SBK-L-10192, Supplement 2 to License Renewal Application

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Supplement 2 to License Renewal Application
ML103210330
Person / Time
Site: Seabrook NextEra Energy icon.png
Issue date: 11/15/2010
From: Freeman P
NextEra Energy Seabrook
To:
Document Control Desk, Office of Nuclear Reactor Regulation
References
SBK-L-10192
Download: ML103210330 (60)


Text

NExTera T ENER GY ~SEABROOK November 15, 2010 SBK-L-10192 Docket No. 50-443 U.S. Nuclear Regulatory Commission Attention: Document Control Desk One White Flint North 11,555 Rockville Pike Rockville, MD 20852 Seabrook Station Supplement 2 to the NextEra Energy Seabrook, LLC Seabrook Station License Renewal Application

References:

1. NextEra Energy Seabrook, LLC letter SBK-L-10077, "Seabrook Station

.:Application for Renewed Operating License" May 25, 2010 (Accession Number ML101590099)

2. NextEra Energy Seabrook, LLC letter SBK-L-10179, "Supplement to the NextEra Energy Seabrook, LLC, Seabrook Station License Renewal Application", October 29, 2010 By Reference 1, NextEra Energy Seabrook, LLC submitted an application for a renewed Facility Operating License for Seabrook Station Unit No. 1. In Reference 2, NextEra Energy Seabrook, LLC submitted changes to incorporate significant industry operating experience into the Buried Piping and Tanks Inspection Program and the Inaccessible Medium Voltage Cables Not Subject to 10 CFR 50.49 Environmental Qualification Requirements Programs.

In this Supplement are: 1) revised LRA Chapter 3 tables associated with the Buried Piping and Tanks Inspection Program submitted in NextEra Energy Seabrook, LLC letter SBK-L-10179, October 29, 2010, 2) addition of a Protective Coating Monitoring and Maintenance Program (B.2.1.38) and 3) various clarifications to the LRA.

The changes are provided in Enclosures 1 through 5 to this letter. The changes are explained, and where appropriate to facilitate understanding, portions of the LRA are repeated with the change highlighted by strikethroughs for deleted text and bolded italics for inserted text. In some instances the entire text of a section has been replaced. In these cases a note is included in the introduction indicating the replacement of the entire text of the section.

NextEra Energy Seabrook, LLC, P.O. Box 300, Lafayette Road, Seabrook, NH 03874

United States Nuclear Regulatory Commission SBK-L- 10192 / Page 2 Commitment numbers 10, 11, 13, 22, 23 and 25 of the License Renewal Commitment List are modified to clarify the commitment schedule and new commitments 46 through 49 are added. There are no other new or revised regulatory commitments contained in this letter.

Enclosure 6 provides a revised LRA Appendix A - Final Safety Report Supplement Table A.3, License Renewal Commitment List, updated to reflect the license renewal commitment changes made in NextEra Energy Seabrook correspondence to date.

If there are any technical questions or additional information needed, please contact Mr.

Richard R. Cliche, License Renewal Project Manager, at (603) 773-7003.

If you have any questions regarding this correspondence, please contact Mr. Michael O'Keefe, Licensing Manger, at (603) 773-7745.

Sincerely, NextEra Energy Seabrook, LLC Paul 0. Freeman Site Vice President

Enclosures:

Enclosure 1-Changes to the Seabrook Station License Renewal Application Associated with Chapter 2 - Scoping and Screening Methodology Enclosure 2- Changes to the Seabrook Station License Renewal Application Associated with Chapter 3 - Aging Management Review Results Enclosure 3- Changes to the Seabrook Station License Renewal Application Associated with Chapter 4 - Time Limited Aging Analyses Enclosure 4- Changes to the Seabrook Station License Renewal Application Associated with Appendix A - Updated UFSAR Supplement, and Appendix B - Aging Management Programs Enclosure 5- Changes to the Seabrook Station License Renewal Application Associated with the Protective Coating Monitoring and Maintenance Program B.2.1.38 Enclosure 6- LRA Appendix A - Final Safety Report Supplement Table A.3, License Renewal Commitment List, updated to reflect the license renewal commitment changes made in NextEra Seabrook correspondence to date.

United States Nuclear Regulatory Commission SBK-L-10192 / Page 3 cc:

W. M. Dean, NRC Region I Administrator G. E. Miller, NRC Project Manager, Project Directorate 1-2 W. J. Raymond, NRC Resident Inspector R. A. Plasse Jr., NRC Project Manager, License Renewal M. Wentzel, NRC Project Manager, License Renewal Mr. Christopher M. Pope Director Homeland Security and Emergency Management New Hampshire Department of Safety Division of Homeland Security and Emergency Management Bureau of Emergency Management 33 Hazen Drive Concord, N-H 03305 John Giarrusso, Jr., Nuclear Preparedness Manager The Commonwealth of Massachusetts Emergency Management Agency 400 Worcester Road Framingham, MA 01702-5399

United States Nuclear Regulatory Commission SBK-L- 10192 / Page 4 NExIera ENERO-7Y-,el" I, Paul 0. Freeman, Site Vice President of NextEra Energy Seabrook, LLC hereby affirm that the information and statements contained within are based on facts and circumstances which are true and accurate to the best of my knowledge and belief.

Sworn and Subscribed Before me this

/I' dayof Aqvp,,,°P .2010 Paul 0. Freeman Site Vice President I

Notary Pub/lic

Enclosure 1 SBK-L-10192 Page 1 of 2 Enclosure 1-to SBK-L-1D192 Changes to the, Seabrook Station License Renewal Application Associated with Chapter 2 - Scoping and Screening Methodology

Enclosure 1 SBK-L-10192 Page 2 of 2 Introduction For clarification, line items for. thermal insulation are being added to the Seabrook Station License Renewal Application.

Description of Changes CHANGES TO SECTION 2.4

1. Revise the first paragraph of LRA Chapter 2, Section 2.4.6 (page 2.4-28) as follows:

Supports at Seabrook Station includes ASME & NON-ASME pipe restraints/supports, jet impingement barriers/shields (e.g., High Energy Line Break barriers), pipe whip restraints, supports for Tube Track, instrument tubing, miscellaneous mechanical equipment, electrical raceways and conduit, HVAC ducts, racks, panels, cabinets,, enclosures for electrical equipment, junction boxes, platforms, grout under baseplates and fasteners for support or equipment anchorage and other miscellaneous structures, instrument and battery racks, support base plate pads (silicone caulking, ethafoam, elastomer, teflon and sealant compounds), thermal insulation and reflective metallic insulationjacketing for components and equipment' that are in scope, for license renewal or are located within structures

-containing safety related components.

2. Revise the fourth paragraph of LRA Chapter-2, Section 2.4.6 (page 2.4-29) to add final bullet:

Thermal insulation.

3. Revise LRA Chapter 2, Table 2.4-6 (page 2.4-31) to add the following line item:

THERMAL INSULATION IN AIR - INDOOR Insulates UNCONTROLLED

Enclosure 2 SBK-L-10192 Page 1 of 24 Enclosure 2 to SBK-L-10192 Changes to the Seabrook Station License Renewal Application Associated with Chapter 3 - Aging Management Review Results

Enclosure 2 SBK-L'10192 Page 2 of 24 Description of Changes CHANGES TO SECTION 3.1

1. Table 3.1.2-2 is a summary of the aging effects for the Reactor Vessel. On page 3.1-70, the fifth line item on.the page describes aging management.for cracking of the Nickel Alloy Control Rod Drive Pressure Housings. The aging management programs listed in the application includesSection XI, Water Chemistry and Nickel Alloy Nozzles and Penetrations. The Nickel Alloy Nozzles and Penetrations program does not age manage the Control Rod

-Drive Pressure Housings.

a. Revise the fifth row in Table 3.1.2-2 on page 3.1-70 as follows:

ASME Section Xl Inservice A,4 Inspection Subsections IWB Control Rod IWC and IWD Program Drive Pressure Nickel Reactor Coolant IV.A2-11 Pressure Boundary Alloy (Internal) Water Chemistry Program (R-76)

Housing Nickcl Alloy Nozzles and Pcnetratiens programA b Add the following new Plant Specific Note toTable 3.1.2-2 on page 3.1-81:

4 NUREG-1801 Rev 1 Provides for -a -commitment in the FSAR supplement to implement applicable bulletins and letters and staff accepted industry guidelines, which Seabrook Station met by the Nickel Alloy Nozzles and PenetrationsProgram as providing aging management for PWSCC for this component. This program should not be listed as an applicable aging management program because its not a penetration or nozzle.-

c. Revise line item 3.1.1-34 on page 3.1-28 as follows; 3.1.1-34 Stainless steel Cracking due to Inservice Inspection, No, but Consistent with NUREG-1801. The and nickel alloy . stress corrosion Subsections IWB, IWC, licensee ASME Section Xl Inservice '

reactor control rod cracking and and IWD and Water commitment Inspection, Subsections IWB, IWC, drive head primary water Chemistry and needs to be and IWD Program,.B.2. 1.1 and the.

penetration stress corrosion for nickel alloy, confirmed -Water*Chemistry Program, B.2.1.2, pressure housings cracking comply with will be used to manage cracking due applicable NRC 'to stress corrosion cracking in the Orders and provide a stainless steel canopy seal pressure commitment in the FSAR housing and cracking due to primary..

  • supplement to ,water stress corrosion -cracking in the implement applicable nickel alloy (1) Bulletins and control rod drive pressure housing Generic Letters and (2) exposed to reactor coolant in the staff-accepted Reactor Vessel.

industry guidelines.

See Subsection 3.1.2.2.16.1.

Forthe nickel alloy component, the commitment is not applicable.

Enclosure 2 SBK'L-10192 Page 3 of 24

d. After the second paragraph of Section 3.1.2.2.16.1 "Cracking due to Stress Corrosion Cracking and Primary Stress Corrosion Cracking discussion on page 3.1-17 add the following:

Forthe nickel alloy component, the commitment is not applicable.

2. Table 3.1.2-2 is a.summary of aging management for the Reactor Vessel. On page 3.1-78, the first line on the page describes aging management for-cracking of the Reactor Vessel Primary Inlet and Outlet Nozzle Welds. The aging management programs listed in the application includes ASME Section Xl and Water Chemistry but does not include Nickel Alloy Nozzles and Penetrations. The table line item needs to be revised to add the Nickel Alloy Nozzles and Penetrations Program as an aging management program.
a. Revise line item 3.1.1-69 on page 3.1-36 as follows:

3.1.1-69 Stainless steel, Cracking due to Inservice Inspection No Consistent with NUREG-1801. The nickel alloy safety stress corrosion (IWB, IWC, and IWD), ASME Section Xl Inservice injection nozzles, cracking, primary and Water Chemistry Inspection, Subsections IWB, IWC, safe ends, and water stress and IWD Program, B.2.1.1, the Water associated welds corrosion cracking Chemistry Program, B.2.1.2, and the and buttering Nickel Alloy Nozzles and exposed to PenetrationsProgram,B.2.2.3,will

_ _ _Vessel.

b. Revise the first row in Table 3.1.2-2 on page 3.1-78 as follows:

A Reactor ASME Section Xl Inservice Vessel Inspection Subsections IWB IWC and IWD Program Primary Pressure Nickel Reactor Coolant Cracking W mIVgA2-15 Inlet and Boundary Alloy (Internal) Water Chemistry Program (R-83) 3.1.1-69 A Outlet Wezlds Nickel Alloy Nozzles and Welds *Penetrations Program E,3

Enclosure 2 SBK-L-10192 Page 4 of 24

c. Add the following new Plant Specific Note to Table 3.1.2-2 on page 3.1-81:

NUREG-1801 Rev I does not include the Nickel Alloy Nozzles and Penetrations 3 Program for aging management of PWSCC for these components. This program should be recognized as an appropriate aging management program for this component-material-environmentcombination.

3. Table 3.1.2-4 for Steam Generator for the component type "Steam Generator Primary Nozzle Weld" lists the material as Nickel Alloy and shows Nickel Alloy Nozzles and Penetrations as the aging management program. The weld material should have been listed as stainless steel.

The'following LRA changes need to be made to reflect the change in the weld material from Nickel Alloy to stainless steel;

a. Revise the Section 3.1.2.2.13 "Cracking due to Primary Water Stress Corrosion Cracking (PWSCC)" discussion on page 3.1-16 as follows:.

