extended operation. The program includes a one-time visual inspection and hardness measurement of selected components that are susceptible to selective leaching.
...................................................................................................10LIST OF TABLES Table 1Systems that Credit the Select ive Leaching of Materials Program..................6Table 2Considerations in Selecting the Inspection Sample........................................9Table 3Open Items....................................................................................................11Table 4Revision Summary........................................................................................12 LIST OF ATTACHMENTS Attachment 1-  Components that Credit the Selective Leaching of Materials Program - Refer to "LR-TR-540, Selective Leaching Sampling, Attachment 1.xls" - (61 Pages)..........................................................................13 PRAIRIE ISLAND NUCLEAR GENERATING PLANT                                                                                 LR-TR-540LICENSE RENEWAL TECHNICAL REPORT         Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY                                 02/11/09 Page 3 of 13 1.0 PURPOSE The Prairie Island Nuclear Generating Plant (PINGP) Selective Leaching of Materials Program is a new aging management program (AMP), developed and implemented prior to the start of the period of extended operation. This AMP provides assurance that the intended functions of components susceptible to selective leaching are maintained during  
In situations where hardness testing is not practical, alternate detection techniques may be used to determine the presence and extent of selective leaching. The inspections will determine if selective leaching is occurring for selected components.
 
The purpose of this document is to describe the PINGP approach for selecting sample size, sample location and inspection methods for completing the required component examinations.
the period of extended operation. The program includes a one-time visual inspection and hardness measurement of selected components that are susceptible to selective leaching.In situations where hardness testing is not practical, alternate detection techniques may be used to determine the presence and extent of selective leaching. The inspections will  
 
determine if selective leaching is occurring for selected components.The purpose of this document is to describe the PINGP approach for selecting sample size, sample location and inspection methods for completing the required component  
 
examinations.
Consistent with Section XI.M33 of NUREG-1801, Generic Aging Lessons Learned (GALL)
Consistent with Section XI.M33 of NUREG-1801, Generic Aging Lessons Learned (GALL)
Report (Reference 4.3), a Selective Leaching of Materials Program:"- ensures the integrity of the components made of cast iron, bronze, brass, and other alloys exposed to a raw water, brackish water, treated water, or groundwater environment that may lead to selective leaching of one of the metal components. The AMP includes a one-time visual inspection and hardness measurement of selected components that may  
Report (Reference 4.3), a Selective Leaching of Materials Program:
ensures the integrity of the components made of cast iron, bronze, brass, and other alloys exposed to a raw water, brackish water, treated water, or groundwater environment that may lead to selective leaching of one of the metal components. The AMP includes a one-time visual inspection and hardness measurement of selected components that may be susceptible to selective leaching to determine whether loss of materials due to selective leaching is occurring, and whether the process will affect the ability of the components to perform their intended function for the period of extended operation.
As an Exception to NUREG-1801, the PINGP Selective Leaching of Materials Program may use alternative detection techniques instead of, or in addition to, visual inspection and hardness testing for the detection of selective leaching. NUREG-1801 specifies use of only visual inspection and hardness testing. The PINGP program states that visual inspection and hardness measurement may not be feasible due to component configuration and location. In addition, other available detection techniques (e.g.,
mechanical scraping, chipping), and additional examination methods that become available to the nuclear industry, may be shown to be at least as effective as visual inspection and hardness testing in detecting and assessing the extent of selective leaching. (Reference 4.7)
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be susceptible to selective leaching to determine whether loss of materials due to selective leaching is occurring, and whether the process will affect the ability of the components to
PRAIRIE ISLAND NUCLEAR GENERATING PLANT                                                    LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT                                                            Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY                                  02/11/09 The key elements of the program necessary for implementation include:
: a. determination of the sample size based on an assessment of materials of fabrication (includes confirmation of material susceptibility), environment, and operating experience;
: b. identification of the inspection locations in the system or component;
: c. determination of the examination techniques, including acceptance criteria that would be effective in managing the aging effect; and
: d. evaluation of the need for follow-up examinations to monitor the progression of any aging degradation including expansion of the inspection sample size and location.
This document describes the PINGP approach for completing elements a and b (i.e.,
determining the sample size and inspection locations necessary to fulfill the objectives for one-time inspections for selective leaching). Examination techniques, acceptance criteria and evaluation of inspection results (i.e., elements c and d) will be contained in a separate document, the PINGP Selective Leaching of Materials Program Inspection Methods. The PINGP Program Basis Document, LR-AMP-419, provides the basis for this aging management program.


perform their intended function for the period of extended operation."As an Exception to NUREG-1801, the PINGP Selective Leaching of Materials Program may use alternative detection techniques instead of, or in addition to, visual inspection and hardness testing for the detection of selective leaching. NUREG-1801 specifies use of only visual inspection and hardness testing. The PINGP program states that visual
==2.0  BACKGROUND==


inspection and hardness measurement may not be feasible due to component
Based on a review of EPRI 1010639, Non-Class 1 Mechanical Implementation Guideline and Mechanical Tools (Reference 4.5) and other applicable guidelines such as EPRI 1007933, Aging Assessment Field Guide (Reference 4.4), selective leaching is the preferential dissolution of one element from an alloy. The two leading types of leaching are dezincification and graphitic corrosion (or graphitization).
 
Selective leaching or dealloying applies to components constructed of gray cast iron or copper alloy with greater than 15% zinc. The applicable degradation terms are dezincification for copper alloys and graphitic corrosion for gray cast iron.
configuration and location. In addition, other available detection techniques (e.g.,
Dezincification Dezincification occurs in copper alloys in a more uniform manner where high zinc content and an acidic or other aggressive environment are present. Plug type dezincification occurs when lower zinc content and a less aggressive or alkaline environment is present.
mechanical scraping, chipping), and additional examination methods that become
The zinc dissolves into solution and remains in solution. Some copper also dissolves but plates back onto the surface of the copper alloy. Dezincification can occur in clean water regardless of the presence of oxygen, though at an increased rate if oxygen is present.
 
available to the nuclear industry, may be shown to be at least as effective as visual inspection and hardness testing in detecting and assessing the extent of selective
 
leaching. (Reference 4.7)
PRAIRIE ISLAND NUCLEAR GENERATING PLANT                                                                                  LR-TR-540LICENSE RENEWAL TECHNICAL REPORT        Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY                                  02/11/09 Page 4 of 13 The key elements of the program necessary for implementation include: a. determination of the sample size based on an assessment of materials of fabrication (includes confirmation of material susceptibility), environment, and operating
 
experience;b. identification of the inspection locations in the system or component; c. determination of the examination techniques, including acceptance criteria that would be effective in managing the aging effect; and d. evaluation of the need for follow-up examinations to monitor the progression of any aging degradation including expansion of the inspection sample size and location.
This document describes the PINGP approach for completing elements "a" and "b" (i.e., determining the sample size and inspection locations necessary to fulfill the objectives for one-time inspections for selective leaching). Examination techniques, acceptance criteria
 
and evaluation of inspection results (i.e., elements "c" and "d") will be contained in a
 
separate document, the PINGP Selective Leaching of Materials Program Inspection Methods. The PINGP Program Basis Document, LR-AMP-419, provides the basis for this aging management program.
 
