NL-09-060, Amendment 8 to License Renewal Application

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Amendment 8 to License Renewal Application
ML091460051
Person / Time
Site: Indian Point  Entergy icon.png
Issue date: 05/15/2009
From: Dacimo F
Entergy Nuclear Northeast
To:
Document Control Desk, Office of Nuclear Reactor Regulation
References
NL-09-060
Download: ML091460051 (28)
v  d  e


Text

Entercay Nuclear Northeast Indian Point Energy Center SEntergy 450 Broadway, GSB P.O. Box 249 Buchanan, NY 10511-0249 Tel (914) 788-2055 Fred Dacimno Vice President License Renewal NL-09-060 May 15, 2009 U.S. Nuclear Regulatory Commission Attn: Document Control Desk Washington, DC 20555-0001

SUBJECT:

Amendment 8 to License Renewal Application (LRA)

Indian Point Nuclear Generating Unit Nos. 2 & 3 Docket Nos. 50-247 and 50-286 License Nos. DPR-26 and DPR-64

REFERENCES:

1. Entergy Letter dated April 23, 2007, F. R. Dacimo to Document Control Desk, "License Renewal Application" (NL-07-039)
2. Entergy Letter dated April 23, 2007, F. R. Dacimo to Document Control Desk, "License Renewal Application Boundary Drawings (NL-07-040)
3. Entergy Letter dated April 23, 2007, F. R. Dacimo to Document Control Desk, "License Renewal Application Environmental Report References (NL-07-041)
4. Entergy Letter dated October 11, 2007, F. R, Dacimo to Document Control Desk, "License Renewal Application (LRA)" (NL-07-124)
5. Entergy Letter November 14, 2007, F. R, Dacimo to Document Control Desk, "Supplement to License Renewal Application (LRA)

Environmental Report References" (NL-07-133)

Dear Sir or Madam:

In the referenced letters, Entergy Nuclear Operations, Inc. applied for renewal of the Indian Point Energy Center operating license. This letter contains Amendment 8 to the License Renewal Application (LRA).

If you have any questions, or require additional information, please contact Mr. Robert Walpole at 914-734-6710.

NL-09-060 Page 2 of 2 I declare under penalty of perjury that the foregoing is true and correct. Executed on 51.5109 FRD/dmt

Attachment:

1. Amendment 8 to License Renewal Application, Annual Update Amendment cc: Mr. Samuel J. Collins, Regional Administrator, NRC Region I Mr. Sherwin E. Turk, NRC Office of General Counsel, Special Counsel Mr. Kenneth Chang, NRC Branch Chief, Engineering Review Branch I Mr. John Boska, NRR Senior Project Manager Mr. Paul Eddy, New York State Department of Public Service NRC Resident Inspector's Office Mr. Francis J. Murray, President and CEO, NYSERDA

ATTACHMENT 1 TO NL-09-060 Amendment 8 to License Renewal Application, Annual Update Amendment ENTERGY NUCLEAR OPERATIONS, INC.

INDIAN POINT NUCLEAR GENERATING UNIT NOS. 2 & 3 DOCKET NOS. 50-247 AND 50-286

Attachment 1 NL-09-060 Page 1 of 25 INDIAN POINT NUCLEAR GENERATING UNIT NOS. 2 AND 3 LICENSE RENEWAL APPLICATION ANNUAL UPDATE AMENDMENT In accordance with 10 CFR 54.21(b), each year following submittal of the license renewal application and at least 3 months before scheduled completion of the NRC review, an amendment to the renewal application must be submitted that identifies any change to the CLB of the facility that materially affects the contents of the license renewal application (LRA), including the FSAR supplement. This attachment documents the review of Indian Point Energy Center (IPEC) current licensing basis (CLB) documents per 10CFR54.21(b), and identifies any changes that materially affect the contents of the LRA.

The review includes documents affecting the CLB during the period of May 1, 2008 through March 1, 2009 since the last annual update for amendment of the LRA included a review of documents thru April 30, 2008. This review period reflects the need to provide an update prior to issuance of the final SER.

This review concluded that certain sections of the LRA are affected by changes to the CLB over the period of review. The table shown below provides a summary of the changes including the affected system (if applicable), an explanation of the change (including affect on the LRA), and the affected LRA section.