Seabrook Station will implement the ASME Section XI Inservice Inspection

, Subsections IWB, IWC, and IWD Program, B.2.1.1, the Nickel-Alloy Nozzles and Penetrations Program, B.2.2.3, and the Water Chemistry*

Program, B.2.1.2, to manage the aging effects of cracking due to primary water stress corrosion cracking in nickel alloy components in the Reactor Coolant System, in the nickel alloy bottom instrument tube, core support pads/coreguide lugs in the Reactor Vessel, and the nickel alloy steam generator prim.a.y nozzle weld in the Steam Generator channel head drain pipe. The ASME Section XI Inservice Inspection, Subsections IWB,'

IWC, and IWD Program, the Nickel-Alloy Nozzles and Penetrations Program, and the Water Chemistry Program are described in Appendix B.

b. Add the following bullet to Section 3.1.2.1.4 on page 3.1-7 under "Aging Management Programs" after the Flow Accelerated Corrosion Program:

Nickel Alloy Nozzles and PenetrationsProgram(B.2.2.3)

Enclosure 2 SBK-L-10192 Page 5 of 24

c. Revise line item 3.1.1-31 on page 3.1-27 as follows:

3.1.1-31 Nickel alloy and Cracking due to Inservice No, but Consistent with NUREG-1801.

steel with primary water Inspection, licensee The ASME Section XI Inservice nickel-alloy stress corrosion Subsections IWB, commitment Inspection Subsections IWB, cladding piping, cracking IWC, and IWD and needs to be IWC, and IWD Program, B.2.1.1, piping Water Chemistry confirmed the Nickel-Alloy Nozzles and component, and for nickel alloy, Penetrations Program, B.2.2.3, piping elements, comply with and the Water Chemistry penetrations, applicable NRC Program, B.2.1.2, will be used to nozzles, safe Orders and provide manage cracking due to primary ends, and welds a commitment. in water stress corrosion cracking in (other than the FSAR nickel alloy components inthe reactor vessel supplement to Reactor Coolant system, in the head); implement nickel alloy bottom instrument pressurizer applicable (1) tube and core support pads/core heater sheaths, Bulletins and guide lugs in the Reactor Vessel, sleeves, *Generic Letters and and the nickel alloy Steam diaphragm (2) staff-accepted Generator p n . ....

plate, manways industry guidelines the Steam Generator channel and flanges; head drain pipe.

core support pads/core guide See Subsection 3.1.2.2.13.

lugs

d. Revise line item 3.3.3-68 on page 3.1-36 as follows; 3.1.1-68 Stainless steel, Cracking due to Inservice Inspection No Components in the Chemical and steel with stainless stress corrosion (IWB, IWC, and IWD), Volume Control, Residual Heat Removal, steel cladding cracking and Water Chemistry and Safety Injection systems have been Class 1 piping, aligned to this line item based on fittings, pump .material, environment, and aging effect.

casings, valve bodies, nozzles, Consistent with NUREG-1 801. The safe ends, ASME Section Xl Inservice Inspection, manways, flanges, Subsections IWB, IWC, and IWD CRD housing; Program, B.2.1.1, and the Water pressurizer heater Chemistry Program, B.2.1.2, will be used sheaths, sleeves, to manage cracking due to stress diaphragm plate; corrosion cracking in the stainless steel pressurizer relief Class 1 piping components in the tank components, Chemical and Volume Control, Reactor reactor coolant. Coolant, Residual Heat Removal, and system cold leg, Safety Injection systems and the hot leg, surge line, pressurizer diaphragm plate, pressurizer and spray line heater sleeves, reactor coolant system piping and fittings cold leg, hot leg, surge line, and spray, line components in the Reactor Coolant system exposed to reactor, coolant.

Consistent with NUREG-1801. The ASME Section Xl Inservice Inspection, Subsections IWB, IWC, and IWOD Program, B.2.1.1, and the Water Chemistry Program, B.2.1.2, will be used to manage cracking due to stress, corrosion cracking in the steel With stainless steel cladding in Steam Generator. lower head, Steam Generator primary manway, Steam Generator primary nozzle, and the stainless steel Steam Generator primnary nozzle safe" end, Steam Generatorprimarynozzle weld, and Steam Generator channel head drain line coupling exposed to reactor coolant in the Steam Generator.

The pressurizer relief tank cpmponents are not exposed to treated borated water

>60°C (>140'F).

Enclosure 2 SBK-L-.10192 Page 6 of 24

e. Revise line 3.1.1-86 on page 3.3-42 as follows; 3.1.1-86 Stainless steel None None NA - No Components in Chemical and Volume piping, piping_ AEM or Control, Residual Heat Removal, and components, and AMP. -Safety Injection systems have been piping elements aligned to this line item based on material, exposed to air- environment, and aging effect.

indoor uncontrolled Consistent with NUREG-1 801. Stainless (External); air with steel piping components exposed to air-borated -water indoor uncontrolled (external) and air with leakage; concrete; borated water leakage (external) are gas contained in the Chemical and Volume Control System, Reactor Coolant, Residual Heat Removal, and Safety Injection systems.

Stainless steel heat exchanger components are contained in the Reactor Coolant system.

Stainless steel pressurizer components, pressurizer diaphragm plate; pressurizer heater sleeves, pressurizer manway..

cover, and pressurizer safe end welds exposed to air-indoor uncontrolled (external) and air with borated water leakage are contained in the Reactor Coolant system.

Stainless steel components, exposed to air-indoor uncontrolled (external) and air with borated water leakage are contained in the Reactor Vessel.

Stainless steel piping components with gas environment are contained in the Reactor Coolant system.

Stainless steel tanks exposed to air indoor uncontrolled (external) and air with borated-water leakage (external) are contained in the Reactor Coolant System.

Stainless steel steam generator channel head drain line coupling, primarynozzle weld, and primary nozzle safe ends exposed to air indoor uncontrolled (external) and air with borated water leakage (external) are contained in the Steam Generator.

Enclosure 2 SBK-L-10192 Page 7 of 24

f. On Table 3.1.2-4 on pages 3.1-104 and 105, revise the following line items for the Steam Generator Primary Nozzle Weld as follows:

Steam Stainless -

Generator Genertor Pessur Bouary Stailess Steel Air-indoor Uncontrolled None None I.4 IVE-2 3.1.1-8M86 A Primary Boundary k,*.,.Jc Etra). RP-04."

Nozzle Weld Ni.kel.Alley (External)

Steam Stainless. Air With

  • 3 ..-

Generator Pressure Borated Water lVE3 3.1.1-86 G,2 Primary Boundary Steel Leakage Nne None (RP-05) Ne A Nozzl Welde A L eaag None Nozzl Weld(External)

ASME Section Xl Inservice A Inspection, Subsections IWB Steam IWC and IWD Generator Pressure Stainless Reactor Program IV.D1-41.

Primary Boundary Steel . Coolant Cracking( 3.1.1-3468 Nozzley N ozzle Weldar

.W eld Ni* ^Alle" (Internal) Water Chemistry Program... A Program No~ke Alley Nzzeseand Penet~awns GeneratorSemStainless PressUre Steel Coolant Reactor" Loss of Water Chemistry IV.B2-32 3.1.1-83 A Primary Boundary Ste-el Coo (Internal) Material Program (RP-24) C Nozzle Weld ........... (

Steam Steam P Stainless Reactor Cumulative Primary Boundary Steel Coolant Fatigue TLAA "RIV.D1-8 3.1.1-10 A Nozzle Weld NBondr A.lley. (Internal) Damage (R-221)

g. Revised Plant Specific Note 2 from Table 3.1.2-4 on page 3.1-113 as follows:

Not Used NUREG 1801 does not.. nludc air With k #

rd 14 Yr

+

u i

c L,

t Ar IIY G pnets.SiHaFtoV. 13 ler sL-:iries steel, tIUIC ale noU ay~

effects for nickel alloy in air with boratedf Water -leakage. 'Additionally, thez America 2 Welding Society (AWS) "Weldn Hanbok," (Seventh EditionR, Volume 4, 1982, Librar' of Congress) identifies that nickel chromium alloy m-ateri-als; that are 61loye-d with iron, moelybdenum, tungsten, cobalt Or 6opper in varioEus combinations have imoroved corrosion resistance.

CHANGES TO SECTION 3.3:

The following changes were made to Section 3.3 of the Seabrook Station LRA for the Auxiliary Boiler, Control. Building Air Handling, Diesel Generator, Fire Protection, Instrument Air System, Plant Floor Drain,: and Service Water systems due to the significant changes made to the Buried Piping and Tanks Inspection Program -(Supplement 1). The Buried Piping and Tanks Inspection Program was revised and resubmitted as a plant specific program based on recent industry operating experience. Additionally, a) In the Fire Protection system, new AMR line items were added for stainless steel bolting and fiberglass piping in soil (external) environment, which was inadvertently omitted during the original LRA

Enclosure 2 SBK-L-10192 Page 8 of 24 preparation, b) In the Instrument-Air system, a new AMR line item was added for carbon steel piping in soil (external) environment, which was inadvertently omitted during the original LRA preparation, and c) In the Service Water system, new AMR line items-were added for copper alloy >15% Zn, stainless steel, and steel bolting in raw water. (external) environment for components located in the Service water system vault and valve pit, which were inadvertently omitted during the original LRA preparation.

1. In the Fire protection system, add the following bullet in Section 3.3.2.1.15 on page 3.3-26 under "Materials" (after Elastomer):
  • Fiberglass
2. In the Fire Protection system, add the following bullet to Section 3.3.2.15 on page 3.3-27 under "Aging Effects Requiring Management" (after Cracking):

.. Cracking, Blistering,and Changes in MaterialProperties

3. In the Instrument Air system, add the following bullet to Section 3.3.2.1.20 on page 3.3-34 under "Environments" (after Lubricating Oil):
  • Soil
4. In the Instrument Air system, add the following bullet to Section 3.3.2.1.20 on Page 3.3-35 under "Aging Management Programs" (after Boric Acid Corrosion Program):
  • ° Buried Piping and Tanks Inspection Program(B.2.1.22)

Enclosure 2 SBK-L-10192 Page 9 of 24

5. Revise the SRP 3.3.2.2.8 discussion on page 3.3-74 as follows:

3.3.2.2.8 Loss of Material due to General, Pitting, Crevice, and Microbiologically-Influenced Corrosion (MIC)

Loss of material due to general, pitting, crevice corrosion, and microbiologically-influencedcorrosion (MIC) could occur for steel (with or without coating or wrapping) piping, piping components, and piping elements buried in soil. The buried piping and tanks inspection program relies on industry practice, frequency of pipe excavation, and operating experience to manage the effects of loss of material from general, pitting, and crevice corrosion and MIC. The effectiveness of the buried piping and tanks inspection program should be verified to evaluate an applicant's inspection.frequency and operating experience with buried components, ensuring that loss of materiaLisnot occurring.

Seabrook Station will implement the plant specific Buried Piping and Tanks Inspection Program, B.2.1-22,. to manage loss of material due to general, pitting, crevice, and microbiologically influenced corrosion of the steel piping components (with or without coating or wrapping) buried in soil in the Auxiliary Boiler, Control Building Air Handling, Fire Protection, Instrument Air, Plant Floor Drain, and Service Water systems. The Buried Piping and Tanks Inspection Program manages buried steel piping and components for loss of material through the- use of coatings and wrappings, and periodic inspections. The program relies on preventive measures such as coating and wrapping to mitigate corrosion and periodic inspection of external surfaces to identify coating degradation, if coated, or base metal corrosion, ifuncoated. These inspections assure that existing environmental conditions are not causing material degradation that could result in a loss of component intended functions. The Buried Piping and Tanks Inspection Program is described in Appendix B.

6. Revise the second paragraph for SRP 3.3.2.2.10, Item 7 on page 3.3-81 for the Diesel Generator System as follows:

The plantspecific Buried Piping and Tanks Inspection Program, B.2.1122 will be used to manage loss of material due to pitting, crevice, and microbiologically influenced corrosion (an additional aging mechanism) of the stainless steel piping components exposed to soil in the Diesel Generator system. The Buried Piping and Tanks Inspection program is described in Appendix B.