==2.0 BACKGROUND==
 
Based on a review of EPRI 1010639, "Non-Class 1 Mechanical Implementation Guideline and Mechanical Tools" (Reference 4.5) and other applicable guidelines such as EPRI  
 
1007933, "Aging Assessment Field Guide" (Reference 4.4), selective leaching is the preferential dissolution of one element from an alloy. The two leading types of leaching are dezincification and graphitic corrosion (or graphitization).
Selective leaching or dealloying applies to components constructed of gray cast iron or copper alloy with greater than 15% zinc. The applicable degradation terms are  
 
dezincification for copper alloys and graphitic corrosion for gray cast iron.
DezincificationDezincification occurs in copper alloys in a more uniform manner where high zinc content and an acidic or other aggressive environment are present. Plug type dezincification occurs when lower zinc content and a less aggressive or alkaline environment is present.
The zinc dissolves into solution and remains in solution. Some copper also dissolves but plates back onto the surface of the copper alloy. Dezincification can occur in clean water  
 
regardless of the presence of oxygen, though at an increased rate if oxygen is present.
Copper-zinc alloys with zinc content in excess of 15% are susceptible to dezincification.
Copper-zinc alloys with zinc content in excess of 15% are susceptible to dezincification.
PRAIRIE ISLAND NUCLEAR GENERATING PLANT                                                                                  LR-TR-540LICENSE RENEWAL TECHNICAL REPORT        Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY                                  02/11/09 Page 5 of 13 Graphitic CorrosionGraphitic corrosion occurs in gray cast iron where the carbon content exceeds the solubility of the carbon in austenite at the eutectic temperature. Most cast irons of interest contain a minimum of 2% carbon, up to approximately 3.5% based on applicable ASTM standards.
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The graphite is cathodic to the iron, providing a galvanic cell. The iron is dissolved, leaving a porous mass consisting of graphite, voids and rust. If the cast iron is in an environment that corrodes metal rapidly, uniform corrosion can occur with loss of material strength as the cast iron can retain its appearance and shape but is structurally weaker. Scraping or chipping the surface is one method of detection which can reveal any crumbling of the iron
 
beneath the surface. 3.0 DISCUSSIONIn order to ensure a representative number of components are selected and examined for the presence of the selective leaching aging mechanism, a technical screening will be performed to pick a "smart sample" for each major material/environment combination. This "smart sampling" approach is based on the premise that inspection of those areas most
 
susceptible to aging can be used to confirm whether or not selective leaching of materials is occurring in less susceptible areas. The review includes a documentation search to identify material and environment combinations meeting the threshold requirements for
 
selective leaching to occur followed by a detailed check of component material composition. Those components most susceptible are then grouped by common


material/environment and a sample is selected for inspection. The review will be performed by qualified plant personnel knowledgeable in system design, operation, inspection results and overall material condition to evaluate the selected sample sizes and locations and appropriate examination techniques for each sample group.
PRAIRIE ISLAND NUCLEAR GENERATING PLANT                                                    LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT                                                          Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY                                02/11/09 Graphitic Corrosion Graphitic corrosion occurs in gray cast iron where the carbon content exceeds the solubility of the carbon in austenite at the eutectic temperature. Most cast irons of interest contain a minimum of 2% carbon, up to approximately 3.5% based on applicable ASTM standards.
Results will be formally captured in meeting minutes and placed in the License Renewal (LR) Project files. Work Orders and maintenance procedures will be used to perform the required inspections. The overall process to satisfy elements "a" and "b" includes the  
The graphite is cathodic to the iron, providing a galvanic cell. The iron is dissolved, leaving a porous mass consisting of graphite, voids and rust. If the cast iron is in an environment that corrodes metal rapidly, uniform corrosion can occur with loss of material strength as the cast iron can retain its appearance and shape but is structurally weaker. Scraping or chipping the surface is one method of detection which can reveal any crumbling of the iron beneath the surface.
3.0  DISCUSSION In order to ensure a representative number of components are selected and examined for the presence of the selective leaching aging mechanism, a technical screening will be performed to pick a smart sample for each major material/environment combination. This smart sampling approach is based on the premise that inspection of those areas most susceptible to aging can be used to confirm whether or not selective leaching of materials is occurring in less susceptible areas. The review includes a documentation search to identify material and environment combinations meeting the threshold requirements for selective leaching to occur followed by a detailed check of component material composition. Those components most susceptible are then grouped by common material/environment and a sample is selected for inspection.
The review will be performed by qualified plant personnel knowledgeable in system design, operation, inspection results and overall material condition to evaluate the selected sample sizes and locations and appropriate examination techniques for each sample group.
Results will be formally captured in meeting minutes and placed in the License Renewal (LR) Project files. Work Orders and maintenance procedures will be used to perform the required inspections. The overall process to satisfy elements a and b includes the following four steps described in more detail below:
x  Step 1: Identify the In-Scope Components that Credit the Selective Leaching of Materials Program x  Step 2: Confirm Material Susceptibility x  Step 3: Identify Observable Characteristics x  Step 4: Define Sample Selection Strategy Step 1: Identify the In-Scope Components that Credit the Selective Leaching of Materials Program The LR systems that credit the Selective Leaching of Materials Program are listed in Table 1:
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following four steps described in more detail below:  Step 1:  Identify the In-Scope Components that Credit the Selective Leaching of Materials Program  Step 2:  Confirm Material Susceptibility  Step 3:  Identify Observable Characteristics  Step 4:  Define Sample Selection Strategy Step 1:  Identify the In-Scope Components that Credit the Selective Leaching of Materials Program The LR systems that credit the Selective Leaching of Materials Program are listed in Table 1:
PRAIRIE ISLAND NUCLEAR GENERATING PLANT                                                 LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT                                                         Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY                             02/11/09 Table 1   Systems that Credit the Selective Leaching of Materials Program Table 1 Systems that Credit the Selective Leaching of Materials Program Auxiliary Feedwater (AF) System          Fuel Oil (FO) System Chemical and Volume Control (VC)         Heating (HS) System System Circulating Water (CW) System           Main Steam (MS) System Component Cooling (CC) System            Plant Sample (SM) System Condensate (CD) System                   Primary Containment Ventilation (ZC)
PRAIRIE ISLAND NUCLEAR GENERATING PLANT                                                                                 LR-TR-540LICENSE RENEWAL TECHNICAL REPORT         Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY                                 02/11/09 Page 6 of 13 Table 1 Systems that Credit the Selective Leaching of Materials Program Table 1 Systems that Credit the Selective Leaching of Materials Program Auxiliary Feedwater (AF) SystemFuel Oil (FO) System Chemical and Volume Control (VC)
System Containment Spray (CS) System            Reactor Coolant (RC) System Residual Heat Removal (RH) System Control Room and Miscellaneous           Safety Injection (SI) System Area Ventilation (ZN) System Cooling Water (CL) System               Station & Instrument Air (SA) System Steam Generator Blowdown (SB)
System Heating (HS) System Circulating Water (CW) System Main Steam (MS) System Component Cooling (CC) SystemPlant Sample (SM) System Condensate (CD) System Primary Containment Ventilation (ZC)
System Reactor Coolant (RC) System Containment Spray (CS) System Residual Heat Removal (RH) System Control Room and Miscellaneous Area Ventilation (ZN) System Safety Injection (SI) System Station & Instrument Air (SA) System Steam Generator Blowdown (SB)
System Turbine Generator and Support (TB)
System Turbine Generator and Support (TB)
 