IPEC LRA Sections Affected LRA Section System CLB Change Affected Engineering change modified the buffer chemical in the IP3 containment spray system from sodium hydroxide (liquid injection) to sump baskets containing sodium tetraborate. The sodium hydroxide injection components are retired in place (disconnected and drained). 2.3.2.2 (I1P3)

(The sump baskets themselves have no license Table 3.2-2-1P3 (inlu notes) renewal intended function and as such are not CS reviewed, but the buffer descriptions in the LRA (including notes) require changing.) App. B, B.1.29

[Deleted line items associated with sodium hydroxide components from LRA tables and tank inspection activities from the Appendix B program]

Attachment 1 NL-09-060 Page 2 of 25 LRA Section System [CLB Change. Affected During site activities for the corporate Buried Piping and Tanks Program it was found that there is buried piping in the CISS system that had not been previously identified. This buried piping provides air to Flow Thru Test Station #

15 3.2.2.1.3 CISS Table 3.2.2-3-1P2

[Added stainless steel/soil as a material/ App. B, B. 1.6 environment to the tables and the system reference to the Appendix B program. See identical material/environment line items in LRA tables 3.2.2-2-1P3 and 3.2.2-4-1P3]

Drawing change added valve numbers for valves already shown on LRA dwg and included in LRA tables. (Component database change only)

SIS None

[Component numbers added to component database - no new component type/material/environment line items created]

Engineering change - added drain piping and float valve to protect RHR pump motors from internal flooding 3.3.2.1.18

[Additional component type/ Table 2.3.3-18-A material/environment added to LRA tables - Table 3.3.2-18-1P2.

See identical material/environment line items in Table 3.3.2-18-1P3 LRA tables 3.3.2-19-28-1P2 and 3.3.2-11-1P3 with the exception of plastic/soil which is a new material/environment combination]

Drawing change added piping and valves for nitrogen backup to ADVs N2 [Addition of components with no new None component type/material/environment line items created]

Engineering change deleted valve.

[Deletion of components only - no impact on existing component type/material/environment None line items]

Attachment 1 NL-09-060 Page 3 of 25 System CLB Change LRA Section Affected Engineering change replaced IP3 Security Generator

[Change in materials for section 3.3 tables - See identical material/environment line items in table 3.3.2-16-1P2 for the stainless steel/exhaust gas line item and NUREG 1801, Rev. 1 line item VII.A4-5 for the aluminum/treated water line item. Modified heat exchanger (bonnet) line 3.3.2.1.15 SPG item for a new fiberglass/treated water combination. This fiberglass/treated water material/environment combination has been previously reviewed as documented in the final Vermont Yankee Safety Evaluation Report (dated February 2008), in section 3.3.2.3.72 which includes the staff finding that the fiberglass/treated water combination has no aging effects. Therefore, no program is required for management of this combination]

SER review identified that there are no IP2 fire protection CO 2 systems which contradicts information in the LRA that included a CO 2 CO 2 system for the new Station Blackout Out diesel 2.3.3.12(IP2) which was not installed.

[Change to text only]

Engineering change replaced oil water separator for main boiler feed pump lube oil system (some components designated as in LO scope for 54.4 (a)(2) were deleted) None

[Change to text only. No impact to table line items]

Engineering change - IP2 Fuel Storage Building Single Failure Proof Gantry Crane

[Change to text only to identify new gantry 2.4.3 crane in building description. No impact to table line items]

Attachment 1 NL-09-060 Page 4 of 25 IPEC LRA changes are shown below.

(Changes are shown as strikethroughs for deIetiens and underlines for additions)

LRA Section 2.3.2.2, Containment Spray System, System Description, Unit 3, second and third paragraphs, are revised as follows.

The containment spray system includes a Spray additive-tank containing sodiumn hydroxfide and eductore that draw from the tank when the containment spray pumps are in operation following a LOCA for pH control of the water in centainment.1Long-term post-accident retention of iodine is assured by sodium tetraborate baskets located in the containment that will be flooded under accident conditions, allowing the sodium tetraborate to dissolve into the fluid for pH control.

The containment spray system also includes a dousing system for the carbon filter bank of each fan cooler unit of the containment air recirculation cooling and filtration system. Each dousing system can be started manually if high temperature conditions occur.

The containment spray system has the following intended functions for 10 CFR 54.4(a)(1).

  • Provide means for rapid reduction of containment pressure and temperature by providing borated water from the RWST following a design basis loss-of-coolant accident (LOCA) or a steam-line-break accident inside containment.
  • Distribute flow from the containment recirculation pumps or RHR pumps to .

the containment atmosphere during the recirculation phase of an accident.

