RIS 2012-02, Insights Into Recent License Renewal Application Consistency with the Generic Aging Lessons Learned Report

ML11269A185 January 24, 2012 NRC REGULATORY ISSUE SUMMARY 2012-02 INSIGHTS INTO RECENT LICENSE RENEWAL APPLICATION CONSISTENCY WITH THE GENERIC AGING LESSONS LEARNED REPORT

ADDRESSEES

All licensees submitting for license renewal under Title 10 of the Code of Federal Regulations (10 CFR) Part 54, "Requirements for Renewal of Operating Licenses for Nuclear Power Plants," except those who have permanently ceased operations and have certified that fuel has been permanently removed from the reactor vesse

INTENT

The U.S. Nuclear Regulatory Commission (NRC) is issuing this regulatory issue summary (RIS) to provide information to applicants on staff insights related to the consistency of recent license renewal applications (LRAs) with NUREG-1801, "Generic Aging Lessons Learned (GALL) Report" (hereafter, referred to as the GALL Report). The purpose of this RIS is to inform future license renewal applicants (especially those with LRAs currently under development) of inconsistencies identified between LRAs and NUREG-1801 during a comparative review of recent LRA These inconsistencies resulted in the need to issue requests for additional information (RAIs), which increased the amount of applicant and staff resources needed to complete the evaluation of the LR This RIS requires no specific action or written respons To support a reduction in the number of staff RAIs, the NRC recommends that licensees in the process of developing LRAs review the information contained in this RIS and consider taking actions to eliminate inconsistencies between their LRAs and the GALL Report, as necessar

BACKGROUND INFORMATION

NUREG-1800, Revision 2, "Standard Review Plan for Review of License Renewal Applications for Nuclear Power Plants," issued December 2010 (SRP-LR), references the GALL Report as a technical basis documen The GALL Report lists generic aging management reviews (AMRs) of systems, structures, and components that may be within the scope of LRA review and identifies aging management programs (AMPs) that the NRC finds acceptable for managing the aging effects expected during a plant's operation past the expiration date of its original license (i.e., during the period of extended operation). The NRC staff uses the GALL Report as a basis for its review of LRAs, consistent with guidance in the SRP-L The staff conducted a comparative review of recent LRAs to determine if there were common areas of inconsistency between the LRAs and the technical guidance in the GALL Repor These inconsistencies were all resolved using the RAI process by the time the NRC issued the safety evaluation report for each LRA; therefore, none of the inconsistencies identified by the NRC staff impacted the effectiveness of the applicant's programs for managing the aging effects identified in the LR However, the RAIs associated with these inconsistencies increased the amount of applicant and staff resources necessary to complete the evaluation of the LR

SUMMARY OF ISSUE

This document provides an overview of the inconsistencies identified between LRAs and the GALL Report and includes recommendations on how the applicant could structure the LRA in order to avoid unnecessary RAI The inconsistencies identified by the staff include the following:

• plant-specific environment definitions that are too inclusive

• materials included in the scope of the LRA AMP without including appropriate inspection techniques

• inadequate technical justification for exceptions

• use of less frequent inspection intervals without sufficient justification

• including components or material types not within the scope of a description in SRP-LR Tables 3.X-1

• citing the raw water environment for systems that could contain concentrations of unique chemicals

• inadequate consideration of atmospheric contaminants for materials exposed to an outdoor air environment

• inadequately addressed wear of elastomers

• final safety analysis report (FSAR) supplements not consistent with SRP-LR Table 3.0-1

• inadequate detail provided for outdoor insulation items

• component exposed to steam but managed with a treated water AMR item

• failure to consider all applicable aging effects

• insufficient detail when using the generic terms "elastomer" and "polymer"