System Waste Disposal (WD) System Diesel Generators and Support (DG)       Water Treatment (DE) System System Feedwater (FW) System Fire Protection (FP) System Components that credit the Selective Leaching of Materials Program are contained in ALEX, the License Renewal Equipment Database (LRDB), by unique tag number (SSC Tag) or asset group ID (e.g., FP-PIPES-BURIED-CI) on a system basis. These components are further identified on License Renewal Boundary Drawings.
SystemCooling Water (CL) System Waste Disposal (WD) System Diesel Generators and Support (DG)
System Feedwater (FW) System Water Treatment (DE) System Fire Protection (FP) System Components that credit the Selective Leaching of Materials Program are contained in ALEX, the License Renewal Equipment Database (LRDB), by unique tag number (SSC Tag) or asset group ID (e.g., FP-PIPES-BURIED-CI) on a system basis. These components are further identified on License Renewal Boundary Drawings.
Approximately 3,000 individual components (e.g., valve bodies, pump casings, piping, etc.)
Approximately 3,000 individual components (e.g., valve bodies, pump casings, piping, etc.)
are presently included in the LRDB that credit the Selective Leaching of Materials Program. These components and assets were sorted from the LRDB by selecting those that credit the Selective Leaching of Materials Program for managing loss of material due  
are presently included in the LRDB that credit the Selective Leaching of Materials Program. These components and assets were sorted from the LRDB by selecting those that credit the Selective Leaching of Materials Program for managing loss of material due to selective leaching (see Attachment 1).
Page 6 of 13


to selective leaching (see Attachment 1).
PRAIRIE ISLAND NUCLEAR GENERATING PLANT                                                   LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT                                                           Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY                                 02/11/09 During the Aging Management Review (AMR) process, definitive component material composition information was not readily available to accurately determine susceptibility to selective leaching. When a components material composition could not be readily confirmed, the component was conservatively considered susceptible. This approach resulted in the inclusion of a considerable number of components whose composition was bronze, other copper alloys, or ductile cast iron that credited the Selective Leaching of Materials Program. Further review of these components is required to identify those with a material composition actually susceptible to selective leaching, and therefore subject to this AMP. These components will ultimately form the population from which the inspection sample will be selected. Those components determined to have a material composition that is not susceptible to selective leaching will not be subject to inspection.
PRAIRIE ISLAND NUCLEAR GENERATING PLANT                                                                                 LR-TR-540LICENSE RENEWAL TECHNICAL REPORT         Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY                                 02/11/09 Page 7 of 13 During the Aging Management Review (AMR) process, definitive component material composition information was not readily available to accurately determine susceptibility to  
The components listed in Attachment 1 are presently contained in twenty-four plant systems (see Table 1) and include copper alloys, gray cast iron or cast iron (when it could not be confirmed that the material is gray cast iron). However, especially for copper alloys, the actual material composition, specifically zinc content, must be determined to confirm susceptibility to selective leaching. This is accomplished in Step 2.
Step 2: Confirm Material Susceptibility This step will confirm the material composition for components listed in Attachment 1. The majority of the effort will focus on the copper alloy components.
The copper alloy components require confirmation of material prior to performing inspections for selective leaching. A sample size is to be determined from copper alloy components listed in Attachment 1. The copper alloy population will be screened until a sufficient number of susceptible components have been identified. The purpose of this process is to select copper alloy components that have a composition of greater than 15%
zinc and eliminate components that are not susceptible.
Attachment 1 includes a sufficient number of components composed of gray cast iron, such that no further effort will be expended to identify the material for components classified as cast iron (unconfirmed gray cast iron). The gray cast iron will be sampled for inspection.
Step 3: Identify Observable Characteristics As noted in Section B2.1.36 of the PINGP LRA (Reference 4.6), one-time visual inspections and hardness measurements will be performed for components on a sampling basis. In situations where hardness testing cannot be performed due to component geometry, accessibility, etc., other available detection techniques (e.g., mechanical scraping, chipping) or examination methods may be used. If dezincification or graphitization is detected, then a follow-up examination will be performed. Confirmation of selective leaching may require a metallurgical evaluation, which may include a microstructure examination. In general, the following methods will be applied:
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selective leaching. When a component's material composition could not be readily confirmed, the component was conservatively considered susceptible. This approach
PRAIRIE ISLAND NUCLEAR GENERATING PLANT                                                    LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT                                                            Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY                                  02/11/09 x    For copper alloys, visual inspection looking for discoloration. Hardness testing of both the internal and external surfaces.
x    For gray cast iron, visual inspection including scraping or chipping of the surface to check for crumbing of the iron beneath. Hardness testing of both the internal and external surfaces.
Step 4: Define Sample Selection Strategy Proposed sampling strategies will be prepared by License Renewal personnel and then reviewed and finalized with input from plant personnel. Plant personnel experienced in system design, operation, material condition, prior inspection results, and the impact of aging effects on equipment performance will perform the reviews. Personnel selected will vary depending on the sample group or portion of a sample group to be reviewed. In general, System Engineers and Program Engineers knowledgeable of system material condition through the conduct of prior inspections will participate. Maintenance and operations personnel will be contacted to provide input as well in areas they have experience in conducting inspections. The objective of each review is to select a sufficient number of inspection locations to bound loss of material due to selective leaching.
Results will be used to prepare work orders, revise preventive maintenance procedures, and implement other actions to ensure that selective leaching inspections are performed prior to the period of extended operation. Inspection methods, inspector qualifications, acceptance criteria, evaluation techniques, and documentation requirements will meet the requirements defined in the program basis document (Reference 4.7). Sample locations and examination techniques chosen will be documented with appropriate justification. In selecting sample locations a number of factors will be considered including safety, ALARA, need for scaffolding, availability of other more accessible sample locations subject to the same conditions, planned equipment inspections and component replacement.
For all sample groups, if the inspection detects degradation, the results will be evaluated by Engineering. If acceptance criteria are not met, an Action Request will be prepared and evaluated through the Corrective Action Program. The evaluation will consider impacts on component intended function(s) over the period of extended operation. Unacceptable results will be evaluated further for extent of condition, need for additional inspections, etc.
is not intended to be all inclusive but does identify some of the considerations for determining the inspection sample.
Page 8 of 13