  • Provide a means to inject chemical spray additives (sodium hydroxide sodium tetraborate) into the containment spray stream. to increase the pH of post-accident fluids in the recirculation and containment sumps.

. Provide containment isolation capability for lines penetrating containment.

Attachment 1 N.L-09-060 Page 5 of 25 LRA Table 2.3.2-2-1P3 is revised as follows.

Table 2.3.2-2-1P3 Containment Spray System Components Subject to Aging Management Review Component Type Intended Function(s)

Bolting Pressure boundary Eductor Pressure boundary Flow control Flow element Pressure boundary Nozzle Pressure boundary Flow control Piping Pressure boundary Pump casing Pressure boundary Tank P ,r*eureboundaFy Tubing Pressure boundary Valve body Pressure boundary

Attachment 1 NL-09-060 Page 6 of 25 LRA Table 3.2.2-2-IP3 is revised as follows-.

Table 3.2.2-2-1P3: Containment Spray System Aging Effect Aging NUREG- Table I Notes Type Fntin Material Environment Requiring Management 1801 Vol. Item Management Programs 2 Item Ite Flow element Pressure Stainless Air - indoor (int) None None -- G boundary steel Flw emelr Pressu e Stailess Teated wate = Water Ws-ef he be..idafy steel ORO material Control Auxiiar, 202 Systems F-Iew-eiernw PFessU~e Sta~iless TrFeated water GFaekinig WateF Gherie~s -

, .... , , steel (-i - Control - Auxilia,,

. 202 Systems Nozzle Pressure Stainless Air -indoor None None V.F-13 3.2.1-57 A boundary steel (ext) (EP-19)

Flow control Nozzle Pressure Stainless Air - indoor (int) None None .... G boundary steel.

Flow control Piping Pressure Stainless Air- indoor None None V.F-13 3.2.1-57 A boundary steel (ext) (EP-19)

Piping Pressure Stainless Air - indoor (int) None None .... G boundary steel

Attachment 1 NL-09-060 Page 7 of 25

'Table 312.2-2-1P3: Containment Spray System Aging Effect Aging NUREG- Table Notes Material Environment Requiring Management 1801 Vol. Item Type Function Management Programs 2 Item Piping Pressure Stainless Air - outdoor Loss of External Surfaces G boundary steel (ext) material Monitoring Piping Pressure. Stainless Soil (ext) Loss of Buried Piping and V.D1-26 3.2.1-4 E boundary steel material Tanks Inspection (EP-31)

Piping Pressure Stainless Treated borated Loss of Water Chemistry V.A-27 3.2.1-49 A boundary steel water (int) material Control - Primary (EP-41) and Secondary P0p4in Pressue Stainless Tre-idoor:Water GFaokin- Watei3..he-is7A boundary steel (ORt) Control 1Auxiliay 202 Ppcing Pressuie Stainless Treated water Losseof WateF Chemistry - -

boundary steel water (nateFial Prilary Control-1202 Systems Pump casing Pressure Stainless Air - indoor: None None V.F-13 3.2.1-57 A boundary steel (ext) (EP-1 9)

Pump casing Pressure Stainless Treated borated Loss of Water Chemistry V.A-27 3.2.1-49 A boundary steel water (int) material Control - Primary (EP-41) and Secondary Tank 1aFb P10esse Ai--d Less-of External Su-,rffaces V 3.2.1 31 -A bounda4y stee~lwih (e)*4. inateFial Moirtel E- stainless

_ _ o~~Gldding_____

Attachment 1 NL-09-060 Page 8 of 25 Table 3.2.2-2-1P3: Containment Spray System Component IntendedTalI Aging Effect Aging NUREG- Table N Material Environment Requiring Management 1801 Vol. Notes Type Function Management Programs 2 Item Item Tan Pressure Ga*ben Ai--4Fde Less-oe BeFGi-Aid VD1- 3.2.1 45 -G beunda-ry steel-with (e)4} material Corroson (E--28) staless PFeventien Tank PFessufe Gar-en Treated watef GFa.k- Water-Ghemi.ty.-,

beURda.y steel-with (ira-) Control Auxiliary 202 staless Systems

_ _ eladdkig Tak PFessure GaFben Treated wate Less-ef Water eipty -

boundary steel-with (OtO C202 (ateFel stainless Systems T-a4k PFessufe Carben Treated-water Less-ef Pe~med*G-beundary steel-with OR4 mateFial Sureilance and 202 staol~ess P~eeveftve Gladdi~g MaffitenanGe Tubing Pressure Stainless Air - indoor None None V.F-13 3.2.1-57 A boundary steel (ext) (EP-1 9)

