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| | issue date = 01/25/2006 | | | issue date = 01/25/2006 |
| | title = LRPD-06, Rev. 0, Aging Management Review Summary | | | title = LRPD-06, Rev. 0, Aging Management Review Summary |
| | author name = Jacks J D, Lach D J | | | author name = Jacks J, Lach D |
| | author affiliation = Entergy Nuclear Operations, Inc | | | author affiliation = Entergy Nuclear Operations, Inc |
| | addressee name = | | | addressee name = |
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| =Text= | | =Text= |
| {{#Wiki_filter:Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 2 of 488Aging Management Review Summary REVISION DESCRIPTION SHEET Revision NumberDescriptionPages and/or Sections Revised0Initial Issue Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 3 of 488Aging Management Review Summary TABLE OF C ONTENTS | | {{#Wiki_filter:}} |
| | |
| ==1.0INTRODUCTION==
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| . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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| | |
| ==91.1BACKGROUND==
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| . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 91.2METHOD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 101.3TABLE USAGE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
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| | |
| ==1.4REFERENCES==
| |
| . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 112.0GENERIC INFORMATION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 142.1INTERIM STAFF GUIDANCE (ISG) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 142.2GENERIC SAFETY ISSUES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 152.3COMPONENTS, INTENDED FUNCTIONS, AND ENVIRONMENTS USED IN AMRS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 162.3.1Components and Intended Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 162.3.2Environments. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 182.4CONSUMABLES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 222.4.1Packing, Gaskets, Component Seals, and O-Rings. . . . . . . . . . . . . . . . . . . . . . 222.4.2Structural Sealants. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 222.4.3Oil, Grease, and Filters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 232.4.4System Filters, Fire Extinguishers, Fire Hoses, and Air Packs . . . . . . . . . . . . . 233.0RESULTS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 243.1REACTOR VESSEL, INTERNALS AND REACTOR COOLANT SYSTEM. . . . . . . 253.1.1Introduction. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 253.1.2Results. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 253.1.2.1Materials, Environment, Aging Effects Requiring Management and Aging Management Programs. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 253.1.2.1.1Reactor Vessel. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 253.1.2.1.2Reactor Vessel Internals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 3.1.2.1.3Reactor Coolant Pressure Boundary. . . . . . . . . . . . . . . . . . . . . . . . . . 273.1.2.2Further Evaluation of Aging Management as Recommended by NUREG-1801. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 283.1.2.2.1Cumulative Fatigue Damage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 283.1.2.2.2Loss of Material Due to General, Pitting, and Crevice Corrosion. . . . . 283.1.2.2.3Loss of Fracture Toughness due to Neutron Irradiation Embrittlement. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 293.1.2.2.4Cracking due to Stress Corrosion Cracking (SCC) and Intergranular Stress Corrosion Cracking (IGSCC). . . . . . . . . . . . . . . . 29 Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 4 of 488Aging Management Review Summary3.1.2.2.5Crack Growth due to Cyclic Loading . . . . . . . . . . . . . . . . . . . . . . . . . . 293.1.2.2.6Loss of Fracture Toughness due to Neutron Irradiation Embrittlement and Void Swelling. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 303.1.2.2.7Cracking due to Stress Corrosion Cracking. . . . . . . . . . . . . . . . . . . . . 30 3.1.2.2.8Cracking due to Cyclic Loading . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 303.1.2.2.9Loss of Preload due to Stress Relaxation . . . . . . . . . . . . . . . . . . . . . . 303.1.2.2.10Loss of Material due to Erosion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30 3.1.2.2.11Cracking due to Flow-Induced Vibration . . . . . . . . . . . . . . . . . . . . . . . 303.1.2.2.12Cracking due to Stress Corrosion Cracking and Irradiation-Assisted Stress Corrosion Cracking (IASCC). . . . . . . . . . . . . . . . . . . . . . . . . . . 303.1.2.2.13Cracking due to Primary Water Stress Corrosion Cracking (PWSCC) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 303.1.2.2.14Wall Thinning due to Flow-Accelerated Corrosion. . . . . . . . . . . . . . . . 31 3.1.2.2.15Changes in Dimensions due to Void Swelling . . . . . . . . . . . . . . . . . . . 313.1.2.2.16Cracking due to Stress Corrosion Cracking and Primary Water Stress Corrosion Cracking. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 313.1.2.2.17Cracking due to Stress Corrosion Cracking, Primary Water Stress Corrosion Cracking, and Irradiation-Assisted Stress Corrosion Cracking. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 313.1.2.2.18Quality Assurance for Aging Management of Nonsafety-Related Components. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 313.1.2.3Time-Limited Aging Analyses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 313.1.3Conclusion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 313.2ENGINEERED SAFETY FEATURES SYSTEMS . . . . . . . . . . . . . . . . . . . . . . . . . . 953.2.1Introduction. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 953.2.2Results. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 953.2.2.1Materials, Environment, Aging Effects Requiring Management and Aging Management Programs. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 963.2.2.1.1Residual Heat Removal System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 963.2.2.1.2Core Spray System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 973.2.2.1.3Automatic Depressurization System . . . . . . . . . . . . . . . . . . . . . . . . . . 97 3.2.2.1.4High Pressure Coolant Injection System . . . . . . . . . . . . . . . . . . . . . . . 983.2.2.1.5Reactor Core Isolation Cooling System. . . . . . . . . . . . . . . . . . . . . . . . 993.2.2.1.6Standby Gas Treatment System . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100 3.2.2.1.7Primary Containment Penetrations . . . . . . . . . . . . . . . . . . . . . . . . . . 1013.2.2.2Further Evaluation of Aging Management as Recommended by NUREG-1801. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1013.2.2.2.1Cumulative Fatigue Damage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1013.2.2.2.2Cracking due to Underclad Cracking. . . . . . . . . . . . . . . . . . . . . . . . . 1023.2.2.2.3Loss of Material due to Pitting and Crevice Corrosion. . . . . . . . . . . . 102 Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 5 of 488Aging Management Review Summary3.2.2.2.4Reduction of Heat Transfer due to Fouling . . . . . . . . . . . . . . . . . . . . 1033.2.2.2.5Hardening and Loss of Strength due to Elastomer Degradation . . . . 1033.2.2.2.6Loss of Material due to Erosion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1033.2.2.2.7Loss of Material due to General Corrosion and Fouling. . . . . . . . . . . 1033.2.2.2.8Loss of Material due to General, Pitting, and Crevice Corrosion. . . . 1033.2.2.2.9Loss of Material due to General, Pitting, Crevice, and Microbiologically-Influenced Corrosion (MIC) . . . . . . . . . . . . . . . . . . 1043.2.2.2.10Quality Assurance for Aging Management of Nonsafety-Related Components. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1043.2.2.3Time-Limited Aging Analyses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1043.2.3Conclusion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1053.3AUXILIARY SYSTEMS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1603.3.1Introduction. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1603.3.2Results. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1603.3.2.1Materials, Environment, Aging Effects Requiring Management and Aging Management Programs. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1643.3.2.1.1Standby Liquid Control System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1643.3.2.1.2Service Water Systems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1653.3.2.1.3Reactor Building Closed Cooling Water System . . . . . . . . . . . . . . . . 166 3.3.2.1.4Emergency Diesel Generator System . . . . . . . . . . . . . . . . . . . . . . . . 1673.3.2.1.5Fuel Pool Cooling Systems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1683.3.2.1.6Fuel Oil System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 168 3.3.2.1.7Instrument Air System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1693.3.2.1.8Fire Protection-Water System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1703.3.2.1.9Fire Protection-Carbon Dioxide System . . . . . . . . . . . . . . . . . . . . . 171 3.3.2.1.10Heating, Ventilation and Air Conditioning Systems . . . . . . . . . . . . . . 1713.3.2.1.11Primary Containment Atmosphere Control and Containment Atmosphere Dilution Systems. . . . . . . . . . . . . . . . . . . . 1723.3.2.1.12John Deere Diesel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1733.3.2.1.13Miscellaneous Systems in Scope for 10CFR54.4(a)(2). . . . . . . . . . 1743.3.2.2Further Evaluation of Aging Management as Recommended by NUREG-1801. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1753.3.2.2.1Cumulative Fatigue Damage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1753.3.2.2.2Reduction of Heat Transfer due to Fouling . . . . . . . . . . . . . . . . . . . . 175 3.3.2.2.3Cracking due to Stress Corrosion Cracking (SCC) . . . . . . . . . . . . . . 1763.3.2.2.4Cracking due to Stress Corrosion Cracking and Cyclic Loading . . . . 1763.3.2.2.5Hardening and Loss of Strength due to Elastomer Degradation . . . . 177 3.3.2.2.6Reduction of Neutron-Absorbing Capacity and Loss of Material due to General Corrosion. . . . . . . . . . . . . . . . . . . . . . . . . . . 