resulted in the inclusion of a considerable number of components whose composition was bronze, other copper alloys, or ductile cast iron that credited the Selective Leaching of Materials Program. Further review of these components is required to identify those with a
PRAIRIE ISLAND NUCLEAR GENERATING PLANT                                                        LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT                                                                Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY                                      02/11/09 Table 2    Considerations in Selecting the Inspection Sample Table 2 Considerations in Selecting the Inspection Sample Component                                Attribute Characteristic Materials of Construction  Material (percentages of different alloys present)
Impurities or additives Fabrication                Cast versus forged Coatings Residual stress Chemical cleaning or treatments Environment                Applied stress (thermal, pressure, load)
Chemistry (pH, oxygen level, impurities, inhibitors)
Operating temperatures Operating Characteristics  Stagnant/low flow area Wetting/drying Pressure, temperature, radiation Flow rate/turbulence Equipment Age              Years in service System or similar component type operating experience At least one component for each unique combination of make/model and material will be selected for inspection (e.g., Gould pump casing comprised of gray cast iron, Armstrong steam trap comprised of gray cast iron, etc.). As described previously, components selected for inspection must meet the material and environment threshold conditions for the possibility of selective leaching. As the fabrication process may vary by manufacturer and component type, this further distinction is appropriate for establishing sample size and locations.
All examinations will be performed using approved work orders. Results will be documented in the work order and evaluated by the Program Owner. Any conditions identified indicating the presence of selective leaching will be documented in an Action Request for further evaluation using the Corrective Action Program.
Page 9 of 13


material composition actually susceptible to selective leaching, and therefore subject to
PRAIRIE ISLAND NUCLEAR GENERATING PLANT                                            LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT                                                    Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY                          02/11/09


this AMP. These components will ultimately form the population from which the inspection sample will be selected. Those components determined to have a material composition that is not susceptible to selective leaching will not be subject to inspection. The components listed in Attachment 1 are presently contained in twenty-four plant systems (see Table 1) and include copper alloys, gray cast iron or cast iron (when it could not be confirmed that the material is gray cast iron). However, especially for copper alloys, the actual material composition, specifically zinc content, must be determined to confirm
==4.0  REFERENCES==


susceptibility to selective leaching. This is accomplished in Step 2. Step 2: Confirm Material Susceptibility This step will confirm the material composition for components listed in Attachment 1. The majority of the effort will focus on the copper alloy components. The copper alloy components require confirmation of material prior to performing inspections for selective leaching. A sample size is to be determined from copper alloy components listed in Attachment 1. The copper alloy population will be screened until a sufficient number of susceptible components have been identified. The purpose of this process is to select copper alloy components that have a composition of greater than 15%
4.1  10 CFR Part 54, Requirements For Renewal Of Operating      Licenses For Nuclear Power Plants.
4.2   NUREG-1800, Standard Review Plan For Review Of License Renewal Applications For Nuclear Power Plants, Revision 1, September 2005.
4.3  NUREG-1801, Volume 2, Generic Aging Lessons Learned (GALL) Report, Revision 1, September 2005.
4.4  EPRI, Aging Assessment Field Guide, 1007933, December 2003.
4.5  EPRI, Non-Class 1 Mechanical Implementation Guideline and Mechanical Tools, 1010639, Revision 4, January 2006.
4.6  Application for Renewed Operating Licenses, Prairie Island Nuclear Generating Plant, Units 1 and 2, April 2008.
4.7  License Renewal Aging Management Program Basis Document, LR-AMP-419, Selective Leaching of Materials Program, Revision 2.
4.8  MNGP Selective Leaching of Materials Aging Management Program, Sampling &
Inspection Methods, Revision Draft 9/08.
Page 10 of 13


zinc and eliminate components that are not susceptible. Attachment 1 includes a sufficient number of components composed of gray cast iron, such that no further effort will be expended to identify the material for components classified as "cast iron" (unconfirmed gray cast iron). The gray cast iron will be sampled
PRAIRIE ISLAND NUCLEAR GENERATING PLANT                                          LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT                                                Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY                      02/11/09 Table 3    Open Items TECHNICAL REPORT OPEN ITEMS Item                            Description                          Status  LR AI No.
1   Create the PINGP Selective Leaching of Materials Program          O Inspection Methods document described on page 4. Alternatively, incorporate elements c and d in this document and revise accordingly.
Page 11 of 13