• restrictive use of the GALL Report system tables when claiming consistency These examples are typically specific to a material, environment, aging effect, and AMP combination; however, broader applicability is possible for many of the example For example, use of overly inclusive plant-specific environmental definitions is discussed below in the context of the air-indoor uncontrolled environment; however, applicants should consider broader applicability of the example and compare all of their plant-specific environment definitions to the GALL Report definitions to ensure that the plant-specific environment definitions have not included environmental factors that could result in aging effects that are not included in the GALL Report standard environment Plant-Specific Environment Definitions That Are Too Inclusive Applicants typically provide plant-specific definitions of service environments in a series of tables in Section 3.0 of the LR These tables give the plant-specific term for the environment as used in the LRA AMR tables, the description of the term, and a listing of the corresponding term for the environment in the GALL Repor Some applicants have included condensation or moist air within their plant-specific definition of "air-indoor uncontrolled," which will be referred to as "plant indoor air" for the purposes of this discussio The GALL Report Table IX.D definition of air-indoor uncontrolled states that condensation can occur but only rarely and surfaces are normally dr The inclusion of condensation or moist air in the plant-specific definition of plant indoor air expands that environment such that aging effects could occur beyond those that would occur if the surface is normally dry, as stated in the GALL Report's definition of air-indoor uncontrolle When applicants include condensation or moist air within the plant-specific definition of plant indoor air, the staff may not be able to determine whether the applicant has appropriately evaluated the AMR ite For example, one station had AMR items associated with aluminum, copper alloy, stainless steel, and steel components that were exposed to a plant indoor air environmen The plant-specific plant indoor air environment included the GALL Report environments of air-indoor controlled, condensation, and moist ai In the LRA, each of the material types had AMR items that stated that there was no aging effect requiring management (AERM), and no AMP was propose The AMR tables did not have any plant-specific notes describing the specific environment to which the individual AMR items were expose In contrast, the GALL Report states that some of these materials have AERMs when exposed to condensation or moist ai Given the information provided in the LRA and the GALL Report recommendations, the staff had to issue RAIs, because with the all-inclusive plant indoor air plant-specific definition, the staff could not determine if condensation was presen Given the number of AMR items exposed to some variant of an air environment, the applicant and staff reviews necessary to resolve RAIs of this nature require significant resource In order to provide sufficient information to preclude the need for an RAI, the applicant should recognize the differences between the plant-specific and GALL Report environment definition and understand circumstances in which these differences may result in different aging effects for the same materia If the AERMs are different, the applicant should provide additional clarifying information, such as plant-specific notes, to justify why the aging effect does not require managemen For example, an applicant would need to justify why no AERM is associated with aluminum components exposed to a plant-specific indoor air environment that includes condensatio However, if the actual environment for the components was consistent with the GALL Report definition for air-indoor controlled or air-indoor uncontrolled, a determination that there are no AERM is consistent with the GALL Repor In this example, the applicant could have used plant-specific notes to state that the aluminum components were not exposed to condensatio Materials Included in the Scope of the LRA AMP Without Including Appropriate Inspection Techniques Revision 2 of the GALL Report expanded the recommended range of materials in many of the AMPs (e.g., in Revision 1 of the GALL Report, AMP XI.M29, "Aboveground Steel Tanks," included only steel tanks, whereas in Revision 2 of the GALL Report, AMP XI.M29, "Aboveground Metallic Tanks," includes all metallic tanks). Nevertheless, the staff recognizes that it may be necessary to include materials in an LRA AMP beyond those recommended in the GALL Report AMP based on an applicant's plant-specific material, environment, and aging effect (MEA) combinations; however, the program elements, in particular "parameters monitored/inspected," "detection of aging effects," and "acceptance criteria" were developed based on the MEA combinations as stated in the GALL Report AM Therefore, when an LRA AMP includes a material type that is beyond those listed in the corresponding GALL Report AMP, the applicant should ensure that the AMP includes the appropriate inspection technique For example, GALL Report AMP XI.M38, "Inspection of Internal Surfaces in Miscellaneous Piping and Ducting Components," includes metallic materials exposed to many different environments and recommends visual inspection The GALL Report has no AMR items for copper alloy greater than 15 percent zinc that recommend the use of AMP XI.M3 This is appropriate because this material type is subject to selective leaching, which cannot be consistently detected by visual inspections alon The GALL Report recommends AMP XI.M33, "Selective Leaching," a program that includes visual inspections coupled with mechanical examinations for copper alloy greater than 15 percent zinc component In an application, the LRA AMR tables included copper greater than 15 percent zinc components exposed to raw water as being managed for loss of material by the applicant's Inspection of Internal Surfaces in Miscellaneous Piping and Ducting Components Progra The applicant had not enhanced its program to include mechanical examination techniques, nor did the applicant include an additional AMR item to manage these components with a program consistent with AMP XI.M3 When an LRA AMP includes materials other than those stated in the GALL Report AMP, the applicant should ensure that its program addresses the appropriate inspection techniques for the MEA combinatio If an alternative inspection technique would have been recommended in the GALL Report and it is not included in the program description, the staff will likely issue an RAI requesting the basis for not including the alternative inspection techniqu Inadequate Technical Justification for Exceptions SRP-LR Section 3.0.1 states the following: If a GALL Report AMP is selected to manage aging, the applicant may take one or more exceptions to specific GALL Report AMP program element However, any deviation or exception to the GALL Report AMP should be described and justified. Exceptions are portions of the GALL Report AMP that the applicant does not intend to implemen In addition, SRP-LR Sections 3.X.2.4 (e.g., 3.1.2.4, 3.2.2.4) states the following: If the applicant identifies an exception to any of the program elements of the cited GALL Report AMP, the LRA AMP should include a basis demonstrating how the criteria of 10 CFR 54.21(a)(3) would still be me The reviewer should then confirm that the LRA AMP with all exceptions would satisfy the criteria of 10 CFR 54.21(a)(3).