Enclosure 2 SBK-L-1 0192 Page 10 of 24

7. Revise line 3.3.1-19 on page 3.3-91 as follows:

3.3.1-19 Steel (with or Loss of material Buried Piping and Tanks No Consistent with NUREG-1801 for without coating due to general, Surveillance material, environment and aging or wrapping) pitting, crevice, and effect, but a different aging piping, piping microbiologically Yes, management program is credited components, influenced Or detection of with exceptions. The plant specific and piping corrosion aging Buried Piping and Tanks Inspection elements effects and Program (with

, eX.etiens), B.2.1.22,

  • exposed to soil operating will be used to manage loss of Buried Piping and Tanks material due to general, pitting, Inspection experience are to be crevice, and microbiologically further influenced corrosion of the steel evaluated piping components (with or without coating or wrapping) exposed to soil in the Auxiliary Boiler, Control Building Air Handling, Fire Protection, InstrumentAir, Plant Floor Drain, and Service Water systems.

See subsection 3.3.2.2.8.

8. Revise line 3.3.1-29 on page 3.3-96 as follows; 3.3.1-29 Stainless steel Loss of material A plant-specific aging. Yes, plant Consistent with NUREG-1 801 with piping, piping due to pitting and management program is specific exeeptiens. The plantspecific components, and crevice corrosion to be evaluated. Buried Piping and Tanks Inspection piping elements Program (with exceptions), B.2.1.22, exposed to soil will be used to manage loss of material due to pitting, crevice, and microbiologically influenced corrosion (an additional aging mechanism) of the stainless steel piping components exposed to soil in the Diesel Generator system.

See subsection 3.3.2.2-.10.7.

Enclosure,2 SBK-L-10192 Page 11 of 24

9. Revise line 3.3.1-76 on page 3.3-113 as follows:

3.3.1-76 Steel piping, Loss of material Open-Cycle Cooling No Components in the Service Water piping due to general, Water System System have been aligned to this components, and pitting, crevice, and line item based on material, piping elements microbiologically environment, and aging effect but (without influenced the plant specific Buried Piping lining/coating or - corrosion, fouling, and Tanks Inspection Program, with degraded and lining/coating B.2.1.22, will be substituted to lining/coating) degradation man~ageloss of material due to exposed to raw general,pitting, crevice, and water microbiologically-influenced corrosionin steelpiping components (with or without coating or wrapping) exposed to raw water.

Components in the Circulating Water system have been aligned to this line item based on material, environment, and aging effect.

Consistent with NUREG-1801 with exceptions. The Open-Cycle Cooling.

Water System Program (with exceptions), B.2.1.11, will be used to manage loss of material due to general, pitting, crevice, and microbiologically influenced corrosion, fouling, and lining/coating degradation of the steel piping components exposed to raw water in the Service Water and Circulating Water systems. In addition, galvanic corrosion is an additional aging mechanism for the Service Water and Circulatina Water systems.

Enclosure 2 SBK-L-1 0192 Page 12 of 24

10. . Revise line 3.3.1-81 on page 3.3-117 asfollows:

3.3.1-81 Copper alloy Loss of material ,Open-Cycle Cooling No Components in the Service Water piping, piping due to pitting, Water System System have been aligned to this, components, and crevice, and line item based on material, piping elements, microbiologically environment, and aging effect but exposed to raw influenced the plantspecific Buried Piping water corrosion, and and Tanks Inspection Program,

.fouling B.2.1.2Z will be substituted to manage loss of material due to general,pitting, crevice, and microbiologically-influenced corrosionand fouling in copper alloy piping components exposed to raw water.

Components in the Circulating Water systemhave been aligned to this line item due to material, environment, and aging effect.

Consistent with NUREG 1801 with exceptions. The Open-Cycle Cooling Water System Program (with exceptions), B.2.1.11, will be used to manage loss of material due to pitting, crevice, and microbiologically influenced corrosion, and fouling of the copper alloy piping components exposed to raw water in the Service Water and Circulating Water systems.

Compbnents in the Chlorination, Dewatering, Plant Floor Drain, and Screen Wash systems have been aligned to this item number based on material, environment and aging effect.

Consistent with NUREG 1801 With exceptions. The Inspection of Internal Surfaces in Miscellaneous Piping and Ducting Components Program (with exceptions), B.2.1.25, Will be substituted to manage loss of material due to pitting, crevice, and microbiologically influenced corrosion, and fouling of the copper alloy piping components exposed to raw water in the Chlorination, Dewatering, Plant Floor Drain, and Screen Wash system. In addition,.

galvanic corrosion is an additional.

aging mechanism. inthe Dewatering and Screen Wash systems.

Enclosure 2 SBK-L-10192 Page 13of 24

11. In the Auxiliary Boiler system, revise the fourth row in Table 3.3.2-1 on page 3.3'132 as follows:

Piping and Pressure Soil (External) Loss of Material Buried Piping and Tanks VII.H1-9 3 1 9 E, 1 Fittings Boundary S Inspection Program (A-01) 3.3.1-19 E

12. In the Auxiliary Boiler system, add the following new Plant Specific Note to Table 3.3.2-1 on page 3.3-135:

NUREG-1801 specifies the Buried Piping and Tanks Inspection Programfor this line item. The plant specific Buried Piping and Tanks Inspection Program is substituted to manage the aging effect(s) applicable to this component type, material, and environment combination.

13. In the Control Building Air Handling system, revise the second row on Table 3.3.2-9 on page 3.3-244 as follows:

e e Pr Soil Buried Piping and Tanks VlI.Cl 8 Piping And Pressure Steel Loss of Material Ipin gran T An01) 3.3.1-19 E, Fittings Boundary (External) Inspection Program (A-1)13

14. In the Control Building Air Handling system, add the following new Plant Specific Note to Table 3.3.2-9 on page 3.3-252:

NUREG-1801 specifies the Buried Piping and Tanks Inspection Program for this line item. The plant specific Buried Piping and Tanks Inspection Program is 13 substituted to manage the aging effect(s) applicable to this component type, material,and environment combination.

15. In the Diesel Generator system, revise note 11 on page 3.3-293 as follows:

11 NUREG-1801 specifies a plant-specific program for this line item. The plant specific Buried Piping and Tanks Inspection Program is used to manage the aging effect(s) applicable to this component type, material, and environment combination.

Enclosure 2 SBK-L-10192 Page 14 of 24

16. In the Fire Protection system, add the following new rows after the fifth row in Table 3.3.2-15 on page 3.3-300:

Bolting Pressure Stainless Soil Buried Pipingand Boundary steel (External) Loss of Material Tanks Inspection None None G Program Bolting Pressure. Stainless Soil Loss of Pre load Bolting Integrity None None G Boundary Steel (External) Program

17. In the Fire Protection system, add the following-new rows after the sixth row in Table 3.3.2-15 on page 3.3-306:

Piping and Pressure Fiberglass Raw Water None None None None F, 6 Fittings Boundary (Internal)-

Cracking, Buried Pipin and Pipingand Pressure Blistering,and u Fittings Boundary Fiberglass Soil Change in Material Tanks Inspection None None G Properties Program

18. In the Fire Protection system, revise the'fourth row in Table 3.3.2-15 on page 3.3-308 as follows:

Piping and Pressure Soil Buried Piping and VII.G-25 3.3.,9 B Fitingsu Steel Loss of Material Tanks Inspection (A01) 3.3.1-19 Fittings Boundary (External) Program , E, 7

19. In the Fire Protection system, revise the eighth row in Table 3.3.2-15 on page 3.3-313 as follows:

Valve Body Pressure Gray Cast Soil Buried Piping and VII.G-25 3 1 Boundary Iron (External) Loss of Material Tanks Inspection (A-0) 3.1-19

-

Program

20. In the Fire Protection system, revise the last row in Table 3.3.2-15 on page 3.3-314 as follows:

Pressure Soil Buried Piping and VII.G-25 B Valve Body Boundary Steel (External) Loss of Material Tanks Inspection 3.3.1-19 Program (A-0l) E, 7

Enclosure 2 SBK-L-10192 Page 15 of 24

21. In the Fire Protection system, add the following new Plant Specific Notes to Table 3.3.2-15 on page 3.3-317:

6 Fiberglass components in condensation environment (external) and Raw Water environment (internal)are not exposed to.high levels of ultraviolet radiation, high temperatures, or.ozone, and therefore have no aging effects that require aging management. This is consistent with plant operating experience..

7 NUREG-1801 specifies the Buried Piping and Tanks Inspection Program for this line item. The plant specific Buried Piping and Tanks Inspection Program is substituted to manage the aging effect(s) applicable to this component type, material,and environment combination.

22. In the Instrument Air system, add the following row after the sixth row in.

Table 3.3.2-20 on page 3.3-357:

Piig.n Pesue- Buried Pipingand VII.G-25 Pipingand Pressure Steel Soil Loss of Material Tanks Inspection' (An-V1) - E Fittings Boundary (External) Program..01

23. In the Instrument Air system, add the following new Plant Specific Note to Table 3.3.2-20 on page 3.3-367:

6 NUREG-1801 specifies the Buried Piping and Tanks Inspection Program for this line item. The plant, specific Buried Piping and Tanks Inspection Program is substituted to manage the aging effect(s) applicable to this component type, material,and environment combination.

24. In the Plant Floor Drain system, revise the fourth row in Table 3.3.2-26 on page 3.3-391 as follows:

Leakage Soil L Buried Piping and VII.H1-9 3 Piping and Boundary Steel (Externa Loss of Material Tanks Inspection - 3.3.1-19 Fittings (Spatial) Program4

25. In the Plant Floor Drain system, add the following new Plant Specific Note

- to Table 3.3.2-26 on page 3.3-395:

4 NUREG-1801 specifies the Buried Piping and Tanks Inspection Program for this line item. The .plantspecific Buried Piping and Tanks Inspection Programis substituted to manage the aging effect(s) applicable to this component type, material,and environment combination.

Enclosure 2 SBK-L-10192 Page 16 of 24

26. In the Service Water system, add the following rows after the third row in Table 3.3.2-37 on page 3.3-463:

Copper*"

Bolting Pressure Alloy Raw Water- Loss of Preload Bolting Integrity Ne.e None G Boundary (External) Program

>15% Zn7 Bolting Pressure Copper Raw Water Buried Piping and Boundary. Alloy (Ext 'Loss of Material Tanks Inspection None None G

>15% Zn ernal) Program

27. In the Service Water system, add the following row after the seventh row in Table 3.3.2-27 on page 3.3-463:

Pressure Stainless Raw Water Bured Piping and Bolting Loss of Material Tanks Inspection None None G Boundary Steel (External) Program

28. In the Service Water system, add the following rows after the last row in Table 3.3.2-27 on page 3.3-463:

Bolting Pressure Steel RawLoss of Preload Integrity None None G Boundary (External) Program Pressure Raw Water' Buried Pipingand Blig Boltingur Boundary Steel (External)Prga Loss of Material Tanks Inspection None None G Program

29. In the Service Water system, add the following row after the sixth row in Table 3.3.2-37 on page 3.3-469 to account for the service water piping contained in the service water vault and valve pit:

Pipingand Pressure Raw Water o e Buried Pipingand Vl1.C1-19 3,9 Fittings Boundary Steel (Exteral) Loss of Material Tanks Inspection (A-38) 3.3.1-76 Program

30. In the Service Water system, revise the last row in Table 3.3.2-37 on page 3.3-469 as follows:

Leakage Boundary.

Piping and (Spatial) Soil *E~d Buried Piping and VI1.C1-18 .9 Fittings Fittingsn *(prsu e(External)

Steel . ) .

'Loss *Program of Material Tanks Inspection (A-01) E, .A1)1 Pressure

-- Boundary - _____ ______ ________ _________ _____ _____

Enclosure 2 SBK-L- 10192 Page 17 of 24

31. In the Service Water system, revise the first row in Table 3.3.2-37 on page 3.3-473 as follows:

OpenGYG~e Copper elnlW t Pressure. Coy Raw Water Lystem PrOgram VII.C1-9

>15%Boundary

> yZn >15% Loss of Material (External) ZnTanks Piping and BuriedInspection (A-44) 3.3.1-81 Program

32. In the Service Water system, add the following new Plant Specific Notes to Table 3.3.2-37 on page 3.3-477:

9 NUREG-1801 specifies the Open Cycle Cooling Water System Program. Since the component is inside a vault or pit that is submerged in ground water (an external environment of raw water) the plant specific Buried Piping and Tanks Inspection Program is substituted to manage the aging effect(s) applicable to this component type, material,and environment combination.'

10 NUREG-1801 specifies the Buried Piping and Tanks Inspection Program for this line item. The plant specific Buried Piping and Tanks Inspection Program is substituted to, manage the, aging effect(s) applicable to this component type, material, and environment combination.