1773.3.2.2.7Loss of Material due to General, Pitting, and Crevice Corrosion. . . . 177 Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 6 of 488Aging Management Review Summary3.3.2.2.8Loss of Material due to General, Pitting, Crevice, and Microbiologically-Influenced Corrosion (MIC) . . . . . . . . . . . . . . . . . . 1783.3.2.2.9Loss of Material due to General, Pitting, Crevice, Microbiologically-Influenced Corrosion and Fouling. . . . . . . . . . . . . . 1783.3.2.2.10Loss of Material due to Pitting and Crevice Corrosion. . . . . . . . . . . . 1793.3.2.2.11Loss of Material due to Pitting, Crevice and Galvanic Corrosion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1813.3.2.2.12Loss of Material due to Pitting, Crevice, and Microbiologically-Influenced Corrosion . . . . . . . . . . . . . . . . . . . . . . . 1813.3.2.2.13Loss of Material due to Wear. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 181 3.3.2.2.14Cracking due to Underclad Cracking. . . . . . . . . . . . . . . . . . . . . . . . . 1823.3.2.2.15Quality Assurance for Aging Management of Nonsafety-Related Components. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1823.3.2.3Time-Limited Aging Analysis. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1823.3.3Conclusion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1823.4STEAM AND POWER CONVERSION SYSTEMS . . . . . . . . . . . . . . . . . . . . . . . . 3713.4.1Introduction. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3713.4.2Results. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3713.4.2.1Materials, Environment, Aging Effects Requiring Management and Aging Management Programs. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3713.4.2.1.1Main Condenser and MSIV Leakage Pathway . . . . . . . . . . . . . . . . . 3723.4.2.2Further Evaluation of Aging Management as Recommended by NUREG-1801. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3723.4.2.2.1Cumulative Fatigue Damage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3733.4.2.2.2Loss of Material Due to General, Pitting, and Crevice Corrosion. . . . 3733.4.2.2.3Loss of Material due to General, Pitting, Crevice, and Microbiologically-Influenced Corrosion (MIC), and Fouling. . . . . . . . . . . . . . . . . . . . . . 3733.4.2.2.4Reduction of Heat Transfer due to Fouling . . . . . . . . . . . . . . . . . . . . 373 3.4.2.2.5Loss of Material due to General, Pitting, Crevice, and Microbiologically-Influenced Corrosion . . . . . . . . . . . . . . . . . . . . . . . 3743.4.2.2.6Cracking due to Stress Corrosion Cracking (SCC) . . . . . . . . . . . . . . 374 3.4.2.2.7Loss of Material due to Pitting and Crevice Corrosion. . . . . . . . . . . . 3743.4.2.2.8Loss of Material due to Pitting, Crevice, and Microbiologically-Influenced Corrosion . . . . . . . . . . . . . . . . . . . . . . . 3753.4.2.2.9Loss of Material due to General, Pitting, Crevice, and Galvanic Corrosion. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3753.4.2.2.10Quality Assurance for Aging Management of Nonsafety-Related Components. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3753.4.2.3Time-Limited Aging Analysis. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3753.4.3Conclusion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 376 Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 7 of 488Aging Management Review Summary3.5STRUCTURES AND COMPONENT SUPPORTS. . . . . . . . . . . . . . . . . . . . . . . . . 3993.5.1Introduction. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3993.5.2Results. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3993.5.2.1Materials, Environment, Aging Effects Requiring Management and Aging Management Programs. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3993.5.2.1.1Primary Containment. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 399 3.5.2.1.2Reactor Building. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4003.5.2.1.3Intake Structure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4013.5.2.1.4Process Facilities. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 402 3.5.2.1.5Yard Structures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4023.5.2.1.6Bulk Commodities . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4033.5.2.2Further Evaluation of Aging Management as Recommended by NUREG-1801. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4043.5.2.2.1PWR and BWR Containments. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4043.5.2.2.1.1Aging of Inaccessible Concrete Areas . . . . . . . . . . . . . . . . . . . . . . 404 3.5.2.2.1.2Crack and Distortion due to Increased Stress Levels from Settlement; Reduction of Foundation Strength, Cracking and Differential Settlement due to Erosion of Porous Concrete Subfoundations, if Not Covered by Structures Monitoring Program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4053.5.2.2.1.3Reduction of Strength and Modulus of Concrete Structures due to Elevated Temperature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4053.5.2.2.1.4Loss of Material due to General, Pitting and Crevice Corrosion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4053.5.2.2.1.5Loss of Prestress due to Relaxation, Shrinkage, Creep, and Elevated Temperature. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4063.5.2.2.1.6Cumulative Fatigue Damage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4063.5.2.2.1.7Cracking due to Stress Corrosion Cracking (SCC). . . . . . . . . . . . . 406 3.5.2.2.1.8Cracking due to Cyclic Loading . . . . . . . . . . . . . . . . . . . . . . . . . . . 4063.5.2.2.1.9Loss of Material (Scaling, Cracking, and Spalling) due to Freeze-Thaw . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4073.5.2.2.1.10Cracking due to Expansion and Reaction with Aggregate, and Increase in Porosity and Permeability due to Leaching of Calcium Hydroxide . . . . . . . . . . . . . . . . . . . . . . . . . . . 4073.5.2.2.2Safety Related and Other Structures and Component Supports. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4073.5.2.2.2.1Aging of Structures Not Covered by Structures Monitoring Program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4073.5.2.2.2.2Aging Management of Inaccessible Areas. . . . . . . . . . . . . . . . . . . 4093.5.2.2.2.3Reduction of Strength and Modulus of Concrete Structures due to Elevated Temperature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 409 Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 8 of 488Aging Management Review Summary3.5.2.2.2.4Aging Management of Inaccessible Areas for Group 6 Structures. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4103.5.2.2.2.5Cracking due to Stress Corrosion Cracking and Loss of Material due to Pitting and Crevice Corrosion . . . . . . . . . . . . . . . . 4113.5.2.2.2.6Aging of Supports Not Covered by Structures Monitoring Program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4113.5.2.2.2.7Cumulative Fatigue Damage due to Cyclic Loading. . . . . . . . . . . . 411 3.5.2.2.3Quality Assurance for Aging Management of Nonsafety-Related Components. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4113.5.2.3Time-Limited Aging Analyses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4123.5.3Conclusion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4123.6ELECTRICAL AND INSTRUMENTATION AND CONTROLS. . . . . . . . . . . . . . . . 4773.6.1Introduction. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4773.6.2Results. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4773.6.2.1Materials, Environment, Aging Effects Requiring Management, and Aging Management Programs. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4773.6.2.2Further Evaluation of Aging Management as Recommended by NUREG-1801. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4783.6.2.2.1Electrical Equipment Subject to Environmental Qualification. . . . . . . 478 3.6.2.2.2Degradation of Insulator Quality due to Presence of Any Salt Deposits and Surface Contamination, and Loss of Material due to Mechanical Wear. . . . . . . . . . . . . . . . . . . . . . . . . . . . 4783.6.2.2.3Loss of Material due to Wind Induced Abrasion and Fatigue, Loss of Conductor Strength due to Corrosion, and Increased Resistance of Connection due to Oxidation or Loss of Pre-load . . . . 4793.6.2.2.4Quality Assurance for Aging Management of Nonsafety-Related Components. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4803.6.2.3Time-Limited Aging Analysis. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4803.6.3Conclusion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 480 Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 9 of 488Aging Management Review Summary
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| ==1.0INTRODUCTION==
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| The purpose of this report is to provide summary information from the aging management reviews performed for the Vermont Yankee Nuclear Power Station (VYNPS), including comparison of the results with the evaluations documented in NUREG-1801, Generic Aging Lessons Learned (GALL) Report (Reference 2). NUREG-1801, also known as the GALL report, contains the NRC's generic evaluation of existing plant programs and documents the technical basis for determining where existing programs are adequate without modification and where existing programs should be augmented for the extended period of operation. The NRC evaluated the adequacy of programs to manage certain aging effects for particular structures or components. If the programs at the applicant's facility correspond to those reviewed in the GALL report, an applicant may reference NUREG-1801 and no further staff review is required.This report covers Class 1 mechanical, non-Class 1 mechanical, structural, and electrical systems. The subsections in Section 3 of this report are numbered to correspond to the license renewal application (LRA) subsections to facilitate the preparation of Section 3 of the LRA.This report is prepared based on guidance provided in LRPG-10 (Reference 10). For additional information on the license renewal project scope and documentation, refer to the license renewal project plan (Reference 9
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| ).