for inspection. Step 3: Identify Observable Characteristics As noted in Section B2.1.36 of the PINGP LRA (Reference 4.6), one-time visual inspections and hardness measurements will be performed for components on a sampling basis. In situations where hardness testing cannot be performed due to component geometry, accessibility, etc., other available detection techniques (e.g., mechanical scraping, chipping) or examination methods may be used. If dezincification or
PRAIRIE ISLAND NUCLEAR GENERATING PLANT                     LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT                             Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY   02/11/09 Table 4 Revision Summary Revision Summary Revision     Section      Summary A           All          New Document Page 12 of 13
 
graphitization is detected, then a follow-up examination will be performed. Confirmation of
 
selective leaching may require a metallurgical evaluation, which may include a microstructure examination. In general, the following methods will be applied:
PRAIRIE ISLAND NUCLEAR GENERATING PLANT                                                                                 LR-TR-540LICENSE RENEWAL TECHNICAL REPORT         Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY                                 02/11/09 Page 8 of 13  For copper alloys, visual inspection looking for discoloration. Hardness testing of both the internal and external surfaces. For gray cast iron, visual inspection including scraping or chipping of the surface to check for crumbing of the iron beneath. Hardness testing of both the internal and external surfaces. Step 4: Define Sample Selection Strategy Proposed sampling strategies will be prepared by License Renewal personnel and then reviewed and finalized with input from plant personnel. Plant personnel experienced in system design, operation, material condition, prior inspection results, and the impact of
 
aging effects on equipment performance will perform the reviews. Personnel selected will
 
vary depending on the sample group or portion of a sample group to be reviewed. In
 
general, System Engineers and Program Engineers knowledgeable of system material
 
condition through the conduct of prior inspections will participate. Maintenance and operations personnel will be contacted to provide input as well in areas they have
 
experience in conducting inspections. The objective of each review is to select a sufficient number of inspection locations to bound loss of material due to selective leaching.
Results will be used to prepare work orders, revise preventive maintenance procedures, and implement other actions to ensure that selective leaching inspections are performed
 
prior to the period of extended operation. Inspection methods, inspector qualifications, acceptance criteria, evaluation techniques, and documentation requirements will meet the
 
requirements defined in the program basis document (Reference 4.7). Sample locations and examination techniques chosen will be documented with appropriate justification. In selecting sample locations a number of factors will be considered including safety, ALARA, need for scaffolding, availability of other more accessible sample locations subject to the same conditions, planned equipment inspections and component replacement.For all sample groups, if the inspection detects degradation, the results will be evaluated by Engineering. If acceptance criteria are not met, an Action Request will be prepared and evaluated through the Corrective Action Program. The evaluation will consider impacts on component intended function(s) over the period of extended operation. Unacceptable results will be evaluated further for extent of condition, need for additional inspections, etc.
is not intended to be all inclusive but does identify some of the considerations for
 
determining the inspection sample.
PRAIRIE ISLAND NUCLEAR GENERATING PLANT                                                                                  LR-TR-540LICENSE RENEWAL TECHNICAL REPORT        Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY                                  02/11/09 Page 9 of 13 Table 2 Considerations in Selecting the Inspection Sample Table 2 Considerations in Selecting the Inspection Sample ComponentCharacteristic AttributeMaterials of Construction Material (percentages of different alloys present) Impurities oradditivesFabrication Cast versus forged Coatings Residual stress Chemical cleaning or treatments Environment Applied stress (thermal, pressure, load) Chemistry (pH, oxygen level, impurities, inhibitors) Operatingtemperatures Operating Characteristics Stagnant/low flow area Wetting/drying Pressure, temperature, radiation Flowrate/turbulence Equipment Age Years in service System or similar component type operating experience At least one component for each unique combination of make/model and material will be selected for inspection (e.g., Gould pump casing comprised of gray cast iron, Armstrong steam trap comprised of gray cast iron, etc.). As described previously, components selected for inspection must meet the material and environment threshold conditions for the possibility of selective leaching. As the fabrication process may vary by manufacturer and component type, this further distinction is appropriate for establishing sample size and
 
locations.All examinations will be performed using approved work orders. Results will be documented in the work order and evaluated by the Program Owner. Any conditions identified indicating the presence of selective leaching will be documented in an Action
 
Request for further evaluation using the Corrective Action Program.
PRAIRIE ISLAND NUCLEAR GENERATING PLANT                                                                                  LR-TR-540LICENSE RENEWAL TECHNICAL REPORT        Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY                                  02/11/09 Page 10 of 13
 
==4.0 REFERENCES==
 
4.1 10 CFR Part 54, "Requirements For Renewal Of Operating    Licenses For Nuclear Power Plants".
4.2 NUREG-1800, "Standard Review Plan For Review Of License Renewal Applications For Nuclear Power Plants", Revision 1, September 2005.
4.3 NUREG-1801, Volume 2, "Generic Aging Lessons Learned (GALL) Report", Revision 1, September 2005.
4.4EPRI, Aging Assessment Field Guide, 1007933, December 2003.
4.5 EPRI, "Non-Class 1 Mechanical Implementation Guideline and Mechanical Tools", 1010639, Revision 4, January 2006.
4.6Application for Renewed Operating Licenses, Prairie Island Nuclear Generating Plant, Units 1 and 2, April 2008.
4.7License Renewal Aging Management Program Basis Document, LR-AMP-419, "Selective Leaching of Materials Program", Revision 2.
4.8MNGP Selective Leaching of Materials Aging Management Program, Sampling &
Inspection Methods, Revision Draft 9/08.
PRAIRIE ISLAND NUCLEAR GENERATING PLANT                                                                                  LR-TR-540LICENSE RENEWAL TECHNICAL REPORT        Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY                                  02/11/09 Page 11 of 13 Table 3 Open Items TECHNICAL REPORT OPEN ITEMS ItemDescriptionStatusLRAI No.1Create the PINGP Selective Leaching of Materials Program Inspection Methods document described on page 4. Alternatively, incorporate elements c and d in this document and revise accordingly.
O PRAIRIE ISLAND NUCLEAR GENERATING PLANT                                                                                  LR-TR-540LICENSE RENEWAL TECHNICAL REPORT        Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY                                  02/11/09 Page 12 of 13 Table 4 Revision Summary Revision Summary RevisionSectionSummary AAllNewDocument PRAIRIE ISLAND NUCLEAR GENERATING PLANT                                                                                  LR-TR-540LICENSE RENEWAL TECHNICAL REPORT        Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY                                  02/11/09 Page 13 of 13 Attachment 1 -  Components that Credit the Selective Leaching of Materials Program -
Refer to "LR-TR-540, Selective Leaching Sampling, Attachment 1.xls" - (61