CHANGES TO SECTION 3.4:

The following changes were.made to Section 3.4 of the LRA for the Auxiliary Steam Condensate, Auxiliary Steam Heating, Condensate, and Feedwater systems due to changes made to the Buried Piping and Tanks Inspection Program (Supplement 1). The Buried Piping and Tanks Inspection Program was revised and resubmitted as a plant specific program based-on recent industry operating experience. Additionally, in the Feedwater system, a new AMR line item was also added for carbon steel piping in soil (external) environment, which was inadvertently omitted during the original LRA preparation.

1. In the Auxiliary Steam Condensate system, add the following bullet in Section 3.4.2.1.2 on Page 3.4-4 under "Aging Management Programs" (after the Boric Acid Corrosion Program):
  • o Buried Pipingand Tanks Inspection Program(B.2.1.22)
2. In the Auxiliary Steam Heating system, add the following bullet in Section 3.4.2.1.3 on Page 3.4-5 under "Aging Management Programs" (after the Boric Acid .Corrosion Program):
  • Buried Piping and Tanks Inspection Program(B.2.1.22)
3. In the Feedwater system, add the following bullet in Section 3.4.2.1.6 on Page 3.4-8 under "Environments" (after the Lubricating Oil):
  • Soil

-Enclosure 2 SBK-L-10192 Page 18 of 24

4. In the Feedwater system, add the following bullet in Section 3.4.2.1.6 on Page 3.4-9 under "Aging Management Programs" (after the Boric Acid Corrosion Program):

Buried Piping and Tanks Inspection Program (B.2.1.22)

5. Revise Section 3.4.2.2.5 discussion on page 3.4-15 as follows:

3.4.2.2.5 Loss of Material due to General, Pitting, Crevice Corrosion, and Microbiologically-Influenced Corrosion 1 Loss of material due to general, pitting and crevice corrosion, and MIC could occur in steel (with or without coating or. wrapping) piping, piping components, piping elements and tanks exposed to soil. The buried piping and tanks inspection program relies on industry practice, frequency of pipe excavation, and operating experience to manage the effects of loss of material from general corrosion,pitting and crevice corrosion, and MIC. The effectiveness of the buried piping and tanks inspection program should be verified to evaluate an applicant's inspection frequency and operatingexperience with buried components, ensuring that loss of materialis not occurring' Seabrook Station will, implement the plant specific Buried Piping and Tanks Inspection Program, B.2.1.22, to manage loss of material due to general, pitting, crevice, and microbiologically-influenced corrosion (MIC) in steel piping components exposed to soil in the Condensate and Feedwater systems. The Buried Piping and Tanks Inspection Program is described in Appendix B.

6. Revise the second paragraph for Section 3.4.2.2.7 on page 3.4-18 as follows:

Seabrook Station will implement the plant specific Buried Piping and Tanks Inspection Program, B.2.1.22, to manage loss of material due to pitting, crevice, and in addition microbiologically-influenced corrosion (MIC) in stainless steel *piping components .exposed to soil in the Condensate system. The Buried Piping and Tanks Inspection Program is described in Appendix B.

Enclosure 2 SBK-L-10192 Page 19 of 24

7. Revise line 3.4.1-11 on Page 3.4-25 as follows:

3.4.1-11 Buried steel Loss of material Buried Pipingand No Consistent with NUREG-1 801 for Buried Piping-and piping, piping due to general, Tanks Surveillance material,environmentand aging effect, components, pitting, crevice, and but a different agingmanagement piping elements,. microbiologically or program is credited. With .eX.epti*s and tanks (with or influenced The plantspecific Buried Piping and.

without coating or corrosion Buried Piping and Yes, Tanks Inspection Program (with wrapping) *Tanks Inspection detection of exceptions), B.2.1.22, will be used to exposed to soil aging manage loss of material due togeneral, effects and pitting, crevice,' and operating microbiologically-influenced corrosion in experience steel piping components exposed to soil in are to be the Condensate and Feedwatersystems.

further evaluated See Subsection 3.4.2.2.5.1.

8. Revise line 3.4.1-17 on Page 3.4-27 as follows:

3.4.1-17 Stainless steel Lossof material Plant specific Yes, plant Consistent with NUREG-1801 for nmaterial, piping, piping due to pitting and

  • specific - environment and aging efect, but a components, and crevice corrosion different aging managemcnt program is piping elements GFedited. The plantspecific Buried exposed to soil Piping and Tanks Inspection Program (with exceptiens), B.2.1.22, will be used to manage loss: of material due to pitting, crevice, and in addition, microbiologically-influenced corrosion in stainless steel piping components exposed to soil in the Condensate system.

See Subsection 3.4.2.2.7.2.

9. Revise line 3.4.1-22 on Page 3.4-29 as follows:

3.4.1-22 Steel bolting and Loss of material Bolting Integrity No Consistent with NUREG-1801 for closure bolting due to general, material, environment and aging effect, exposed to air pitting and crevice but a different agingmanagement with steam or corrosion; loss of program-iscredited. The plant specific waterleakage, preload due to Buried Pipingand Tanks Inspection air-outdoor thermal effects, Program,B.2.1.22, will be used to (external), or air- gasket creep, and manage loss of material of the steel indoor self-loosening bolting exposed to airindoor uncontrolled uncontrolled (external)in the Auxiliary (external); Steam Condensateand Auxiliary Steam Heatingsystems.

Consistent with NUREG-1 801. The Bolting Integrity Program, B.2.1.9, will be used to manage loss of material due to general, pitting, and crevice'corrosion, and loss of preload due to thermal effects, gasket creep, and self-loosening in steel bolting exposed to air-indoor uncontrolled in the Auxiliary Steam, Auxiliary Steam Condensate, Auxiliary Steam Heating, Condensate, Feedwater, Main Steam, and Steam Generator Blowdown systems.

Enclosure 2 SBK-L-10192 Page 20 of 24

10. Revise'line 3.4.1-28 on Page 3.4-30 as follows:

3.4.1-28 Steel external Loss of material External Surfaces No Consistentwith NUREG-1801 for surfaces exposed due to general Monitoring material, environment and aging effect, to air-indoor corrosion but a different aging management uncontrolled program is credited. The plant specific (external), .*.. Buried Piping and Tanks Inspection

'condensation .- Program,B.2.1.22, will be used to (external), or air- manage loss of materialof the steel outdoor (external) external surfaces exposed to airindoor uncontrolled(external) in the Auxiliary Steam Condensate and Auxiliary Steam Heating systems.

Consistent with NUREG-1801 with exceptions.. The External Surfaces

" .Monitoring Program (with exceptions),

B.2.1.24,. will be used to manage loss of material due to general corrosion on the steel external surfaces exposed to air-,

indoor uncontrolled (external) in the

-Auxiliary Steam, Auxiliary Steam Condensate, Auxiliary Steam Heating, Condensate, Feedwater, Main Steam, and Steam Generator Blowdown systems, and

- general, pitting, crevice, and galvanic corrosion of steel external surfaces in air-outdoor (external) in the Auxiliary Steam Condensate, and Main Steam systems, and general, pitting, and crevice corrosion of steel external surfaces in condensation (external) in the Circulating Water System.

11. In the Auxiliary Steam Condensate system, add the following row after the first row in Table 3.4.2-2 on Page 3.4-45:

Pressure Air-Indoor Buried Piping and VIII.H-4 Bootingr Steel

  • Uncontrolled Loss of Material Tanks Inspection (S34) 3.4.1-22 Boundary (External) Program
12. In the Auxiliary Steam Condensate system, add the following row after the third row in Table 3.4.2-2 on Page 3.4-48:

Piping and Pressure. Air-Indoor Buried Piping and VIII.H-7 Fittings Boundary Steel Uncontrolled Loss of Material Tanks Inspection 3 E, 4 (Exte rnal)ary (External) Program. (S-29)Pro

13. In the Auxiliary Steam Condensate system, add the following row after the fourth row in Table 3.4.2-2 on Page 3.4-51:

Gray Air-Indoor Buried Piping and Viii.H-7.

TraPressure Cast Uncontrolled Loss of Material Tanks Inspection Boundary Iron . (External). Program (S-29)

Enclosure 2 SBK-L-10192 Page 21 of 24

14. In the Auxiliary Steam Condensate system,, add the following row after the first row in Table 3.4.2-2 on Page 3.4-54:

Pressure Air-Indoor BuriedPiping and VIII.H-7 Valve Body Steel Uncontrolled Loss of Material Tanks Inspection - (S-29) 3.4.1-28 E, 4 Boundary (External) Program

15. In the Auxiliary Steam Condensate system, add the following new Plant Specific Notes to Table 3.4.2-2 on Page 3.4-56:

3 NUREG-1801 specifies the Bolting Integrity Program for this line item.

Since the component is in an underground pit that has an external environment of air indooruncontrolled, the plant specific Buried Piping and Tanks Inspection Program is substituted to manage the aging effect(s) applicable to this component type, material, and environment combination.

4 NUREG-1801 specifies the External Surfaces MonitoringProgram for this line item. Since the component is in an underground pit that has an external environment of air indoor uncontrolled, the plant specific Buried Piping and Tanks Inspection Program is substituted to manage the aging effect(s) applicable to this component type, material, and environment combination.

16. In the Auxiliary Steam Heating system, add the following row after the first row in Table 3.4.2-3 on Page 3.4-57:

Pressure Air-Indoor BuriedPiping and VIII.H-4 3 Bolting steel Uncontrolled Loss of Material Tanks Inspection (S-34) .4.1-22 ,4 Boundary (External) _ Program _ _- _ _

17. In the Auxiliary Steam Heating system, add the following row after the third row in Table 3.4.2-3 on Page 3.4-58:

Filter Pressure Air-indoor Buried Pipingand VIII.H-7 5 HounUncontrolled Loss of Material Tanks Inspection (S-29) 3.4.1-28 E,

_ _using Boudar _ (External)' Program

18. In the Auxiliary Steam Heating system, add the following row after the fifth row in Table 3.4.2-3 on Page 3.4-61:

Piping and Pressure Air-Indoor, Buried Pipingand VIII.H-7 Steel Uncontrolled Loss of Material' Tanks Inspection (S-2 3.4.1-28 E, 5 Fittings Boundary (External) (S-29)Program

Enclosure 2 SBK-L-.10192 Page 22 of 24

19. In the Auxiliary Steam Heating system, add the following row. after the first row in Table 3.4.2-3 on Page 3.4-64:

Valve Pressure Air-Indoor Buried Piping and Vlll.H-7 Boy Boury Sten Uncontrolled Loss of Material Tanks Inspection (I.H) 3.4.1-28 (External) Program

20. In the; Auxiliary Steam Heating system, add the following new Plant Specific Notes to Table 3.4.2-3 on Page'3.4-66:

4 NUREG-1801 specifies the Bolting Integrity Programfor this line item. Since the component is in an undergroundpit that has an external environment of air indoor uncontrolled, the plant specific Buried Piping and Tanks Inspection Program is substituted to manage the aging effect(s), applicable to this component type, material,and environment combination.

5 NUREG-1801 specifies the External Surfaces Monitoring Program for this line item. Since the component is in an underground pit that has an external environment of air indoor uncontrolled, the plant specific Buried Piping and Tanks Inspection Program is substituted to manage the aging effect(s) applicable to this component type, material, and environment combination.

21. In the Condensate system, revise the third row in Table 3.4.2-5 on page 3.4-73 as follows:

Piping and Pressure" Steel Soil Loss of Material Buried Piping and Tanks VIII.E-1 3.4.1-11 E, 2 Fittings Boundary (External) Inspection Program (S-01) 1 E,1

22. In the Condensate system, revise Plant Specific Note 1 in Table 3.4.2-5 on page 3.4-76 as follows:

NUREG-1801 specifies a plant-specific program for this line item. The plant 1 specific Buried Piping and Tanks Inspection Program is used to manage the aging effect(s) applicable to this component type, material, and environment combination.

23. In the Condensate system, add the following, Plant Specific Note to Table 3.4.2.5 on page 3.4-76:

NUREG-1801 specifies the Buried Piping and Tanks Inspection Program for 2 this line item. The plant specific Buried Piping and Tanks Inspection Program is substituted to manage the aging. effect(s) applicable to this component -

type, material,and environment combination.