Tubing Pressure Stainless Air - indoor (int) None None - G boundary steel Tubing Pressure Stainless Treated borated Loss of Water Chemistry V.A-27 3.2.1-49 A boundary steel water (int) material Control - Primary (EP-41) and Secondary

Attachment 1 NL-09-060 Page 9 of 25 Table 3.2.2-2-1P3: Containment Spray System Aging Effect Aging NUREG- Table 1 Notes Type Function Material Environment Requiring Management 1801 Vol. Item Management Programs 2 Item Pressfe Stamnle& TFeated-wat& L*es.*, Water Chemtry -

beunda*y steel (Aq ineeiaI Control Auxiliar"y 242 Systems TuigP~eesUwe Stail~ess TrPeated-Wat& G~aGkiing WAIRer Chemis"~ --

beiundaiy steel (4}CnrlAiiry2-02 Systems Valve body Pressure Stainless Air - indoor None None V.F-13 3.2.1-57 A boundary steel (ext) (EP-19)

Valve body Pressure Stainless Air - outdoor Loss of External Surfaces G boundary steel (ext) material Monitoring Valve body Pressure Stainless Treated borated Loss of Water Chemistry V.A-27 3.2.1-49 A boundary steel water (int) material Control - Primary (EP-41) and Secondary Valve body PFe~ssue Stainess Trea;tpd-wAfter Less e Wahpmiy IIfp -

b.u.da*y steel (Ono material Control Auxilia. 202 Systems Valve-body P~essuwe Stainess T-Feated-wate G~a~kng WateF Ghemist~y ---

b.U.daiFy steel nt-) Control -*-uilA 202 Systems

Attachment 1 NL-09-060 Page 10 of 25 LRA Notesfor Tables 3.2.2-1-1P2 through 3.2.2-5-1P3 are revised as follows.

Notes for Tables 3.2.2-1-1P2 through 3.2.2-5-1P3 Plant-Specific Notes 201. The air - treated environment is the equivalent of the NUREG-1801 defined dried air.

202. Thic treted wate. n'iro....

."water

.ith nt SA.-,,odi hydroXidev. Not used.

203. This treated water environment is the equivalent of the NUREG-1801 defined closed cycle cooling water.

204. The containment sump suction line on IP3 utilizes a "mini-containment" consisting of guard piping and encapsulation of the containment outboard isolation valve. The air pressure internal to the "mini-containment" is maintained above the pressure internal to the RHR components by instrument air.

205. Not Used.

LRA Appendix B, Section B.1.29, Periodic Surveillance and Preventive Maintenance, is revised as follows.

B.1.29 PERIODIC SURVEILLANCE AND PREVENTIVE MAINTENANCE Program Description The Periodic Surveillance and Preventive Maintenance Program is an existing program that includes periodic inspections and tests that manage aging effects not managed by other aging management programs. In addition to specific activities in the plant's preventive maintenance program and surveillance program, the Periodic Surveillance and Preventive Maintenance Program includes enhancements to add new activities. The preventive maintenance and surveillance testing activities are generally implemented through repetitive tasks or routine monitoring of plant operations. Credit for program activities has been taken in the aging management review of the following systems and structures. All activities are new unless otherwise noted.

Attachment 1 NL-09-060 Page 11 of 25 Reactor building Use visual or other NDE techniques to inspect the surface condition of carbon steel components of the reactor building cranes (polar and manipulator), crane rails, and girders, and refueling platform to manage loss of material.

[existing]

Containment Spra'; system 1P3: Perform wall thickness mneaSUremnents of the hla;O-H ta;nk to manage loss of material. [exiSting]

LRA Appendix B, Periodic Surveillance and Preventive Maintenance, Section B. 1.29, Attribute 10, is revised as follows.

10. Operating Experience Typical inspection results of this program include:
  • IP2 reactor building polar crane (May 2006): no indication of corrosion, cracking, or wear in the crane structural members.

- IP3 reactor building polar crane (February 2001 and March 2005): no indication of corrosion, cracking, or wear in the crane structural members.

. !P3 sodium hydroxide (NaQH) storage tank (August 2001): no deficiencies. Ultrasonic meaSUrement of wall thickness was satisfactorY.