The regulation in 10 CFR 54.21(a)(3), in turn, states the following: For each structure and component identified in paragraph (a)(1) of this section, demonstrate that the effects of aging will be adequately managed so that the intended function(s) will be maintained consistent with the CLB [current licensing basis] for the period of extended operatio Based on the SRP-LR and 10 CFR Part 54, "Requirements for Renewal of Operating Licenses for Nuclear Power Plants," exceptions need to be described and justifie The application must contain sufficient information for the staff to determine that the intended function of the component will be consistent with the CLB for the period of extended operatio In some cases, including the following example, applicants have not provided sufficient detail in the justifications for its exception An applicant took exception to inspecting for loss of preload in its bolting integrity progra In its justification for the exception, the applicant appropriately cited that the installation torque values provided in plant procedures are based on industry experience and included expected relaxation of the join However, the applicant cited a reference that was not applicable to safety-related bolting and did not describe the controls in place to ensure compliance with procedures (e.g., training, qualifications, verification walk downs). When the justifications for exceptions include incorrect references, and insufficient detail related to plant-specific information or processes, the staff must write RAIs to resolve the basis for accepting the exceptio Use of Less Frequent Inspection Intervals Without Sufficient Justification Condition monitoring programs inspect for the presence and extent of agin In some cases (e.g., AMP XI.M33), these programs can be used to confirm the absence of aging effect The GALL Report AMPs are based on periodic, one-time, or opportunistic inspection Opportunistic inspections occur periodically when components are opened for any reason; however, the GALL Report AMP does not define a fixed periodic interva The NRC staff developed each GALL Report AMP based on expected MEA combinations and recommended the appropriate inspection interva Inconsistencies between the LRA and the GALL Report often arise when the applicant chooses to use a program that may call for fewer inspections than recommended by the GALL Report in a given interva Some applicants have selected GALL Report AMP XI.M32, "One-Time Inspection," for MEA combinations for which the GALL Report recommends a periodic or opportunistic progra For example, an applicant proposed to use a one-time inspection program instead of the program recommended in the GALL Report for elastomers exposed to indoor uncontrolled ai Elastomers are typically age-managed for hardening and loss of strength by GALL Report AMPs XI.M36 and XI.M38 because of the propensity of the elastomers to degrade as a result of environmental stressor AMP XI.M36 is a periodic program, and AMP XI.M38 is an opportunistic progra The GALL Report states that a one-time inspection program is used to do the following: The program verifies the effectiveness of an AMP and confirms the insignificance of an aging effec Situations in which additional confirmation is appropriate include (a) an aging effect is not expected to occur, but the data are insufficient to rule it out with reasonable confidence; or (b) an aging effect is expected to progress very slowly in the specified environment, but the local environment may be more adverse than generally expecte For these cases, confirmation demonstrates that either the aging effect is not occurring or that the aging effect is occurring very slowly and does not affect the component's or structure's intended function during the period of extended operation based on prior operating experience dat In the above example, the applicant justified its use of a one-time inspection program by stating that the program will be used to characterize conditions and determine whether, and to what extent, further actions may be required; however, the GALL Report recommends a periodic condition monitoring program for the specific ME If the applicant selects a program with potentially fewer inspections in a given interval than the program recommended by the GALL Report, a technical justification should be include The staff will likely issue an RAI requesting the basis for the reduced inspection frequency if the information is not provided in the LR Including Components or Material Types Not Within the Scope of a Description in SRP-LR Tables 3.X-1 SRP-LR Tables 3.X-1 (e.g., 3.1-1, 3.2-1) list recommended material, environment, aging effect, and program (MEAP) combination For example, Table 3.3-1, item 29, recommends that steel (with stainless steel cladding) and stainless steel piping, piping components, and piping elements exposed to treated borated water be managed by AMP XI.M2, "Water Chemistry," for loss of material due to pitting and crevice corrosio Each item represents a unique MEA combination with a corresponding recommended AM As recommended in Nuclear Energy Institute (NEI) 95-10, Revision 6, "Industry Guidelines for Implementing the Requirements of 10 CFR Part 54 - the License Renewal Rule," applicants can use an AMR item for a component type different than that listed in the SRP-LR table item and remain consistent with the GALL Report (i.e., cite generic note C or D); however, the applicant should ensure that the aging effects will be appropriately managed by the recommended AM In the following examples, the applicant included component and material types that were not within the