Enclosure 2 SBK-L-10192 S

Page 23 of 24

24. In the Feedwater system, add the following row after the third row in Table 3.4.2-6 on Page 3.4-84:

Piping and, Pressure Steel Soil Buried Piping and VIII.G-1 E Fittings Boundary (External) Loss of Material Tanks Inspection (S-01) 3.4.1-11 E, Program

25. In the Feedwater system, add the following new Plant Specific Note to Table 3.4.2-6 on Page 3.4-90:

1 NUREG-1801 specifies the Buried Piping and Tanks Inspection Program for this line item. The plant specific Buried Piping and Tanks Inspection.Program is substituted to manage the aging effect(s) applicable to this component type, material,and environment combination.

CHANGES TO SECTION 3.5:'

1. Evaluation of carbon steel exposed to air-indoor uncontrolled and air-outdoor is added for the Intake and Discharge Transition Structures. The revision to LRA Section 3.5, Table 3.5.2-1 (page 3.5-50) is shown below:

BSAS Carbon Steel DISCHARGE TRANSITION Structural Air Indoor Structures lll.A3-12 STRUCTURE Exposed Support Steel Uncontrolled Loss of Material Monitoring (T-11) 3.5.1-25 A to Air Indoor (External) Program Uncontrolled BSAS Carbon Steel DISCHARGE Structural Air Outdoor Itl.A3-12 A, TRANSITION Steel O utr Loss of Material Monitoring (T-1 3.5.1-25 03 503 STRUCTURE Exposed Support (External) Program to Air Outdoor BSAS Carbon Steel INTAKE TRANSITION Air Indoor Structures lll.A3-12 STRUCTURE Exposed Structural Steel Uncontrolled Loss of Material Monitoring (T3.15 to Air Indoor Support (External). L o Program Uncontrolled BSAS Carbon Steel Structures INTAKE TRANSITION Structural Air Outdoor Loss of Material Monitoring III.A3-12 A, STRUCTURE Exposed Support Steel (External) rg (T-11) 3.5.125 03 to Air Outdoor Program

2. items for thermal insulation are being added to the Seabrook Station License Renewal Application. Add line item,and note 517 to Section 3.5, Table 3.5.2-6 (page 3.5-239 and 240) as shown below:

Enclosure 2 SBK-L-1 0192 Page 24 of 24 517 At Seabrook Station, thermal insulation was treated as'a passive, long lived component. There is no aging effect for thermal insulation in an "air-indooruncontrolled"environment.,

3. In Section 3.5.2.1.6 (page 3.5-8), add the following bullet to "Materials" list:

0 Thermal Insulation

Enclosure 3 SBK-L-10192 Page 1 of 3 Enclosure 3 to SBK-L-10192 Changes to the Seabrook Station License Renewal Application Associated with-Chapter 4 - Time Limited Aging Analyses

Enclosure 3 SBK-L-10192 Page 2 of 3 Introduction This Enclosure contains an update to the information provided in the NextEra Energy Seabrook License Renewal Application (LRA) Chapter 4 - Time Limited.Aging Analyses. Included in this update are changes to LRA Section 4.3 and Table 4.1-1. For clarity, entire sentences or paragraphs from the LRA are provided with deleted text highlighted by strikethroughs and inserted text highlighted by bolded italics.

Description of Changes Changes made to the Seabrook License Renewal Application (LRA)

Time Limited Aging Analyses include the following editorial changes:

1. The disposition in Table 4.1-1 "Reactor Vessel Internal Aging Management" has been changed from §54.21(c)(1)(i) to

§54.21(c)(1)(iii) to reflect the current disposition in Section 4.3.3 of 54.21 (c)(1)(iii). On page 4.1-5 revise Table 4.1-1 as follows:

Nuclear zsteam :Suppiy :System -ressure Vessel and Component F- §54.21 (c)(1)(i)

Analyses Supplementary ASME Section IlI, Class 1 Piping and Component Fatigue §54.21(c)(1)(i) 4.3.2 Analyses Absence of a TLAA for Thermal Stresses in Piping Connected to Reactor. N/A 4.3.2.1 Coolant Systems: NRC Bulletin 88-08 NRC Bulletin 88-11, Pressurizer Surg6 Line Thermal Stratification §54.21 (c)(1)(i) 4.3.2.2 Reactor Vessel Internal Aging Management 43§54.21(c)(1)(iii)

.3 Environmentally-Assisted Fatigue Analyses §54.21 (c)(1)(ii) 4.3.4

§54.21 (c)(1)(iii)

Steam Generator Tube, Loss of Material and Fatigue from Flow-Induced §54.21 (c)(1 )(i) 4.3.5 Vibration Absence of TLAAs for Fatigue Crack Growth, Fracture Mechanics Stability, or. N,/A 4.3.6 Corrosion Analyses Supporting Repair of Alloy. 600 Materials Non-Class 1 Component Fatique Analyses 454.21 (c)(1)(i) 4.3.7

Enclosure 3 SBK-L-10192 Page 3 of 3

2. The .disposition in Section 4.3.4 in the paragraph is. changed from 54.21(c)(1)(i) to 54.21(c)(1)(ii) to provide consistency to the disposition header. Revise Section 4.3.4, page 4.3-23, first paragraph (Disposition) as follows:

.Revision 10 CFR 54.21(c)(1)(ii)- The evaluation of environmental fatigue effects for the Reactor Vessel Shell and Lower Head and Reactor Vessel Inlet and Outlet Nozzles determined. that the CUF will remain below the ASME code allowable fatigue limit of 1.0 using the maximum applicable Fen, applied to CUF based on the design number of'transients for these locations, when extended to 60 years. The evaluation of fatigue effects for these locations has thereby been validated for the period of extended operation, in accordance with 10 CFR 4-(e}(-!-)(* 10 CFR 54.21(c)(1)(ii), including effects of the reactor coolant environment. Therefore, no aging management program is necessary to address environmentally-assisted fatigue for these components.

3. "Primary loop piping and pressurizer surge line piping" is removed from Section 4.3.7, as Section 4.3.2 focuses on Class 1 Piping and Section 4.3.7 focuses on non-Class 1 Piping.

Revise Section 4.3.7 (Summary Description), page 4.3-27, first paragraph as follows:

The following non-Class 1 Seabrook Station systems that are in scope for license renewal were designed in accordance with ASME Section III Class 2 and 3 requirements:

Reactor Coolant System n ngprimay loop piping ad pressuri'zersurge line piping)

  • Chemical and Volume Control System
  • Safety Injection System
    • Primary Component Cooling Water
  • Sample System

Enclosure 4 SBK-L-10192 Page 1 of 8.

Enclosure 4 to SBK-L- 10192 Changes to the Seabrook Station License Renewal Application Associated with Appendix A - Updated UFSAR Supplement and Appendix B - Aging Management Programs

Enclosure 4 SBK-L-10192 Page 2 of 8 Description of Changes The following editorial changes have been made to Appendix A and Appendix B of the Seabrook License Renewal Application (LRA):

1. LRA Appendix A and Appendix B are, revised to, change an inadvertent reference to "in-core". The correction changes "in-core" to "in-scope".
a. Revise LRA Appendix A, second paragraph of Section A.2.1.33 (page A-
17) as follows:

The program shall perform insulation resistance tests on the inGoere in-,

scope neutron flux monitoring cable and connections in the Nuclear Instrumentation System.

b. Revise LRA Appendix B, Section B.2.1.33 (page B-178) "Program Description", paragraph 1 and 3, and "Operating Experience", item #2 j(page B-180) as shown below:

Program Description The Electrical Cables and Connections Not Subject.to 10 CFR 50.49 Environmental Qualification Requirements Used in Instrumentation Circuits Program is a new'program that will manage the aging effects of reduced insulation resistance due to exposure to adverse localized environments caused by heat, radiation, or moisture in the presence of oxygen, causing increased leakage currents. This program applies to sensitive instrumentation cable and connection circuits with low-level signals in the in-scope portions of in-eGre the neutron flux monitoring cable in the Nuclear Instrumentation System. These cables are not included in the Seabrook Station EQ Program.

This program considers the technical. information and guidance provided in the following:

a. NUREG/CR-5643, "Insights GainedFrom Aging Research"
b. IEEE Std. P1205, "IEEE Guide for Assessing, Monitoring. and Mitigating Aging Effects on Class 1E Equipment Used in Nuclear Power Generating Stations"
c. SAND96-0344, "Aging Management Guidelines for Commercial Nuclear PowerPlants- ElectricalCable and Terminations"

Enclosure 4 SBK-L-10192 Page 3 of 8

d. EPRI TR-1 09619, "Guideline for the Management of Adverse Localized Equipment Environments".

These in-scope in-eere neutron flux monitoring cables and connections in the Nuclear Instrumentation System are routed inside containment and potentially exposed to moisture, radiation, and high temperatures. The high voltage low-level signal instrumentation circuits from the Radiation Monitoring System are not included in this program. These cables are included in the Seabrook Station EQ program.

Operating Experience

2. Plant specific operating experience was. reviewed. Insulation resistance tests have been performed on the in-scope sensitive instrumentation cable and connections.

In 2008, testing was performed on all in-er-e in-scope neutron flux monitoring cables and connections. The test results documented a less than expected insulation resistance reading between the inner and outer shield. The low insulation resistance reading was attributed to the connector design. The design issue was resolved and retesting found the cable and connection to be acceptable. Although this example is not representative of age related degradation, it does demonstrate that the test method is an acceptable for identifying degraded conditions.

2. The Metal Enclosed Bus aging management program descriptions in LRA Appendix B, Section B.2.1.35 are revised to clarify that if thermography is used to identify loose connections utilizing inspection techniques that it will provide accurate temperature readings. In addition this change adds connection resistance measurements as an alternative method to determine if metal enclosed bus connections are loose. Revise LRA Appendix B, Section B.2.1.35, page B-185 paragraphs 2 and 4 as follows:

The internal portions of the in-scope metal enclosed bus enclosures will be visually inspected for aging degradation of insulating material and for cracks, corrosion, foreign debris, excessive dust buildup, and evidence of moisture intrusion. The bus insulation will be visuially inspected for signs, of embrittlement, cracking, melting, swelling, or discoloration, which may, indicate overheating or aging degradation. The isolated phase bus conductor is not insulated. The internal bus supports will be visually inspected for structural integrity and signs of cracks. The accessible bus sections will be inspected for loose connections using thermography from outside thImetal enclosed bus while the bus is.enegized inspection techniques that will provide accurate temperature readings of the bus bolted connection

Enclosure 4 SBK-L-10192 Page 4 of 8 temperatures, such as through view ports. As an alternative to thermography, connection resistance measurements may be used to determine if the in-scope MEB's have loose connections due to thermal cycling and ohmic heating.

The program requires that bolted connections be below the maximum allowed temperature for the application, and free of unacceptable visual defects.

Unacceptable thermography heat signatures, connection resistance measurements or unaGeptal visual indications are entered into the Corrective Action Program.

3. The Fuse Holder aging management program description in LRA Appendix B, Section B.2.1.36 is revised to clarify the exclusion of certain aging mechanisms from the aging management program. Revise LRA Appendix B, Section B.2.1.36 "Program Description" on page B-188, fourth full paragraph as follows:

The following Seabrook Station analysis shows that the aging effects due to thermal fatigue in the form of high resistance caused by ohmic heatingT and thermal cycling, of electrical transients, mechanical, fatigue caused by frequent manipulation (removal/replacement of the fuse), of vibration and chemical contaminationdo not require aging management.

Ohmic Heatingand Thermal Cycling Seabrook Station power circuits are sized so that the ohmic heating is approximately 60 percent of the cable's rated temperature. Therefore ohmic heating of the fuse clamps is minimized. Without ohmic heating,. the mechanism of thermal cycling on the metallic portion of the fuse clips is minimized.

Ohmic heating and thermal cycling are not considered possible aging mechanisms for the fuse holders within the scope of this evaluation.

Electrical Transients Seabrook Station electrical design ensures that stresses due to forces associatedwith electricalfaults and transientsare mitigated by the fast action of circuit protective devices at high currents.-

Mechanical stress due to electrical faults is not considered a credible aging mechanism since such faults are'infrequent and random in nature. Electrical transientsare not considered an aging mechanism that requires management.

Enclosure 4 SBK-L-10192 Page 5 of 8 FrequentManipulation A review -of the Seabrook Station operations database was performed to determine if fuses are frequently pulled. Of all in-scope fuses which are held in place by metallic (non-bolted) fuse clips only 7 have been pulled during the life of the plant. Frequent manipulation of in-scope fuses is not considered an aging mechanism that requires management.