- IP2 and IP3 recirculation pumps and related system components (2005 and 2006): no deficiencies.

- IP2 Diesel Generator Building floor drain backwater valves (October 2006): no loss of material.

- IP2 and IP3 EDG's (2005 and 2006): no unacceptable loss of material.

LRA Section 3.2.2.1.3 Containment Isolation Support System is revised as follows.

Environment Containment isolation support system components are exposed to the following environments.

" air - indoor

" air - treated

  • gas "treated water
  • soil

Attachment 1 NL-09-060 Page 12 of 25 Aging Effects Requiring Management The following aging effects associated with the containment isolation support system require management..

  • loss of material Aging Management Programs The following aging management programs manage the aging effects for containment isolation support system components.
  • Bolting Integrity

" External Surfaces Monitoring

  • Water Chemistry Control - Primary and Secondary
  • Buried Piping and Tanks Inspection

Attachment 1 NL-09-060 Page 13 of 25 LRA table 3.2.2-3-1P2, Containment Isolation Support Systems Summary of Aging Management Review (IP2), is revised as follows.

Table 3.2.2-3-1P2: Containment Isolation Support Systems Aging Effect Aging NUREG- Table I Notes Function Material Environment Requiring Management 1801 Vol. Item Type Management Programs 2 Item Piping Pressure Carbon Air - treated None None VII.J-22 3.3.1-98 C, boundary steel (int) (AP-4) 201 Pressure Stainless Soil (ext) Loss of Buried Piping and VII.C1-18 3.3.1-19 C boundary steel material Tanks Inspection (A-01)

Pressure Stainless Air- treated None None VII.J-18 3.3.1-98 C 201 boundary steel (int) (AP-20)

Piping Pressure Stainless Air - indoor None None V.F-12 3.2.1-53 A boundary steel (ext) (EP-1 8)

Piping Pressure Stainless Treated water Loss of Water Chemistry V.C-4 3.2.1-3 C, boundary steel (int) material Control - Primary (E-33) 206 and Secondary Tank Pressure Carbon Air - indoor Loss of External Surfaces V.E-7 3.2.1-31 A boundary steel (ext) material Monitoring (E-44)

Tank Pressure Carbon Air - treated None None VII.J-22 3.3.1-98 C, boundary steel (int) (AP-4) 201

Attachment 1 NL-09-060 Page 14 of 25 LRA Appendix B, BURIED PIPING AND TANKS INSPECTION, Section B.1.6, is revised as follows.

B.1.6 BURIED PIPING AND TANKS INSPECTION Program Description The Buried Piping and Tanks Inspection Program is a new program that includes (a) preventive measures to mitigate corrosion and (b) inspections to manage the effects of corrosion on the pressure-retaining capability of buried carbon steel, gray cast iron, and stainless steel components. Preventive measures are in accordance with standard industry practice for maintaining external coatings and wrappings.

Buried components are inspected when excavated during maintenance. If trending within the corrective action program identifies susceptible locations, the areas with a history of corrosion problems are evaluated for the need for additional inspection, alternate coating, or replacement. The program applies to buried components in the following systems.

  • Safety injection

- Fire protection

" Fuel oil

  • Security generator

" City water

" Plant drains

" Auxiliary feedwater

" Containment isolation support LRA Section 3.3.2.1.18, Plant Drains is revised as follows.

Materials Plant drains components are constructed of the following materials.

  • stainless steel
  • qray cast iron pplastic Environment Plant drains components are exposed to the following environments.

" air - indoor

, air - outdoor

" concrete

" gas

" raw water soil

  • treated borated water

Attachment 1 NL-09-060 Page 15 of 25 LRA Table 2.3.3-18-A, Floor Drains Routing is revised as follows:

Table 2.3.3-18-A Floor Drains Routing (Continued)

Route Description Number IP2: Fire Area A, Zone 32A, Electrical Tunnel in the Primary and Control Building, contains automatic closed head, preaction water spray systems.

Water from the actuated sprinklers in the electrical tunnel flow down the sloped floor toward the cable spreading room. At the end of the tunnel, a properly sized drain routes water to the yard where drainage terminates.

2 MEP: Fire Area G, Zone 10, Diesel Generator Building, contains an automatic (closed head) spray system with backflow prevention devices.

Five drainage sumps are provided in the building and connect to the site drainage system routing water from elevation 64' to elevation 18' and terminates at manhole 17.