Pages)}}
PRAIRIE ISLAND NUCLEAR GENERATING PLANT                                        LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT                                                Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY                      02/11/09    - Components that Credit the Selective Leaching of Materials Program -
Refer to LR-TR-540, Selective Leaching Sampling, Attachment 1.xls - (61 Pages)
Page 13 of 13}}

Revision as of 09:58, 14 November 2019

2009/02/11 PINGP Lr - Selective Leaching Sampling Methodology
ML090430075
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Issue date: 02/11/2009
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References
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PrairieIslandNPEm Resource From: Eckholt, Gene F. [Gene.Eckholt@xenuclear.com]

Sent: Wednesday, February 11, 2009 5:55 PM To: Stuart Sheldon

Subject:

Selective Leaching Sampling Methodology Attachments: LR_TR_540 Rev A-- Selective Leaching bindered.pdf Stu Here is the Selective Leaching Sampling Methodology Report. Attachment 1 to the report is an Excel file that was too large to send together with the report file. So I will try and send it separately.

Gene Eckholt Project Manager License Renewal Project Prairie Island Nuclear Generating Plant Phone: 651-388-1121 ext. 4137

<<LR_TR_540 Rev A-- Selective Leaching bindered.pdf>>

1

Hearing Identifier: Prairie_Island_NonPublic Email Number: 634 Mail Envelope Properties (7A9B2084CC9CEC45828E829CBF20D638033F6ABA)

Subject:

Selective Leaching Sampling Methodology Sent Date: 2/11/2009 5:55:15 PM Received Date: 2/11/2009 5:55:15 PM From: Eckholt, Gene F.

Created By: Gene.Eckholt@xenuclear.com Recipients:

"Stuart Sheldon" <Stuart.Sheldon@nrc.gov>

Tracking Status: None Post Office: enex02.ft.nmcco.net Files Size Date & Time MESSAGE 409 2/11/2009 5:55:15 PM LR_TR_540 Rev A-- Selective Leaching bindered.pdf 524421 Options Priority: Standard Return Notification: No Reply Requested: No Sensitivity: Normal Expiration Date:

Recipients Received:

PRAIRIE ISLAND NUCLEAR GENERATING PLANT LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY 02/11/09 TABLE OF CONTENTS Section Title Page 1.0 PURPOSE ............................................................................................................ 3

2.0 BACKGROUND

.................................................................................................... 4 3.0 DISCUSSION ....................................................................................................... 5

4.0 REFERENCES

................................................................................................... 10 LIST OF TABLES Table 1 Systems that Credit the Selective Leaching of Materials Program.................. 6 Table 2 Considerations in Selecting the Inspection Sample ........................................ 9 Table 3 Open Items.................................................................................................... 11 Table 4 Revision Summary ........................................................................................ 12 LIST OF ATTACHMENTS Attachment 1 - Components that Credit the Selective Leaching of Materials Program - Refer to LR-TR-540, Selective Leaching Sampling, Attachment 1.xls - (61 Pages) .......................................................................... 13 Page 2 of 13

PRAIRIE ISLAND NUCLEAR GENERATING PLANT LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY 02/11/09 1.0 PURPOSE The Prairie Island Nuclear Generating Plant (PINGP) Selective Leaching of Materials Program is a new aging management program (AMP), developed and implemented prior to the start of the period of extended operation. This AMP provides assurance that the intended functions of components susceptible to selective leaching are maintained during the period of extended operation. The program includes a one-time visual inspection and hardness measurement of selected components that are susceptible to selective leaching.

In situations where hardness testing is not practical, alternate detection techniques may be used to determine the presence and extent of selective leaching. The inspections will determine if selective leaching is occurring for selected components.

The purpose of this document is to describe the PINGP approach for selecting sample size, sample location and inspection methods for completing the required component examinations.

Consistent with Section XI.M33 of NUREG-1801, Generic Aging Lessons Learned (GALL)

Report (Reference 4.3), a Selective Leaching of Materials Program:

ensures the integrity of the components made of cast iron, bronze, brass, and other alloys exposed to a raw water, brackish water, treated water, or groundwater environment that may lead to selective leaching of one of the metal components. The AMP includes a one-time visual inspection and hardness measurement of selected components that may be susceptible to selective leaching to determine whether loss of materials due to selective leaching is occurring, and whether the process will affect the ability of the components to perform their intended function for the period of extended operation.

As an Exception to NUREG-1801, the PINGP Selective Leaching of Materials Program may use alternative detection techniques instead of, or in addition to, visual inspection and hardness testing for the detection of selective leaching. NUREG-1801 specifies use of only visual inspection and hardness testing. The PINGP program states that visual inspection and hardness measurement may not be feasible due to component configuration and location. In addition, other available detection techniques (e.g.,

mechanical scraping, chipping), and additional examination methods that become available to the nuclear industry, may be shown to be at least as effective as visual inspection and hardness testing in detecting and assessing the extent of selective leaching. (Reference 4.7)

Page 3 of 13

PRAIRIE ISLAND NUCLEAR GENERATING PLANT LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY 02/11/09 The key elements of the program necessary for implementation include:

a. determination of the sample size based on an assessment of materials of fabrication (includes confirmation of material susceptibility), environment, and operating experience;
b. identification of the inspection locations in the system or component;
c. determination of the examination techniques, including acceptance criteria that would be effective in managing the aging effect; and
d. evaluation of the need for follow-up examinations to monitor the progression of any aging degradation including expansion of the inspection sample size and location.

This document describes the PINGP approach for completing elements a and b (i.e.,

determining the sample size and inspection locations necessary to fulfill the objectives for one-time inspections for selective leaching). Examination techniques, acceptance criteria and evaluation of inspection results (i.e., elements c and d) will be contained in a separate document, the PINGP Selective Leaching of Materials Program Inspection Methods. The PINGP Program Basis Document, LR-AMP-419, provides the basis for this aging management program.