Vibration The exact location and mounting of the fuse holders within the scope of this evaluation was determined by a review of the Seabrook Station - drawings and documentation. This documentation verifies that there are no direct sources of vibration in proximity to the fuse holder junction boxes. The fuse holder junction boxes are mounted to a supportattached directly to either a concrete wall or a column. Therefore, vibration is not considered an applicableaging mechanism.

Chemical Contamination The exact location and mounting of the fuse holders within the scope of this evaluation was determined by a review of the Seabrook Station drawings and documentation. The areas have no potential sources of chemical contamination in the area, and the fuse holders are housed in a protective enclosure to preclude this aging mechanism even if chemical contamination were possible.

Therefore, based on their installed location and design configuration, chemical contamination is not considered an applicableaging mechanism.

4. Revise LRA Appendix A (A.2.1.31) and Appendix B (B.2.1.31) to reference the use of ACI-349.

a) Revision to LRA Appendix A, Section A.2.1.31, page A-17 first paragraph, is shown below:

The Structures Monitoring Program is implemented through the plant Maintenance Rule Program, which is based on the guidance provided in NRC Regulatory Guide 1.160 "Monitoring the Effectiveness of Maintenance at Nuclear power Plants" and NUMARC 93"01 "Industry Guideline for Monitoring the Effectiveness of Maintenance at Nuclear Power Plants", and with guidance from ACI 349.3R, "Evaluation of Existing Nuclear Safety-Related Concrete Structures". The Structures

Enclosure 4 SBK-L-10192 Page 6 of 8 Monitoring Program was developed using the guidance of these two three documents. The Program is implemented- to monitor the condition of structures and structural components within the scope of the Maintenance.

Rule, such that there is no loss of structure or structural component intended function.

b) Revision to LRA Appendix B, Section B.2.1.31, "Program Description",

page B-164, is shown below:

The Seabrook Station Structures Monitoring Program is an existing program that will be enhanced to ensure provision of aging management for structures and structural components including bolting within the scope of this program. The Structures Monitoring Program is implemented through the Seabrook Station Maintenance Rule Program, which is based on-the guidance provided in NRC Regulatory Guide 1,.160, Revision 2, "Monitoring the Effectiveness of Maintenance at Nuclear Power Plants" and NUMARC 93-01, Revision 2, "Industry Guidance for Monitoring the Effectiveness of Maintenance at Nuclear Power Plants", and with guidance from ACI 349.3R, "Evaluation of Existing Nuclear Safety-Related Concrete Structures". The Seabrook Station Structures Monitoring Program was developed using the guidance of these two three documents to monitor the condition of structures and structural components within the scope of the Maintenance Rule, such that there- is no loss of structure or structural component intended function.

5. Revise LRA Table A.3, License Renewal Commitment List and Appendix B, Aging Management Programs B.2.1.16, B.2.1.171 B.2.1.20 and B.2.1.21 to clarify commitment schedule.

a) Revision to LRA Appendix A, Section A.3 (page A-37) is shown below:

Enhance the program to include the performance of Wnth.ing the pc....

periodic flow testing of the fire water system in accordance eAtended operation .Prior 10 Fire Water System with the guidance of NFPA 25. A.2.1.16 te pei to the periodof extended operation.

Enhance the program to include the performance of periodic visual inspection of the internal surface of the fire protection system upon each entry to the system for Prier-Withinten years 11 Fire Water System routine or corrective maintenance. T4*-These inspections A.2.1.16 priorto the period of will be performed ne earlier than 10 years before within extended operation.

ten years priorto the period of extended operation.

Enclosure 4 SBK-L-1 0192 Page 7 of 8 b) Revision to LRA Appendix A, Section a.3 (Page A-37) is shown below:

Within tcn years of hance the program to include an ultrasonic inspection ten peri.

1nAboveground Steel 1TAb o and evaluation of the internal bottom surface of the two A.2.1.17 ex Tanks Fire Protection Water Storage Tanks.

Withintnyaspiro then ten years prior to the period of extended operation.

c) Revision to LRA Appendix A, Section a.3 (Page A-39) is shown below:

within ten years of enteFrng the erOdot

22. One-Time Inspection Implement the One Time Inspection Program. A.2.1.20 ... nd....d .peration..

Within ten years priorto the periodof extended operation.

Within five years of entering the pcriadof

23. Selective Leaching of Implement the Selective Leaching of Materials Program.. A.2.1.21 extended operatioG.

Materials Within five years priorto the period of extended I operation.

Within ten years of entering the period-at pection of ASME Code Class A.2.1.23 extended eperationý.

Small Bore-Piping 11. Within ten years prior to the periodof extended operation.

d) Revision to LRA Appendix B, Section B.2.1.16 (page B-101) is shown below:

2. The Seabrook Station Fire Water System Program will be enhanced to include the performance of periodic flow testing of the fire water system in accordance with NFPA 25 guidelines, prior to the period of extended operations.

Program Elements Affected: Element 3 (ParametersMonitored/Inspected) 3 The Seabrook Station Fire Water System Program will be enhanced to include the performance of periodic visual inspection or volumetric inspection, as required, of the internal surface of the fire'protection system upon each entry to the system for routine or corrective maintenance to evaluate wall thickness and inner diameter of the fire protection piping.

T-hisThese inspections will be performed no ealier than 10 years bcfoe*,

within ten years prior to the period of extended operation.

Program Elements Affected: Element 4 (Detection of Aging Effects)

Enclosure 4 SBK-L-10192 Page 8 of 8 e) Revision to LRA Appendix B, Section B.2.1.17 (page B-104) is shown below:

Enhancements

2. Enhance the Seabrook Station Aboveground Steel Tanks Program implementing procedures to require the 'performance of.an ultrasonic examination and evaluation of the internal bottom surface of the two Fire Protection Water Storage Tanks within ten years prior to the period of extended operation.

Program Elements Affected. Element I (Scope of Program), Element 3 (ParametersMonitored/Inspected), Element 4 (Detection of Aging Effects),

Element 5 (Monitoring and Trending), and Element 6 (Acceptance'Criteria) f) Revision to LRA Appendix.B, Section B.2.1.20 (page B-119) is shown below:

Program Description The inspections will be scheduled as cGlse to the end of the current operating license peFrid as practical, with margin prvided to ensure co.mpletfion Prior. to. commencing within ten years prior to the period of extended operation. The inspection requirements may be satisfied by a review of repair or other inspection records to confirm that the component has been inspected for aging degradation and no significant degradation has occurred within ten years prior to the period of extended operation.

g) Revision to LRA Appendix B, Section B.2.1.17 (page B-121, 122) is shown below:

Program Description The Seabrook Station Selective Leaching of Materials Program will include a one-time- inspection of selected components that may be susceptible to selective leaching. Because selective leaching is a slow acting corrosion process, the one-time inspection for selective leaching will be performed within the-last five years prior to entering the period of extended operation.

Enclosure 5 -

SBK-L-10192 Page 1 of 10 Enclosure 5 to SBK-L-10192 Changes to the Seabrook Station License Renewal Application Associated with the Protective Coating Monitoring and Maintenance Program B.2.1.38

Enclosure 5 SBK-L-10192 Page 2 of 10 Introduction As a result of interactions during the recent NRC. Aging Management Program Audit activities at Seabrook Station and review of significant industry operating experience, NextEra Energy Seabrook, LLC has added a Protective Coating Monitoring and Maintenance Program to the Seabrook Station License Renewal Application (LRA).

Description of Changes

1. CHANGES to CHAPTER 4 a) Revise Section 4.7.7, "Service Level.1 Coatings Qualification", disposition on page 4.7-9 as follows:.

Disposition Aging Management- 10 CFR 54.21(c)(1)(iii) - Seabrook Station Service Level I Coatings are managed by the ASME Section X!, InserVice inspection, Subsection PAJE Prog*am, B.2.1 .27 Protective Coating Monitoring and Maintenance Program B.2.1.38 and Procedure for Application of Service Level I Coatings. Seabrook Station periodically conducts condition assessments of Service Level I coatings inside containment. Coating inspections are performed at the beginning and at the end of each refueling outage. Inspections at the beginning of the refueling outage are performed by a NextEra Energy Coating Supervisor and a Design Engineer for peeling coatings that have the potential of falling into the reactor or Containment Building Spray recirculation sumps.

2. CHANGES to APPENDIX A a) Add line A.2.1.38 to APPENDIX A - Table of Contents, page A-2, as follows:-

A.2.1.37 Electrical Cable Connections Not-Subject to.10 CFR 50.49 Equipment Qualification Requirements .................... ......... A-1 9 A.2.1.38 Protective CoatingMonitoring and Maintenance................ A-19 b) Add Item #,38 to Section A.1.1, NUREG-1801 Chapter Xl aging management programs, on page-A-5, as follows:

Enclosure 5 SBK-L-10192 Page 3 of 10

37. Electrical Cable Connections Not Subject to 10 CFR 50.49 EQ Requirements (A.2.1.37)
38. Protective Coating Monitoringand Maintenance(A.2.1.38) c) Add new section A.2.1.38 to page A-10, as follows:

A.2.1.38 Protective Coating Monitoring and Maintenance The Protective Coating 'Monitoring and Maintenance program manages cracking, blistering, flaking, peeling, and delamination of the Service Level I coatings consistent with the guidelines of Regulatory Position C4 of the Nuclear Regulatory Commission [NRC] Regulatory Guide [RG] 1.54, Rev.

1) as described in NUREG 1801, Rev. 1.

At the beginning of every refueling outage, the NextEra Energy Coating Supervisor and the Design Engineer shall inspect all areas and components from which peeling coatings have the potential of falling into the reactor cavity or CBS [Emergency Core Cooling System (ECCS)]

recirculation sumps. These areas and components shall include but not be limited to the following as applicable: polar crane; -refueling machine, manipulator crane, CRDM cooling fan shrouds, wall and equipment adjacent to reactor cavity, carbon steel supports and hangers within the reactor cavity.

The determination of acceptability of the coatings will be made by the Design Engineer. The inspection report is to be evaluated by the responsible evaluation personnel, who prepare a summary of findings and recommendations for future surveillance or repair, including an analysis of reasons or suspected reasons for failure. Data derived from the inspections shall be reviewed by the Design Engineer so that the coatings condition assessment can be used to trend material condition and to provide strategic planning for required maintenance activities.

d) Revise Section A.2.4.5.6, "Service Level 1 Coatings Qualification", page A-34 as follows:

A.2.4.5.6 Service Level I Coatings Qualification Service Level 1 coatings used at Seabrook Station are in compliance with the applicable'ANSI standards for coating systems inside containment. In a design basis accident, the Emergency Core Cooling System (ECCS) at Seabrook Station pumps water from inside the containment sump to the reactor vessel to keep the core covered with water and. make up losses from the' pipe break location. These coatings could potentially detach during a designbasis accident and the coating debris could- contribute to flow blockage of ECCS suction strainers. The ECCS has suction piping

Enclosure 5 SBK-L-10192 Page 4 of 10 located-below the waterline inside the sump. Since it is assumed that the degree of radiation exposure used in the original qualification testing was intended to bound 40' years of operation, qualification of Service Level 1 coatings is considered a TLAA.

Seabrook Station Service Level I Coatings are managed by the ASME Protective Coating Monitoring and Maintenance Program B.241.38 and Procedure for Application of Service Level I Coatings. Seabrook Station periodically conducts condition. assessments of Service Level I coatings inside containment.'

e) Add line items 46, 47, 48 & 49 to Table A.3, "License Renewal Commitment List", page A-43 as follows:

No. PROGRAM or TOPIC COMMITMENT UFSAR SCHEDULE LOCATION Protective Coating Enhance the program by designating and qualifying an Prior to the

46. Monitoring and Inspector Coordinator and an Inspection Results A.2.1.38 period of Maintenance Evaluator. extended operation Enhance the program by including, "Instruments and Protective Coating Equipment needed for inspection may include, but not be Prior to the
47. Monitoring and limited to, flashlight, spotlights, marker pen, mirror, A.2.1.38 period of

.Monintongand measuring tape, magnifier, binoculars, camera with or extended Maintenance without wide angle lens, and self sealing polyethylene operation sample bags."