3 IP2: Primary Auxiliary Building (PAB) drains protect safety-related equipment from flooding at various elevations throughout the building.

Drain water is routed through a series of 4" drains to a deep sump located at the 15' elevation. The door leading to the main tanfor*mer yard is designed to provide for drainagc to the yard A float operated valve with PVC pipe that penetrates the exterior PAB wall is routed below grade to a nearby storm drain manhole in the transformer yard to prevent RHR pump failure in the unlikely event the pipe failure is undetected. Operator actions are also credited to prevent flooding of the RHR pumps.

6 IP3: The Primary Auxiliary Building (PAB) is designed so flooding from any elevation will result in water settling at the lowest elevation (15'). Each room utilizes drains to protect safety-related equipment from flooding at various elevations throughout the building. Drain water is routed through a series of 4" drains to a deep sump located at the 15' elevation. Suffieient drainage area ie,provided in addition to a flap installed in the door leading to the mamin transformen yaFrd A float operated valve with PVC pipe that penetrates the exterior PAB wall is routed below grade to a nearby storm drain manhole in the transformer yard in the unlikely event the pipe failure is undetected to prevent RHR pump failure. Operator actions are also credited to prevent flooding of the RHR pumps.

Attachment 1 NL-09-060 Page 16 of 25 LRA Table 3.3.2-18-1P2, Plant Drains Summary of Aging Management Review (IP2) and LRA table 3.3.2-18-1P3, Plant Drains Summary of Aging Management Review (IP3), is revised as follows.

Table 3.3.2-18-1P2: Plant Drains Aging Effect Aging NUREG- Table 1 Notes Material Environment Requiring Management 1801 Vol. Item Type Function Management Programs 2 Item Eipim Pressure Plastic Air - indoor (int) None None -- -- F boundary pin Pressure Plastic Air - indoor None None -- -- F boundary (ext) pii Pressure Plastic Soil (ext) None None -- -- F boundary Strainer Filtration Carbon Air- indoor Loss of External Surfaces VII.I-8 3.3.1-58 A steel (ext) material Monitoring (A-77)

Strainer Filtration Stainless Air- indoor None None VII.J-15 3.3.1-94 A steel (ext) (AP- 17)

Tubing Pressure Stainless Air- indoor None None VII.J-15 3.3.1-94 A boundary steel (ext) (AP-1 7)

Tubing Pressure Stainless Raw water (int) Loss of One-Time VII.C1-15 3.3.1-79 E boundary steel material Inspection (A-54)

Attachment 1 NL-09-060 Page 17 of 25 Table 3.3.2-18-1P2: Plant Drains Component Intended Aging Effect Aging. NUREG-ypnent nctind Material Environment Requiring Management 1801 Vol. Table Notes Type Function Management Programs 2 Item Item Valve body Pressure Carbon Air - indoor Loss of External Surfaces VII.I-8 3.3.1-58 A boundary steel (ext) material Monitoring (A-77)

Valve body Pressure Carbon Raw water (int) Loss of Periodic VII.C1-19 3.3.1-76 E boundary steel material Surveillance and (A-38)

Preventive Maintenance Valve body Pressure Stainless Air - indoor None None VII.J-15 3.3.1-94 A boundary steel (ext) (AP-17)

Valve body Pressure Stainless Gas (int) None None VII.J-19 3.3.1-97 A boundary steel (AP-22)

Valve body Pressure Stainless Raw water (int) Loss of One-Time VII.C1-15 3.3.1-79 E boundary steel material Inspection (A-54)

Valve body Pressure Stainless Treated borated Loss of Water Chemistry VII.El-17 3.3.1-91 C boundary steel water (int) material Control - Primary (AP-79) and Secondary Valve body Pressure Gray cast Air- indoor Loss of External Surfaces VII.1-8 3.3.1-58 A boundary iron (ext) material Monitoring (A-77)

Valve body Pressure Gray cast Air - indoor (int) None None V.A-19 3.2.1-32 E boundary iron (E-29)

Attachment 1 NL-09-060 Page 18 of 25 Table 3.3.2-18-1P3 Plant Drains Summary of Aging Management Review Table 3.3.2-18-1P3: Plant Drains Aging Effect Aging Management NUREG- l Notes Function Material Environment Requiring 1801 Vol. 2 Item Type Management Programs Item Piping Pressure Plastic Air - indoor (int) None None -- -- F boundary Piping Pressure Plastic Air - indoor None None -- -- F boundary (ext)