scope of an SRP-LR Table 1 ite Some applicants have cited Table 3.3-1, item 29 (see description above), to manage the aging of heat exchangers or tank However, this item in AMR Table 1 is for piping and is not sufficient for heat exchangers and tanks because they are more susceptible than piping to having stagnant flow areas where aging effects are more likel This AMR item recommends AMP XI.M2 to manage aging, but it does not include a one-time inspection to check for stagnant flow areas were aging effects are more likel The program description for GALL Report AMP XI.M32, "One-Time Inspection," states, "However, there may be locations that are isolated from the flow stream for extended periods and are susceptible to the gradual accumulation or concentration of agents that promote certain aging effect This program provides inspections that verify that unacceptable degradation is not occurring." AMP XI.M32 supplements AMP XI.M2 by verifying the effectiveness of the water chemistry controls in preventing the aging effect Since heat exchangers and tanks are more susceptible to stagnant flow conditions, AMP XI.M32 should be use It would therefore be inappropriate to age-manage a heat exchanger or tank in the same manner as piping, piping components, and piping elements since AMR item 3.3.1-29 does not recommend a one-time inspectio Similarly, if an applicant is aware that one of its systems has many stagnant flow areas, it should supplement AMP XI.M2 with AMP XI.M32, even though the AMR table does not specifically recommend the practic As an additional example, an applicant included cast austenitic stainless steel (CASS) components in a line item intended for stainless steels and then stated that the AMR item was consistent with the GALL Repor The applicant cited SRP-LR, Revision 1, AMR items 3.1.1-55, 3.1.1-68, and 3.3.1-90, to age-manage CASS filter bodie CASS material is unique from stainless steel in that, in accordance with GALL Report Section IX.C, it is susceptible to loss of fracture toughness due to thermal and neutron embrittlemen Item 3.1.1-55 includes CASS Class 1 pump casings and valve bodies and bonnets exposed to reactor coolant at temperatures greater than 250 degrees Celsius (greater than 482 degrees Fahrenheit). GALL Report AMP XI.M12, "Thermal Aging Embrittlement of Cast Austenitic Stainless Steel," excludes pump casings and valve bodies from management by AMP XI.M12, but not filter bodie The primary source document, C.I. Grimes to D.J. Walters, "License Renewal Issue No. 98-0030, Thermal Aging Embrittlement of Cast Austenitic Stainless Steel Components," dated May 19, 2000 (Agencywide Documents Access and Management System (ADAMS) Accession No. ML003717179), only exempts pump and valve bodie Citing item 3.1.1-55 for a filter is not appropriate because the item only includes pump casings and valve bodie Items 3.1.1-68 and 3.3.1-90 include a variety of stainless steel, but not CASS components, and therefore, citing them for CASS items is not appropriate because the thermal embrittlement aging effect will not be addresse Applicants should ensure that the component and material type are consistent with the cited SRP-LR Table 1 ite When an applicant chooses to cite an SRP-LR Table 1 item despite an inconsistency with the component or material type, it should include plant-specific notes to justify the difference, or the staff will likely issue an RAI requesting the basis for the non-consistency with the GALL Repor Citing the Raw Water Environment for Systems that Could Contain Concentrations of Unique Chemicals GALL Report Section IX.D defines the raw water environment as consisting of untreated surface or groundwater, whether fresh, brackish, or saline in natur This includes water for use in open-cycle cooling water systems and may include potable wate Several applicants have cited the raw water environment for systems such as chlorine addition and plant drain Given the GALL Report definitions, the raw water environment is the definition that fits most closely; however, these systems can contain chlorine, oil, halogenic materials, or other substances that could affect the aging of component This is particularly true when the system uses polymeric material For example, if fiberglass piping is exposed to chlorine levels above 20 percent, aging will likely occu In multiple cases, applicants have stated that there are no aging effects, but the staff had to issue RAIs to determine the content of chemicals in the raw wate In response to RAIs, applicants have added AERMs and AMPs based on the specific chemicals in the raw wate Applicants should review the chemicals or contaminants that would be expected to be present during normal plant operations in a system's raw wate They should include plant-specific notes that describe the presence or absence of chemicals or contaminants in raw water systems, such as chlorine addition or plant drain If the staff's review of the system description and Table 2 AMR items results in ambiguity related to the potential for chemicals or contaminants in a raw water system, the staff will likely issue an RAI requesting the chemical species and concentrations in order to determine if there is an unidentified aging effec Inadequate Consideration of Atmospheric Contaminants for Materials Exposed to an Outdoor Air Environment In Revision 2 of the SRP-LR, Section 3.2.2.2.3 (and other sections on further evaluation) addresses loss of material due to pitting and crevice corrosio Item 2 of this section addresses stainless steel piping, piping components, piping elements, and tanks exposed to outdoor ai Specifically, Item 2 states the following:

Loss of material due to pitting and crevice corrosion could occur for stainless steel piping, piping components, piping elements, and tanks exposed to outdoor ai The possibility of pitting and crevice corrosion also extends to components exposed to air which has recently been introduced into buildings, i.e., components near intake vent Pitting and crevice corrosion is only known to occur in environments containing sufficient halides (primarily chlorides) and in which condensation or deliquescence is possibl Condensation or deliquescence should generally be assumed to be possibl Applicable outdoor air environments (and associated indoor air environments) include, but are not limited to, those within approximately 5 miles of a saltwater coastline, those within 1/2 mile of a highway which is treated with salt in the wintertime, those areas in which the soil contains more than trace chlorides, those plants having cooling towers where the water is treated with chlorine or chlorine compounds, and those areas subject to chloride contamination from other agricultural or industrial source This item is applicable for the environments described abov The applicant may demonstrate that this item is not applicable by describing the outdoor air environment present at the plant and demonstrating that external pitting or crevice corrosion is not expecte The GALL Report recommends further evaluation to determine whether an aging management program is needed to manage this aging effect based on the environmental conditions applicable to the plant and requirements applicable to the component Revision 1 of the GALL Report did not address these specific provision Four recent applications, submitted with references to Revision 1 of the GALL Report, all included stainless steel piping exposed to outdoor ai Three of the four stated that all or portions of the stainless steel piping exposed to outdoor air had no AERM and no proposed AM Although Revision 1 of the GALL Report did not cover them, these aging effects were clearly addressed in metallurgical reference The GALL Report does not include all possible MEA combination Applicants could have plant-specific materials exposed to outdoor air that could degrade as a result of deleterious compounds in the atmosphere associated with arid land, agriculture, industrial plant emissions, road salt compound, cooling tower vapor, and trace compound When identifying materials that are not addressed in the GALL Report, the applicant should review metallurgical references to determine if there are AERM and provide plant-specific notes documenting the absence of deleterious atmospheric compounds that could cause aging effects in the materia The staff will likely issue an RAI if atmospheric contaminants could affect aging of outdoor components and no AERM or AMP is listed in the LR Inadequately Addressed Wear of Elastomers In Revision 1 of the SRP-LR, Section 3.3.2.2.13 stated that "Loss of material due to wear could occur in the elastomer seals and components exposed to air indoor uncontrolled (internal or external). The GALL Report recommends further evaluation to ensure that these aging effects are adequately managed." AMR item 3.3.1-34 is associated with Section 3.3.2.2.13, which states that a plant-specific AMP is to be evaluate Revision 2 of the SRP-LR AMR replaced item 3.3.1-34 with items 3.3.1-82 and 3.3.1-96 and removed the further evaluation requiremen These two new AMR items recommend the use of GALL Report AMPs XI.M36 and XI.M38 to manage the aging effec GALL Report Section IX.F defines wear as "the removal of surface layers due to relative motion between two surfaces or under the influence of hard, abrasive particle Wear occurs in parts that experience intermittent relative motion, frequent manipulation, or in clamped joints where relative motion is not intended, but may occur due to a loss of the clamping force."