Protective Coating Prior to the

48. Monitoring and Enhance the program to include a review of the previous A.2.1.38 period of monitoring reports extended Maintenancetwo operation Enhance the program to require that the inspection report Prior to the Protective Coating is to be evaluated by the responsible evaluation A2 " period of Maintenance personnel, who is to prepare a summary of findings and extended recommendations for future surveillance or repair. operation
3. CHANGES to APPENDIX B a) Add B.2.1.38 to Appendix B - Table of Contents, page B-2 as follows:

B.2.1.37 Electrical Cable Connections Not Subject To 10 CFR 50.49 E Q R equirem ents ....................... .......................... ....... ........... B -190 B.2.1.38 Protective CoatingMonitoring and Maintenance..................... B-192

Enclosure 5 SBK-L-10192 Page, 5'of 10 b) Add line 41 to B.1.5, "NUREG-1801 CHAPTER XI-AGING MANAGEMENT PROGRAMS" on page B-l0 as follows:,.

41. Protective Coating Monitoring and Maintenance (B.2.1.38)

[Existing]

c) Revised B.2.0, "Aging Management. Correlation: Chart- NUREG-1801 To Seabrook Station Programs", on. page B-13 as follows:

-NUREG- 18-0 1 Nube NUJREG 1801I Piojarni Sýeabrook Statioii Programn XlS8 Protective Coating Monitoring and Maintenance N..ot U-d. Not fer aging crdited Program management. Protective Coating Pr Monitoring and MaintenanceProgram d) Add to B.2.0, "NUREG-1801 Chapter Xl Aging Management Programs", new Section B.2.1.38, Protective Coating Monitoring and Maintenance Program, to page B-192, as follows:

B.2.1.38 Protective Coating Monitoring and Maintenance Program Description The Seabrook Station Protective Coating Monitoring and Maintenance program is an existing program. During construction the interior containment carbon steel surfaces (e.g., steel liner, penetrations, hatches) were coated to meet the guidance of Regulatory Guide 1.54, Rev. 0. The Protective Coating Monitoring and Maintenance program manages cracking, blistering, flaking, peeling, and delamination of the.Service Level I coatings consistent with the guidelines of Regulatory Position C4 of the Nuclear Regulatory Commission [NRC] Regulatory Guide [RG] 1.54, Rev.

1 as described in NUREG 1801, Rev. 1.

At the beginning of every refueling outage, the NextEra Energy Coating Supervisor and the Design Engineer shall inspect all areas and components from which -peeling coatings have the potential of falling into the reactor cavity or CBS [Emergency Core Cooling System' (ECCS)]

recirculation sumps. These areas and components shall include but not-be

Enclosure 5 SBK-L-10192 Page 6 of 10 limited to the following as applicable: polar crane, refueling machine, manipulator crane, CRDM cooling fan shrouds, wall and equipment adjacent to reactor cavity, carbon steel supports and hangers within the reactor cavity.

After completion of all Containment Closeout work, the Coating Supervisor shall notify the Design Engineer and the Nuclear Coating Specialist to perform the Containment Closeout Inspection.- Unqualified coatings found during this inspection shall be evaluated based on size, location and coating type. Based on the results of this -evaluation "the unqualified coating shall be removed as directed by the Design Engineer or documented on the Containment Coatings Closeout Inspection form and on an AR.

With respect to loss of material due to corrosion of carbon steel elements, this program is a preventive action. Proper preparation of carbon steel surfaces, application of coatings, and maintenance of coatings helps prevent loss of material of the carbon steel surfaces coated with Service Level I coatings.

The program inspects the Service Level I coatings for visible signs of degradation such as blistering, cracking, flaking, peeling, delamination, rust, or physical damage. Any degradation observed during the inspection will be documented and tracked by an Action Request (AR). The program monitors the conditions of the Service Level I coatings during refueling outages and uses the Action Request to resolve non-conforming coatings and those experiencing degradation.

The program requires that all accessible areas of containment receive a coatings inspection of all Service Level I coatings. These inspections are pre-planned and performed -during each refueling outage. These inspections are performed by qualified coatings inspectors. These individuals (An Inspector Coordinator and an Inspection Results Evaluator) are qualified per the requirements of ANSI N45.2.6.

Instruments and Equipment needed for inspection may include, but not be limited to, flashlight, spotlights, marker pen, mirror, measuring tape, magnifier, binoculars, camera with or without wide angle lens, and self sealing polyethylene sample bags.

The Design Engineer reviews previous inspection notes attached to the Containment Coatings Closeout Inspection (A minimum of two' previous inspections) prior to the next inspection. This review will ensure all previously identified degraded/ deteriorated coatings will be identified for inspection during the next refueling outage.

Enclosure 5 SBK-L-10192 Page 7 of 10 The inspection field notes document the approximate location and square footage of identified degraded/deteriorated coatings which have not been removed and do not require removal prior to start-up. Data derived from the inspections shall be reviewed by the Design Engineer so that the coatings condition assessment can be used to trend material condition and to provide strategic planning for required maintenance activities.

The determination of acceptability of the coatings will be made by the qualified inspection personnel. This determination, as well as any deteriorated or unqualified coatings identified, will be documented in the as-left Action Request (AR).

The determination of acceptability of the coatings will be made by the Design Engineer. The inspection report is to be evaluated by the responsible evaluation personnel, who prepare a summary of findings and recommendations for future surveillance or repair, including an analysis of reasons or suspected reasons for failure. Data derived from the inspections shall be reviewed by the Design Engineer so that the coatings condition assessment can be used to trend material condition and to provide strategic planning for required maintenance activities.

NUREG-1801 Consistency This program is consistent with NUREG-1 801 XI.S8.

Exceptions to NUREG-1801 There are no exceptions to NUREG 1801 XI.S8.

Enhancements The following enhancement will be made prior to entering the period of extended operation.

1. Enhance the program by designating and qualifying an Inspector Coordinator and an Inspection Results Evaluator.

Element affected; Detection of Aging Effects.-

2.. Enhance the program by including, "Instruments and Equipment needed for inspection may include, but not be limited to, flashlight, spotlights, marker pen, mirror, measuring tape, magnifier, binoculars, camera with or without wide angle lens, and self sealing polyethylene sample bags."

Element affected; Detection of Aging Effects

3. Enhance the program to include a -review of the previous two monitoring reports.

Enclosure 5 SBK-L-10192 Page 8 of 10 Element affected; Monitoring and Trending

4. Enhance the program to require that the inspection report is to be evaluated by the responsible evaluation personnel, who is to prepare a summary of findings and recommendations' for future surveillance or repair.

Element affected; Acceptance Criteria Operating Experience The existing Seabrook Station Protective Coating Monitoring and Maintenance program has been effective in identifying - degraded/

deteriorated Service Level I coatings. The following operating experience demonstrates program effectiveness:

1. In June 2010 an Action Request (AR) was issued to review NRC Information Notice IN 2010 Containment Liner Corrosion. The NRC issued this IN to inform addressees of recent issues involving corrosion of the steel reactor containment building liner. The AR response addressed all the concerns identified by the IN 2010-12. The AR concludes that: i) Seabrook Station Containment structure is enclosed by a reinforced seismic category I concrete enclosure building which prevents exterior containment concrete from exposure to external atmosphere; ii) during construction at Seabrook Station there were three independent levels of Quality Control that provided assurance that adequate concrete placement techniques were implemented which eliminated the possibility of foreign material (organic compounds) being introduced during the concrete placement; and iii) the last IWE inspections of the containment liner performed at the Seabrook Station.

concluded-that there were. minor imperfections and discoloration in the coating film and isolated areas where the coating had been damaged, exposing the liner steel which contained only rust staining, or minor surface corrosion. In general, there was no measurable corrosion or any metal loss detected in the containment liner steel.

2. In October 2010 an AR identified failure and degradation of Reactor Sump Liner Coating of the Unit 3 Reactor Sump Liner Plate at Turkey Point Nuclear Station. NextEra is in the process of evaluating this current AR for applicability at Seabrook.
3. In December 1997, Condition Report, (CR) identified containment liner paint (approximately two square feet) scraped .off at the scaffold storage area during the refueling outage OR05, due to poor material control

Enclosure 5 SBK-L-10192 Page 9of 10 practices for storing the scaffolding material. Paint in this area and other additional areas listed in the work order were repaired.

4. In July 1998 Seabrook personnel performed a review of NRC Generic Letter GL 98 Potential for Degradation of the Emergency Core Cooling System (ECCS) and the Containment Spray System (CSS)

After a Loss-of-Coolant (LOCA) Accident Because of Construction and Protective Coating Deficiencies and Foreign Material in Containment.

Seabrook Station responded to GL 98-04 via letter NYN-98125.

5. In November 1997, during the-responsible project engineer's evaluation of the IWE program for.inspection of the containment liner indication, additional corrosion/paint flaking was discovered behind blocks 7 and 9 in containment at the -26' elevation. A work order was generated to perform visual inspection of the containment liner and also included the work activities for removing and replacing degraded moisture barrier, cleaning surface corrosion, and paint repair on the liner as required by the engineering evaluation. Ultrasonic thickness measurements were performed on the containment liner and the thickness was found to be satisfactory and the post-repair general visual exam was performed and found to be acceptable.
6. In December 2000, the containment liner paint was chipped at the 25' elevation in the stud rack storage area due to movement of reactor vessel stud racks (required for reactor vessel studs installation) during the refueling outage OR07. During OR07 the responsible engineer evaluated the affected area and identified several small nicks and dings that penetrated through the protective coatings down to the base metal.

No adverse effect or any surface corrosion was identified on the containment liner by the responsible engineer. This area of the liner was cleaned, prepped and painted during the refueling outage OR08 as required by the responsible engineer's evaluation.

7. In October 2006, a Condition Report (CR) documented the results of containment coating closeout inspection per requirements of specification "S-S-1-E-0147, Protective. Coatings for Service Level 1 Applications Inside the Containment Building". This inspection documented acceptance of the coating and identified required coating repairs (due to peeling and corrosion), and caulking repairs at'various locations in the containment. This CR generated several work orders, which required: 1) painters: to perform a walk down of the identified areas in the containment for paint repair,. 2) prepping, sandblasting or stripping, and painting for stairways, ladders and several valves, in the

.containment; (all activities were completed and accepted by nuclear oversight) and 3) location and repair of cracked/chipped paint on the

Enclosure 5 SBK-L-10192 Page 10 of 10 side of a trench at the CRDM Bridge- (painters checked coating adhesion around this cracking with a dull putty knife and found no chipping or loosening of the coating).

The above examples provide objective evidence -that when degraded/

deteriorated Service. Level I Coatings are identified, they are entered into the corrective action process so that corrective actions will be-taken to address the issue. Appropriate guidance for evaluation, repair, or replacement is provided for locations where degraded/deteriorated

.Service Level I Coatings are identified. The previous examples of operating experience provide objective evidence that the Seabrook Station Protective Coating Monitoring 'and Maintenance Program will be effective in ensuring that intended function(s).will be maintained.

Conclusion The Seabrook Station Protective Coating Monitoring and' Maintenance Program provides reasonable assurance that those coatings managed by this program will continue to perform their intended functions consistent with the current licensing basis for the period of extended operation.

Enclosure 6 SBK-L-10192 Page 1 of 9 Enclosure 6 to SBK-L- 10192 LRA Appendix A - Final Safety Report Supplement Table A.3 License Renewal Commitment List

.Enclosure 6 SBK-L-10192 Page 2 of 9 A.3 LICENSE RENEWAL COMMITMENT LIST UFSAR No. PROGRAM or TOPIC COMMITMENT SCHEDULE LOCATION SHDL An inspection plan for Reactor Vessel Internals will be Program to be submitted for NRC review and approval at least twenty- implemented prior to the period of extended pla four months prior to entering the period of extended PWR Vessel Internals operation. A.2.1.7 operation. Inspection plan

1. to be submitted to NRC not less than 24 months prior to the period of extended operation.

Enhance the program to include visual inspection for.

Closed-Cycle Cooling cracking, loss of material and fouling when the in-scope A.2.1.12 -Prior to the period of systems are opened for maintenance.

Inspection of Overhead Heavy Load and Light Enhance the program to monitor general corrosion on the Prior to the period of

3. Load (Related to crane and trolley structural components and the effects of A.2.1.13*.Pextendedhoperion Refueling). Handling wear on'the rails in the rail system.