2.0 BACKGROUND

Based on a review of EPRI 1010639, Non-Class 1 Mechanical Implementation Guideline and Mechanical Tools (Reference 4.5) and other applicable guidelines such as EPRI 1007933, Aging Assessment Field Guide (Reference 4.4), selective leaching is the preferential dissolution of one element from an alloy. The two leading types of leaching are dezincification and graphitic corrosion (or graphitization).

Selective leaching or dealloying applies to components constructed of gray cast iron or copper alloy with greater than 15% zinc. The applicable degradation terms are dezincification for copper alloys and graphitic corrosion for gray cast iron.

Dezincification Dezincification occurs in copper alloys in a more uniform manner where high zinc content and an acidic or other aggressive environment are present. Plug type dezincification occurs when lower zinc content and a less aggressive or alkaline environment is present.

The zinc dissolves into solution and remains in solution. Some copper also dissolves but plates back onto the surface of the copper alloy. Dezincification can occur in clean water regardless of the presence of oxygen, though at an increased rate if oxygen is present.

Copper-zinc alloys with zinc content in excess of 15% are susceptible to dezincification.

Page 4 of 13

PRAIRIE ISLAND NUCLEAR GENERATING PLANT LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY 02/11/09 Graphitic Corrosion Graphitic corrosion occurs in gray cast iron where the carbon content exceeds the solubility of the carbon in austenite at the eutectic temperature. Most cast irons of interest contain a minimum of 2% carbon, up to approximately 3.5% based on applicable ASTM standards.

The graphite is cathodic to the iron, providing a galvanic cell. The iron is dissolved, leaving a porous mass consisting of graphite, voids and rust. If the cast iron is in an environment that corrodes metal rapidly, uniform corrosion can occur with loss of material strength as the cast iron can retain its appearance and shape but is structurally weaker. Scraping or chipping the surface is one method of detection which can reveal any crumbling of the iron beneath the surface.

3.0 DISCUSSION In order to ensure a representative number of components are selected and examined for the presence of the selective leaching aging mechanism, a technical screening will be performed to pick a smart sample for each major material/environment combination. This smart sampling approach is based on the premise that inspection of those areas most susceptible to aging can be used to confirm whether or not selective leaching of materials is occurring in less susceptible areas. The review includes a documentation search to identify material and environment combinations meeting the threshold requirements for selective leaching to occur followed by a detailed check of component material composition. Those components most susceptible are then grouped by common material/environment and a sample is selected for inspection.

The review will be performed by qualified plant personnel knowledgeable in system design, operation, inspection results and overall material condition to evaluate the selected sample sizes and locations and appropriate examination techniques for each sample group.

Results will be formally captured in meeting minutes and placed in the License Renewal (LR) Project files. Work Orders and maintenance procedures will be used to perform the required inspections. The overall process to satisfy elements a and b includes the following four steps described in more detail below:

x Step 1: Identify the In-Scope Components that Credit the Selective Leaching of Materials Program x Step 2: Confirm Material Susceptibility x Step 3: Identify Observable Characteristics x Step 4: Define Sample Selection Strategy Step 1: Identify the In-Scope Components that Credit the Selective Leaching of Materials Program The LR systems that credit the Selective Leaching of Materials Program are listed in Table 1:

Page 5 of 13

PRAIRIE ISLAND NUCLEAR GENERATING PLANT LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY 02/11/09 Table 1 Systems that Credit the Selective Leaching of Materials Program Table 1 Systems that Credit the Selective Leaching of Materials Program Auxiliary Feedwater (AF) System Fuel Oil (FO) System Chemical and Volume Control (VC) Heating (HS) System System Circulating Water (CW) System Main Steam (MS) System Component Cooling (CC) System Plant Sample (SM) System Condensate (CD) System Primary Containment Ventilation (ZC)

System Containment Spray (CS) System Reactor Coolant (RC) System Residual Heat Removal (RH) System Control Room and Miscellaneous Safety Injection (SI) System Area Ventilation (ZN) System Cooling Water (CL) System Station & Instrument Air (SA) System Steam Generator Blowdown (SB)

System Turbine Generator and Support (TB)

System Waste Disposal (WD) System Diesel Generators and Support (DG) Water Treatment (DE) System System Feedwater (FW) System Fire Protection (FP) System Components that credit the Selective Leaching of Materials Program are contained in ALEX, the License Renewal Equipment Database (LRDB), by unique tag number (SSC Tag) or asset group ID (e.g., FP-PIPES-BURIED-CI) on a system basis. These components are further identified on License Renewal Boundary Drawings.

Approximately 3,000 individual components (e.g., valve bodies, pump casings, piping, etc.)

are presently included in the LRDB that credit the Selective Leaching of Materials Program. These components and assets were sorted from the LRDB by selecting those that credit the Selective Leaching of Materials Program for managing loss of material due to selective leaching (see Attachment 1).

Page 6 of 13

PRAIRIE ISLAND NUCLEAR GENERATING PLANT LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY 02/11/09 During the Aging Management Review (AMR) process, definitive component material composition information was not readily available to accurately determine susceptibility to selective leaching. When a components material composition could not be readily confirmed, the component was conservatively considered susceptible. This approach resulted in the inclusion of a considerable number of components whose composition was bronze, other copper alloys, or ductile cast iron that credited the Selective Leaching of Materials Program. Further review of these components is required to identify those with a material composition actually susceptible to selective leaching, and therefore subject to this AMP. These components will ultimately form the population from which the inspection sample will be selected. Those components determined to have a material composition that is not susceptible to selective leaching will not be subject to inspection.

The components listed in Attachment 1 are presently contained in twenty-four plant systems (see Table 1) and include copper alloys, gray cast iron or cast iron (when it could not be confirmed that the material is gray cast iron). However, especially for copper alloys, the actual material composition, specifically zinc content, must be determined to confirm susceptibility to selective leaching. This is accomplished in Step 2.

Step 2: Confirm Material Susceptibility This step will confirm the material composition for components listed in Attachment 1. The majority of the effort will focus on the copper alloy components.