Although they submitted with reference to Revision 1 of the GALL Report, several applicants cited AMPs XI.M36 and XI.M38 to address the aging effec However, a few applicants stated that the aging effect was not applicable because either (1) wear is attributable to improper design, application, or operation, or it occurs during an active function, or (2) items that are subject to wear are replaced on a periodic basi The staff issued an RAI for each of the plant The RAI paralleled the GALL Report's definition of wear and asked the applicant to state whether it had any in-scope components that are subject to wear as a result of internal hard abrasive particles, frequent manipulation, or loss of clamping force over tim The applicants revised their LRAs after reevaluating the elastomeric components to include wear as an aging mechanism, and they included an AMP to manage the agin An applicant should review its elastomeric components to ensure that the components are not subject to age-related degradation from wear using the range of aging mechanisms contained in the GALL Report definition of wea The staff will likely issue an RAI if an applicant states that loss of material due to wear is not applicable and does not provide an adequate basi FSAR Supplements Not Consistent with SRP-LR Table 3.0-1 Revision 2 of the SRP-LR, Section 3.1.2.5, states the following in regard to material provided in the FSAR supplement:

The summary description of the programs and activities for managing the effects of aging for the period of extended operation in the FSAR Supplement should be sufficiently comprehensive that later changes can be controlled by 10 CFR 50.5 The description should contain information associated with the bases for determining that aging effects will be managed during the period of extended operatio The description should also contain any future aging management activities, including enhancements and commitments, to be completed before the period of extended operatio Table 3.0-1 of this SRP-LR provides examples of the type of information to be included in the FSAR Supplemen Each applicant, in accordance with 10 CFR 54.21(d), must provide an FSAR supplement, and