Systems Inspection of Overhead

4. Heavy(Related Load Load andto Light Enhance the program to list additional cranes for A.2.1.13, Prior to theoperaion ex...1.Piootened period oof Refueling) Handling monitoring. extended operation Systems Enhance the program to include an annual air quality test Compressed Air' requirement for the Diesel Generator compressed air sub Prior to the period of
5. Monitoring system. extended operation 6.rioetothned operaiodno Fire Protection Enhance the program to perform visual inspection of A.2.1.15 Pxior to the period of penetration seals by a fire protection qualified inspector. extended operation.

Enclosure 6 SBK-L-10192 Page 3 of 9 UFSAR SHDL No. PROGRAM or TOPIC. COMMITMENT LOCATION SCHEDULE Enhance the program to add inspection requirements Fr such as spalling, and loss of material caused by freeze- Prior to the period of Fire Protection thaw, chemical attack, and reaction with aggregates by A.2.1.15 Poto th qualified inspector.

Enhance the program to include the performance of

8. Fire Protection visual inspection of fire'-rated doors by a fire protection A.2.1.15 Prior to the period of qualified inspector, extended operation.

Enhance the program to include NFPA 25 guidance for "where sprinklers have been in place for 50 years, they

9. Fire Water System shall more be replaced sample areasor shall representative samples be submitted from one or to a recognized A.2.1.16 Prior to theoperation.

extended period of testing laboratory for field service testing".

Within ten years Af Enhance the program to include the performance of .,,th,, ten ,ear,of

10. Fire Water System periodic flow testing of the fire water system in A.2.1.16 entering ted perat. Prior F accordance with the guidance of NFPA 25. to the period of extended operation.

Enhance the program to include the performance of periodic visual inspection of the internal surface of the fire protection system upon each entry to the system for' Within ten years

11. routine or corrective maintenance. This These prr to teperi Fire Water System inspections will be performed no earlier than 10 years A.2.1.16 priorto the period of

" *before within ten years priorto the period of extended extended operation.

operation.

12. Aboveground Steel Enhance the program to include components and aging Prior to the period of Tanks Tank effects required by the Aboveground Steel Tanks. A.2.1.17 extended operation.

Enclosure 6.

SBK-L-10192 Page 4 of 9 WAith!n ten years oG

13. Aboveground Steel Enhance the program to include an ultrasonic inspection e...t..rg the period of TnTnsWithin and evaluation of the internal bottom surface of the two A.2.1.17 eXtqnded operation.

ten years priorto.

Fire Protection Water Storage Tanks. the yer rs priorto the period of extended operation.

Enhance program to add requirements to 1) sample and 14: analyze new fuel deliveries for biodiesel prior to Prior to the period.of Fuel Oil Chemistry offloading to the Auxiliary Boiler fuel oil;storage tank and A.2.1.18 extended operation.

2) periodically sample stored fuel in the Auxiliary Boiler fuel oil storage tank.

Enhance the program to add requirements to check for

15. Fuel Oil Chemistry the presence of water in the Auxiliary Boiler fuel oil A.2.1.18 Prior to the period of storage tank at least once per quarter and to remove extended operation.

water as necessary.

Enhance the program to require draining, cleaning and

16. inspection of the dieselfire pump fuel oil day tanks on a Prior to the period of Fuel Oil Chemistry frequency of at least once every ten years. A.2.1.18 extended operation.o Enhance the program to require ultrasonic thickness measurement of the tank bottom during the 10-year" 17 draining, cleaning and inspection of the Diesel Generator Prior to theoperiod of Fuel Oil Chemistry fuel oil storage tanks, Diesel Generator fuel oil day tanks, A.2.118 extended operation.

diesel fire pump fuel oil day tanks and auxiliary boiler fuel oil storage tank.

18. Reactor Vessel Enhance the program to specify that all pulledand tested Prior to the period of

. urveillance S capsules, unless discarded before August 31, 2000, are A.2.1.19

____. _ :placed in storage.

Enhance the program to specify that ifplant operations 19.. Reactor Vessel exceed the limitationsor bounds defined by the Reactor Prior to the period of Surveillance' Vessel Surveillance Program, such as operating at a A.2.1.19 extended operation.

lower cold leg temperature or higher fluence, the impact of plant operation changes on the extent of Reactor _

Enclosure 6 SBK-L-10192 Page 5 of 9 Vessel embrittlement will be evaluated and the NRC will be notified.

Enhance the program as necessary to ensure the appropriate withdrawal schedule for capsules remaining in the vessel such that one capsule will be withdrawn at

20. Reactor Vessel an outage in which the capsule receives a neutron Prior to the period of fluence that meets the schedule requirements of 10 CFR A.2.1.19 Prirntotheperiodo Sv c.50 Appendix H and ASTM El 85-82 and that bounds the 60-year fluence, and the remaining capsule(s) will be removed from the vessel unless determined to provide meaningful metallurgical data.

Enhance the program to ensure that any capsule

21. Reactor Vessel removed, without the intent to test it, is stored in a
  • manner which maintains it in a condition which would A.2.1.19 Pi extended operation.

Surveillance permit its future use, including during the period of extended operation.

Within tcn years of entcring the period ot

22. One-Time Inspection Implement the One Time Inspection Program. A.2.1.20 extendd yes prior..

~Within ten years priorto the period of extended operation.

Materials Implement the Selective Leaching of Materials Program. A.2.1.21 Within five years prior to the period of extended operation.

Implement the Buried Piping And Tanks Inspection Within ten years prior to Tanksinspin Program. A.2.1.22 entering the period of extended operation

Enclosure 6 SBK-L-10192 Page 6 of 9 lithin ten y*, Fs of

25. One-Time nspection'of On-im Ins Implement the One-Time Inspection of ASME Code A.2.1.3 entering the perioda of.

extended operation.

One-Timde Cas1A.2. 1.23 Within..ten years.rior.t SME Code-Classg1 Class 1 Small Bore-Piping Program. Within ten years priorto Small Bore-Piping the period of extended operation.

Enhance the program to specifically address the scope of the program, relevant degradation mechanisms and

26. External Surfaces effects of interest, the refueling outage inspection Prior to the period of Monitoring frequency, the inspections of opportunity for possible A.2.1.24 extended operation.

corrosion under insulation, the training requirements for inspectors and the required periodic reviews to determine program effectiveness.

Inspection of Internal

27. Surfaces in Implement the Inspection of Internal Surfaces in Prior to the period of Miscellaneous Piping Miscellaneous Piping and Ducting Components Program. extended operation.

and Ducting" Components 28.. ' Enhance the program to add required equipment, lube oil Prior to the period of Lubricating OilAnalysis analysis required, sampling frequency, and periodic oil A.2.1.26 extended operation.

changes.

Enhance the program to sample the oil for-the Prior to theperiod of Lubricating Oil Analysis Switchyard SF 6 compressors and the Reactor Coolant . A.2.1.26 extended operation.

pump oil collection tanks.

Enhance the program to require the performance of a one-time ultrasonic thickness measurement of the lower

30. Lubricating Oil Analysis. portion of the Reactor Coolant pump oil collection tanks A.2.1.26 Prior to the period of prior to the period of extended operation. extended operation.
31. ASME Section Xl, 'Enhance procedure to include the definition~of A1 Prior to the period of.

Subsection IWL "Responsible Engineer". I extended operation.

Enclosure 6 SBK-L-10 192 Page 7 of 9 Enhance procedure to add the aging effects, additional 32.PStructures Monitorin locations, inspection frequency and ultrasonic test A.2.1.31 Prthe periodo Program

_____requirements. rqient.extended . operation.

Enhance procedure to include inspection of opportunity Prier tothe period of

33. Structures Monitoring when planning excavation work that would expose A.2.1.31 exte e perion.

Program , . inaccessible concrete. extended operation.

Electrical Cables and Connections

34. Subject to 10 Not CFR Implement the Electrical Cables and Connections Not Prior tothe period of 50.4 Subjenonmental Subject to 10 CFR 50.49 Environmental Qualification A.2.1.32 extendedoperation.

Qualificationmt Requirements program.

Requirements Electrical Cables and Connections Not SSubject to 10 CFR Implement the Electrical Cables and Connections Not Prior to the period of 50.49 Environmental Subject to 10 CFR 50.49 Environmental Qualification A.2.1.33 exte e perion.

Qualification Requirements Used in Instrumentation Circuits program.

Requirements Used in Instrumentation Circuits Inaccessible Power Cables Not Subject to Implement the Inaccessible Power Cables Not Subject to Prior to the period of Env10 CRo 50.49 '

Environmental 10 CFR 50.49 Environmental Qualification Requirements prgrm A.2.1.34 extended operation.

Qualification program.

Requirements MetalPrior.to the period of

37. Metal Enclosed Bus Implement the Metal Enclosed Bus program. A.2.1.35 extended operation.

Fuse Holders Implement the Fuse Holders program. A.2.1.36 extendedtheperaion.o extendedoperation.

Electrical Cable Connections Not

39. Subject to 10 CER Implement the Electrical Cable Connections Not Subject Prior to the period of 50.49 Environmental 10 CFR 50:49 Environmental Qualification Requirementsronogram.

to A.2.1.37 extended operation.

Qualification Requirements program.

Requirements

Enclosure 6 SBK-L-10192 Page 8 of 9

40. 345 KV SF 6 Bus Implement the 345 KV SF 6 Bus program. A.2.2.1 Prior to the period of.

extended operation.

41. Metal Fatigue of Enhance the program to include additional transients Prior to the period of Reactor Coolant beyond those defined in the Technical Specifications and A.2.3.1 extended operation.

Pressure Boundary. UFSAR.

Metal Fatigue of Enhance the program to implement a software program, to count transients to monitor cumulative usage on Prior to the period of

.42. Reactor Coolant extendedepA.r2.3.a1 Pressure Boundary selected components Pressure -Temperature Presure-Temeraurebe submitted analyses The.updated at the will Limits, including Low Seabrook Station will submit updates to the P-T curves bepropritte at the

43. Temperature and LTOP limits to the NRC at the appropriate time to A.2.4.1.4 appropriate time to comply with. 10 CFR 50 Appendix Overpressure

.Limits Protection comply with 10 CFR 50 Appendix G. G, Fr Toughness G, Fracture Toughness Requirements.

(1) Consistent with the Metal Fatigue of Reactor Coolant

-Pressure Boundary Program Seabrook Station will update the fatigue usage calculations using refined fatigue analyses, if necessary, to determine acceptable CUFs (i.e., less than 1.0) when accounting for the effects of the reactor water environment. This includes applying the appropriate Fen factors to valid CUFs determined from an existing fatigue analysis valid for the period of extended operation or from an analysis using an NRC-approved version of the ASME code or NRC-approved Environmentally- alternative (e.g., NRC-approved code case). At least two -years prior to

44. Assisted Fatigue , A.2.4.2.3 entering the period of Analyses (TLAA) (2) If acceptable CUFs cannot be demonstrated for all the extended operation.

selected locations, then additional plant-specific locations will be'evaluated. For the additional plant-specific locations, if CUF, including environmental effects is greater than 1.0, then Corrective Actions will be initiated, in accordance with the Metal Fatigue of Reactor Coolant Pressure Boundary Program, B.2.3.1. Corrective Actions will include inspection, repair, or replacement of the affected locations before exceeding a CUF of 1.0 or the effects of fatigue will be managed by an inspection program that has been reviewed and approved by the

Enclosure 6

,SBK-L-10192 Page 9 of 9 NRC (e.g., periodic non-destructive examination of the .

affected locations at inspection intervals to be determined by a method accepted by the NRC).

Mechanical Equipment Revise Mechanical Equipment Qualification Files. A.2.4.5.9 Prior to the period of Qualification extended operation.

Protective Coating Enhance the programby designatingand qualifying Priorto the period of

46. Monitoring and an Inspector Coordinatorand an Inspection Results A.2.1.38 Maintenance Evaluator. extended operation Enhance the program by including, "Instrumentsand Protective Coating Equipment needed for inspection may include, but not be limited to, flashlight,spotlights, markerpen, A Priorto the period of Mointongand mirror,measuring tape, magnifier, binoculars, extended operation.

Maintenance camera with or without wide angle lens, and self sealing polyethylene sample bags."

PrtcieCatndgro otheido Protective Coating Enhance the program to include a review of the A.2.1.38 Priorto the p eriod of Maintenance previous two monitoringreports. extended operation Enhance the program to require that the inspection Protective Coating reportis to be evaluatedby the responsible Prior to the period of

49. Monitoringand evaluation personnel, who is to prepare a summary A.2.1.38 extende perion Maintenance of findings and recommendationsfor futuree surveillance or repair.