Piping Pressure Plastic Soil (ext) None None -- -- F boundary Strainer Filtration Carbon Air - indoor Loss of material External Surfaces VII.I-8 3.3.1- A steel (ext) Monitoring (A-77) 58 Strainer Filtration Stainless Air - indoor None None VII.J-15 3.3.1- A steel (ext) (AP-17) 94 Tubing Pressure Stainless Air- indoor None None VII.J-15 3.3.1- A boundary steel (ext) (AP-1 7) 94

Attachment 1 NL-09-060 Page 19 of 25 Table 3.3.2-18-IP3: Plant Drains Aging Effect Aging Management NUREG- Tabtle mpoet Fnctind Material Environment Requiring Programs 1801 Vol. 2 Item Notes Type Function Management Item Tubing Pressure Stainless Raw water (int) Loss of material One-Time Inspection VII.C1-15 3.3.1- E boundary steel (A-54) 79 Valve body Pressure Stainless Air - indoor None None VII.J-15 3.3.1- A boundary steel (ext) (AP-17) 94 Valve body Pressure Stainless Gas (int) None None VII.J-19 3.3.1- A boundary steel (AP-22) 97 Valve body Pressure Stainless Raw water (int) Loss of material One-Time Inspection VI1.C1-15 3.3.1- E boundary steel (A-54) 79 Valve body Pressure Stainless Treated borated Loss of material Water Chemistry VII.El-17 3.3.1- C boundary steel water (int) Control - Primary (AP-79) 91 and Secondary Valve body Pressure Gray cast Air - indoor Loss of material External Surfaces VII.1-8 3.3.1-58 A boundary iron (ext) Monitoring (A-77)

Valve body Pressure Gray cast Air - indoor (int) Loss of material External Surfaces V.A-19 3.2.1-32 E boundary iron Monitoringq (E-29)

Attachment 1 NL-09-060 Page 20 of 25 LRA Section 3.3.2.1.15, Security Generator is revised as follows.

Materials Security generator system components are constructed of the following materials.

  • aluminum

" carbon steel Scoppe'r alloy 15% zinc

" stainless steel "fiberglass Aging Management Programs The following aging management programs manage the aging effects for security generator system components.

" Bolting Integrity

" Buried Piping and Tanks Inspection

" External Surfaces Monitoring

" Periodic Surveillance and Preventive Maintenance

" Selective LeaChing "Water Chemistry Control - Closed Cooling Water

Attachment 1 NL-09-060 Page 21 of 25 LRA Table 3.2.2-15-1P3, Security Generator Summary of Aging Management Review, is revised as follows.

Table 3.3.2-15-1P3: Security Generator Component Intended Aging Effect Aging NUREG- Table 1 ypoen Fnctind Material Environment Requiring Management .1801 Vol. I Notes Type Function Management' Programs 2 Item Item Bolting Pressure Carbon Air - indoor Loss of Bolting Integrity VII.I-4 3.3.1-43 A boundary steel (ext) material (AP-27)

Bolting Pressure Stainless Air-7indoor None None VII.J-15 3.3.1-94 C boundary steel (ext) (AP-17)

Filter housing Pressure Carbon Air - indoor Loss of External Surfaces VII.I-8 3.3.1-58 A boundary, steel (ext) material Monitoring (A-77)

Filter housing Pressure Carbon Air - indoor (int) Loss of External Surfaces V.A-19 3.2.1-32 E boundary steel material Monitoring (E-29)

Flexible Pressure Carbn Air - indoor Less-ef E.ternal Sufaces V-1.-8 " 58 3.-. C bellows boundary steel (ext) material Mente*gA 9 (A-7-7-) 3.3.1-94 Stainless None None VII.J-15 Steel (AP-1 7)

Flexible Pressure: Carben Exhaust gas Cracking - Periodic H bellows boundary steel (int) fatigue Surveillance and Stainless Preventive Steel Maintenance

Attachment 1 NL-09-060 Page 22 of 25 Table 3.3.2-15-1P3: Security Generator Aging Effect Aging NUREG- Table Notes Function Material Environment Requiring Management 1801 Vol. Item Type Management Programs 2 Item Flexible Pressure Ga-ben Exhaust gas Loss of Periodic VII.H2-2 3.3.1-18 E bellows boundary steel (int) material Surveillance and (A-27)