"The FSAR supplement for the facility must contain a summary description of the programs and activities for managing the effects of aging and the evaluation of time-limited aging analyses for the period of extended operation determined by paragraphs (a) and (c) of this section, respectively." For most applications, the staff has had to issue RAIs because the applicant did not include applicable information from the example summaries in SRP-LR Revision 2 Table 3.0-1 (previously Tables 3.X-2 in SRP-LR Revision 1). As an example, for the aboveground steel tanks program, the applicant did not address that the program includes preventive measures to mitigate corrosion by protecting the external surface of steel components in accordance with standard industry practice and by using sealant or caulking at the interface of concrete and component, and that it includes verification of the effectiveness of the program by measuring the thickness of the tank bottoms to ensure that significant degradation is not occurrin An applicant should ensure that its FSAR supplement description of the program includes all of the applicable details discussed in SRP-LR Table 3.0- An applicant should also ensure that the FSAR supplement description of the program includes any plant-specific AMP details that are "associated with the bases for determining that aging effects will be managed during the period of extended operation," as stated in Revision 2 of the SRP-L The staff will likely issue an RAI if the applicant's FSAR supplement program description does not meet the level of detail provided in SRP-LR Table 3.0- Inadequate Detail Provided for Outdoor Insulation Items Of eight recent LRAs, half of the plants had in-scope calcium silicate or fiberglass insulation, with an intended function related to heat transfer, which was exposed to outdoor ai In all cases, the applicants stated that there were no AERMs or recommended AMP The staff has two issues with this MEAP combinatio Industry operating experience makes it clear that both calcium silicate and fiberglass insulation will degrade when exposed to moistur For insulation exposed to indoor air, moisture intrusion only occurs as a result of periodic conditions adverse to quality, such as leakage from the component or a component above the insulated pip However, outdoor insulation is subject to rainfall and potential wide swings in humidity levels as a normal aging environmental impac Therefore, the staff issued RAIs asking the applicant to state the controls that prevent the intrusion of water into the insulatio Such intrusion is typically addressed by plant-specific procedures that control the installation of the insulation such that insulating jacketing gaps are on the bottom of the component and joints overla The second issue is related to the material of the piping underneath the insulatio If the piping is constructed of stainless steel, it is susceptible to aging due to compounds leaching from the insulation if the insulation contains sodium, silicates, or chloride The FSAR typically describes insulation leaching testing for reactor coolant pressure boundary insulatio However, the staff will not know if outdoor insulation is controlled to the same standards as reactor coolant pressure boundary insulation, and it must issue an RAI to obtain this informatio An applicant should briefly summarize how the insulation is protected from water intrusion when the LRA includes AMR items for calcium silicate or fiberglass insulation exposed to outdoor ai If the insulated piping is constructed of stainless steel, the applicant should also summarize leachable content testing result If this detail is missing from the LRA, the staff will likely issue an RA Component Exposed to Steam but Managed with a Treated Water AMR Item Two applicants stated that their high-pressure coolant injection and reactor core isolation cooling systems included steel components exposed to stea In one case, the applicant referenced SRP-LR AMR items associated with a reactor coolant environmen In the other case, the applicant referenced SRP-LR AMR items for steel piping exposed to stea Neither of the applicants referenced SRP-LR items with flow-accelerated corrosion as an aging mechanis Although the staff is aware that the high-pressure coolant injection and reactor core isolation cooling systems are infrequently operated, the shorter operating periods do not preclude the loss of material due to flow-accelerated corrosion over a 60-year operating perio Applicants should provide plant-specific notes justifying why the loss of material due to flow-accelerated corrosion is not an applicable aging effect when steel piping is exposed to stea In addition, they should ensure that the SRP-LR AMR item environment and the LRA AMR item environment are consistent, or they should provide a plant-specific note justifying the differenc If this information is not provided, the staff will likely issue an RAI requesting the basis for the possible non-consistency with the GALL Repor Failure to Consider All Applicable Aging Effects For stainless steel piping exposed to treated water, the GALL Report (e.g., items EP-32, A-58, SP-16) addresses loss of material due to pitting and crevice corrosio For stainless steel piping exposed to treated water at temperatures greater than 60 degrees C, the GALL Report (e.g., items A-61, SP-17) addresses cracking due to stress-corrosion crackin In both cases, the GALL Report recommends AMPs XI.M2 and XI.M32 to manage the agin Some applicants do not address loss of material due to pitting and crevice corrosion as an aging effect when the environment is treated water at temperatures greater than 60 degrees The staff prepares an RAI when the applicant does not also address loss of material due to pitting and crevice corrosio In a related example, copper alloy piping exposed to closed-cycle, treated, or raw water is susceptible to pitting and crevice corrosion, and in some cases microbiologically-influenced corrosio For copper alloy that is more than 15 percent zinc, the GALL Report (e.g., items RP-12, EP-27) addresses loss of material due to selective leaching and recommends GALL Report AMP XI.M3 However, based on metallurgical references, copper alloy with more than 15 percent zinc is also susceptible to pitting and crevice corrosio The staff prepares an RAI when the applicant does not also address loss of material due to pitting, crevice corrosion, and microbiologically-influenced corrosio Applicants should ensure that, when addressing material types that have additional aging effects due to exposure to a higher temperature environment or different alloying elements, they consider the susceptibility of all of the applicable aging effect If all of the applicable aging effects are not being managed, the staff will likely issue an RA Insufficient Detail when Using the Generic Terms "Elastomer" and "Polymer" The GALL Report provides little differentiation among elastomeric and polymeric materials for mechanical system The GALL Report tables do not list individual AMR items for specific types of elastomers or polymer For mechanical systems, the GALL Report predominantly states that elastomeric components exposed to a range of environments, from raw water to closed cycle cooling water and treated water, and from outdoor air to uncontrolled indoor air, are age-managed for hardening and loss of strength due to elastomer degradation by a periodic or opportunistic program (e.g., AMP XI.M20, "Open-Cycle Cooling Water System," AMP XI.M36, AMP XI.M38). If the applicant's program includes visual inspections of the material for evidence of aging effects such as surface cracking, crazing, scuffing, and dimensional changes, and if it includes physical manipulation (if the component and material are appropriate for manipulation) to detect changes in hardness, the use of the generic terms "elastomer" or "polymer" is sufficient because the staff can conclude that adequate inspections to detect aging are occurring regardless of the specific materia However, when the applicant states that there is no AERM and no AMP is recommended, it should include a plant-specific not The plant-specific note should state the actual material type or grade (e.g., polyvinyl chloride (PVC), fiberglass-reinforced vinyl ester) and identify environmental considerations that are not obvious from the LRA, FSAR, or license renewal drawings, such as exposure to ultraviolet light, ozone, high temperatures, chemicals, or radiatio The staff requires this information because susceptibility to aging varies widely with the specific material type and environmen For example, plexiglass and PVC are reasonably resistant to heat and light, while polycarbonates can degrade in this environmen Buna-N material is severely affected by ozone, while chlorinated PVC is no An applicant should ensure that the appropriate material type details are included in the LRA when it states that no AERM or AMP is applicable for an elastomeric or polymeric componen If this information is missing in the LRA, the staff will likely issue an RA Restrictive Use of the GALL Report System Tables When Claiming Consistency The GALL Report AMR tables are organized by system or structure/component typ Some applicants have stated that a specific AMR item is not consistent with the GALL Report for a particular system even though the GALL Report addresses the MEAP for a different syste The applicant can claim consistency and cite the alternative system as long as the applicant's system and the GALL Report alternative system have similar operating parameters (e.g., temperature, flow rate). The staff evaluates every AMR item; however, much less documentation is required for LRA AMR items that cite generic notes A-D than for those that cite generic notes E- Therefore, an increased use of appropriate generic notes A-D reduces the resources required to develop the safety evaluation repor