The copper alloy components require confirmation of material prior to performing inspections for selective leaching. A sample size is to be determined from copper alloy components listed in Attachment 1. The copper alloy population will be screened until a sufficient number of susceptible components have been identified. The purpose of this process is to select copper alloy components that have a composition of greater than 15%

zinc and eliminate components that are not susceptible.

Attachment 1 includes a sufficient number of components composed of gray cast iron, such that no further effort will be expended to identify the material for components classified as cast iron (unconfirmed gray cast iron). The gray cast iron will be sampled for inspection.

Step 3: Identify Observable Characteristics As noted in Section B2.1.36 of the PINGP LRA (Reference 4.6), one-time visual inspections and hardness measurements will be performed for components on a sampling basis. In situations where hardness testing cannot be performed due to component geometry, accessibility, etc., other available detection techniques (e.g., mechanical scraping, chipping) or examination methods may be used. If dezincification or graphitization is detected, then a follow-up examination will be performed. Confirmation of selective leaching may require a metallurgical evaluation, which may include a microstructure examination. In general, the following methods will be applied:

Page 7 of 13

PRAIRIE ISLAND NUCLEAR GENERATING PLANT LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY 02/11/09 x For copper alloys, visual inspection looking for discoloration. Hardness testing of both the internal and external surfaces.

x For gray cast iron, visual inspection including scraping or chipping of the surface to check for crumbing of the iron beneath. Hardness testing of both the internal and external surfaces.

Step 4: Define Sample Selection Strategy Proposed sampling strategies will be prepared by License Renewal personnel and then reviewed and finalized with input from plant personnel. Plant personnel experienced in system design, operation, material condition, prior inspection results, and the impact of aging effects on equipment performance will perform the reviews. Personnel selected will vary depending on the sample group or portion of a sample group to be reviewed. In general, System Engineers and Program Engineers knowledgeable of system material condition through the conduct of prior inspections will participate. Maintenance and operations personnel will be contacted to provide input as well in areas they have experience in conducting inspections. The objective of each review is to select a sufficient number of inspection locations to bound loss of material due to selective leaching.

Results will be used to prepare work orders, revise preventive maintenance procedures, and implement other actions to ensure that selective leaching inspections are performed prior to the period of extended operation. Inspection methods, inspector qualifications, acceptance criteria, evaluation techniques, and documentation requirements will meet the requirements defined in the program basis document (Reference 4.7). Sample locations and examination techniques chosen will be documented with appropriate justification. In selecting sample locations a number of factors will be considered including safety, ALARA, need for scaffolding, availability of other more accessible sample locations subject to the same conditions, planned equipment inspections and component replacement.

For all sample groups, if the inspection detects degradation, the results will be evaluated by Engineering. If acceptance criteria are not met, an Action Request will be prepared and evaluated through the Corrective Action Program. The evaluation will consider impacts on component intended function(s) over the period of extended operation. Unacceptable results will be evaluated further for extent of condition, need for additional inspections, etc.

is not intended to be all inclusive but does identify some of the considerations for determining the inspection sample.

Page 8 of 13

PRAIRIE ISLAND NUCLEAR GENERATING PLANT LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY 02/11/09 Table 2 Considerations in Selecting the Inspection Sample Table 2 Considerations in Selecting the Inspection Sample Component Attribute Characteristic Materials of Construction Material (percentages of different alloys present)

Impurities or additives Fabrication Cast versus forged Coatings Residual stress Chemical cleaning or treatments Environment Applied stress (thermal, pressure, load)

Chemistry (pH, oxygen level, impurities, inhibitors)

Operating temperatures Operating Characteristics Stagnant/low flow area Wetting/drying Pressure, temperature, radiation Flow rate/turbulence Equipment Age Years in service System or similar component type operating experience At least one component for each unique combination of make/model and material will be selected for inspection (e.g., Gould pump casing comprised of gray cast iron, Armstrong steam trap comprised of gray cast iron, etc.). As described previously, components selected for inspection must meet the material and environment threshold conditions for the possibility of selective leaching. As the fabrication process may vary by manufacturer and component type, this further distinction is appropriate for establishing sample size and locations.

All examinations will be performed using approved work orders. Results will be documented in the work order and evaluated by the Program Owner. Any conditions identified indicating the presence of selective leaching will be documented in an Action Request for further evaluation using the Corrective Action Program.

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PRAIRIE ISLAND NUCLEAR GENERATING PLANT LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY 02/11/09

4.0 REFERENCES

4.1 10 CFR Part 54, Requirements For Renewal Of Operating Licenses For Nuclear Power Plants.

4.2 NUREG-1800, Standard Review Plan For Review Of License Renewal Applications For Nuclear Power Plants, Revision 1, September 2005.

4.3 NUREG-1801, Volume 2, Generic Aging Lessons Learned (GALL) Report, Revision 1, September 2005.

4.4 EPRI, Aging Assessment Field Guide, 1007933, December 2003.

4.5 EPRI, Non-Class 1 Mechanical Implementation Guideline and Mechanical Tools, 1010639, Revision 4, January 2006.

4.6 Application for Renewed Operating Licenses, Prairie Island Nuclear Generating Plant, Units 1 and 2, April 2008.

4.7 License Renewal Aging Management Program Basis Document, LR-AMP-419, Selective Leaching of Materials Program, Revision 2.

4.8 MNGP Selective Leaching of Materials Aging Management Program, Sampling &

Inspection Methods, Revision Draft 9/08.

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PRAIRIE ISLAND NUCLEAR GENERATING PLANT LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY 02/11/09 Table 3 Open Items TECHNICAL REPORT OPEN ITEMS Item Description Status LR AI No.

1 Create the PINGP Selective Leaching of Materials Program O Inspection Methods document described on page 4. Alternatively, incorporate elements c and d in this document and revise accordingly.

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PRAIRIE ISLAND NUCLEAR GENERATING PLANT LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY 02/11/09 Table 4 Revision Summary Revision Summary Revision Section Summary A All New Document Page 12 of 13

PRAIRIE ISLAND NUCLEAR GENERATING PLANT LR-TR-540 LICENSE RENEWAL TECHNICAL REPORT Revision A SELECTIVE LEACHING OF MATERIALS PROGRAM SAMPLING METHODOLOGY 02/11/09 - Components that Credit the Selective Leaching of Materials Program -

Refer to LR-TR-540, Selective Leaching Sampling, Attachment 1.xls - (61 Pages)

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