Stainless Preventive Steel Maintenance Flexible Pressure Stainless Air-indoor None None VII.J-15 3.3.1-94 A connection boundary steel (ext) (AP-17)

Flexible Pressure Stainless Gas (int) None None VII.J-19 3.3.1-97 A connection boundary steel (AP-22)

Heat Pressure Gopp& Air - indoor None None V-F3 3.2.1 53 -G exchanger boundary alley*>, 5% (ext) (EP4 0) -- F (bonnet) Z--

Fiberglass Heat Pressure GeppeF Treated water I=eee-ef GWate-r he*istFy V, .EI 2 3.3 i-54 -9 exchanger boundary alley>

.. 15% (int) mateFial Control Closed (AP 34) -- F (bonnet) Z-R None Geeling- Watef --

Fiberglass None Heat Heat Aluminum Air - indoor Fouling Periodic H exchanger transfer (ext) Surveillance and (fins) Preventive Maintenance

Attachment 1 NL-09-060 Page 23 of 25 Table 3.3.2-15-1P3: Security Generator Aging Effect Aging NUREG- Table 1 Type Fntin Material Environment Requiring Management 1801 Vol. Notes Type Function Management Programs 2 Item Item Heat Heat GLppe Air - indoor Fouling Periodic -G exchanger transfer a,..y-,-.15% (ext) Surveillance and F (tubes) Z-R Preventive Aluminum Maintenance Heat Heat Geppe Treated water Fouling Water Chemistry V1 G2.2 3.3.1 52 -D exchanger transfer all"-e 1o5% (int) Control - Closed (AP-80) -- F (tubes) Z-R Cooling Water --

Aluminum Heat Pressure Coppe Air - indoor None None VF 3.2 a53 -G exchanger boundary alley >o15% (ext) (EP 10) - F (tubes) Z.R Aluminum Heat PFessuwe Geppe T-Feated-wat Less-o Seetv Le-aching N11H-1'2-4 -3.3.1-84 -X-,

eXehanger boundary alley > 45% (in FnateW (AP 43) 3G4 (tubes) Z-R Heat Pressure Copper~ Treated water Loss of Water Chemistry VW1-2 3.3.-1-51i- -D exchanger boundary alley > 45% (int) material Control - Closed (AP 34) - F (tubes) Z-R Cooling Water -

Aluminum Piping Pressure Carbon Air - indoor Loss of External Surfaces VII.1-8 3.3.1-58 A boundary steel (ext) material Monitoring (A-77)

Attachment 1 NL-09-060 Page 24 of 25 Table 3.3.2-15-1P3: Security Generator Component Intended Aging Effect Aging NUREG- Table I Type Function Material Environment Requiring Management 1801 Vol. Item Notes Management Programs 2 Item Piping Pressure Carbon Air - indoor (int) Loss of External Surfaces V.A-19 3.2.1-32 E boundary steel material Monitoring (E-29)

Piping Pressure Carbon Exhaust gas Cracking - Periodic H boundary steel (int) fatigue Surveillance and Preventive Maintenance Piping Pressure Carbon Exhaust gas Loss of Periodic VII.H2-2 3.3.1-18 E boundary steel (int) material Surveillance and (A-27)

Preventive Maintenance

Attachment 1 NL-09-060 Page 25 of 25 LRA Section 2.3.3.12(IP2), Fire Protection - CO2, Halon, and RCP Oil Collection Systems, System Description, Unit 2, third paragraph, is revised as follows.

The fire protection - C02, halon, and RCP oil collection system consists of fixed fire suppression systems utilizing carbon dioxide (C02) and bromotrifluoromethane (Halon 1301) as well as oil leakage collection for the reactor coolant pumps (RCPs). The C02 and halon systems consists of gas storage tanks and the necessary piping, valves, and instrumentation. The RCP oil collection system consists of drain pans, collection tanks and the necessary piping, valves, and instrumentation to collect any leakage of the RCP lube oil system.

LRA Section 2.4.3, Turbine Buildings, Auxiliary Buildings and Other Structures, Description, fourteenth section (Fuel Storage Buildings (IP2/3) is revised as follows.

Fuel Storage Buildings (IP2/3)

For Units 2 and 3, the fuel storage building is designed to handle and store both spent and new fuel and provides support for the spent fuel crane and other fuel handling equipment.

In addition, the floor of IP2 provides support of a sin-gle-failure-proof gantry crane. Each structure is located adjacent to, but separate from, its respective containment building.

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