BACKFIT DISCUSSION

This RIS requires no action or written respons This guidance is directed to future license renewal applicants, particularly those currently preparing an LRA. Any action on the part of addressees to update pending LRAs in accordance with the guidance that appears in this RIS is strictly voluntar Therefore, this RIS does not constitute a backfit under 10 CFR 50.109,

"Backfitting," and the staff did not perform a backfit analysi

FEDERAL REGISTER NOTIFICATION

The NRC did not publish a notice of opportunity for public comment on this RIS in the Federal Register because the RIS is informational and because the agency presented the purpose and examples of RIS input at a public meeting with NEI on August 17, 201 A summary of the meeting is available under ADAMS Accession No. ML11256A00

CONGRESSIONAL REVIEW ACT

The NRC has determined that this action is not a rule as designated by the Congressional Review Act (5 U.S.C. 801-808) and, therefore, is not subject to the Ac RIS 2012-02 OFFICE NRR/DLR/RPOB NRR/DLR/RAPB Tech Editor* NRR/DLR/RPB1 NRR/DLR/RAPB NAME YEdmonds WHolston JDougherty DMorey DPelton DATE 10/21/2011 11/09/11 10/17/11 10/31/11 11/09/11 OFFICE NRR/DLR/RARB NRR/DLR/RPOB NRR/DLR OE* NRR/PMDA NAME BPham AAzeem MGalloway NHilton (ARivera) LHill* DATE 10/25/2011 10/28/11 11/15/11 11/21/11 11/16/11 OFFICE OIS* NRR/DORL OGC (NLO)* NRR/DPR NRR/DPR/PGCB NAME TDonnell MEvans JBiggins CHawes CMH TMensah* DATE 11/30/11 12/5/11 12/20/11 1/17/12 1/17/12 OFFICE NRR/DPR/PGCB NRR/DPR NAME KMorgan-Butler TMcGinty (RNelson for) DATE 1/20/12 1/24/12