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| ==1.1BACKGROUND==
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| The purpose of Section 3 of the license renewal application is to present the results of the aging management reviews. The NRC reviews this information to determine if the appropriate aging effects are identified and if the credited aging management program is adequate to manage the aging effects for the period of extended operation. To assist in this review, the NRC published NUREG-1801, Volumes 1 and 2, which documents the NRC's evaluat ions of generic programs. The intent was to generically evaluate the adequacy of common programs to manage the aging effects of specific environments on certain components. Utilities could then refer to the NUREG-1801 evaluation of the program and the NRC would not need to review such programs for each utility.Past methods of conducting and documenting the comparisons to NUREG-1801 varied greatly among applications, causing lack of efficiency in the review which lead to unnecessary requests for additional information. To resolve these difficulties, an industry effort coordinated by the Nuclear Energy Institute (NEI) developed a standardized format to present the information in the LRA, including the comparison to NUREG-1801. This standardized format included tables for Section 3 of the LRA and a set of reference notes, indicated by a letter designation, that are standard throughout the industry. The standardized format is Appendix D in Revision 6 of NEI 95-10 (Reference 4
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| ).The goal is to deliver the appropriate information, presented in the best way possible, to document the results of the aging management reviews and the comparison of those results to the evaluations in NUREG-1801. To achieve this goal, this report uses the standardized format developed by NEI.
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 10 of 488Aging Management Review Summary1.2METHODIn each aging management review report (AMRR), tables provide the results summarized by component type (e.g., Attachment 2 tables in mechanical system AMRRs). The AMRR results have been compared to line items in NUREG-1801 Volume 2 and the comparison documented in the tables in Section 3 of this report. The format of the Section 3 tables follows the standardized format.In NUREG-1801, the component level tables for each system in Volume 2 are summarized by tables in Volume 1. This report is similarly organized. The component level tables for each system present the results of the aging management review and the comparable line item (if any) from NUREG-1801. These tables are referred to as "Table 2" in the following description. There is a Table 2 system table for each AMRR. Those components that re ference a NUREG-1801 line item are cross-referenced to summary tables ("Table 1") that correspond to the summary tables in NUREG-1801 Volume 1.For further details of the method used to compile the AMRS report, see LRPG-10 (Reference 10).1.3TABLE USAGETable 1Information in the following columns is taken directly from NUREG-1801, Volume 1.
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| *Component*Aging Effect/Mechanism
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| *Aging Management Programs
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| *Further Evaluation RecommendedThe Discussion column explains, in summary, how the VYNPS evaluations align with NUREG-1801, Volume 1.Table 2Table 2 contains the aging management review results and indicates whether or not the results correspond to line items in NUREG-1801, Volume 2. This t able provides the following information in the first six columns.
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| *Component type
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| *Component intended function
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| *Material*Environment
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| *Aging effect requiring management
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| *AMP creditedIf there is a correlation between the combination in Table 2 and a combination for a line item in NUREG-1801, Volume 2, this will be identified by the NUREG-1801, Volume 2, item number in Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 11 of 488Aging Management Review Summarycolumn 7. If the column is blank, no appropria tely corresponding comb ination in NUREG-1801, Volume 2, was identified.If a NUREG-1801, Volume 2, line item is identified, the next column provides a reference to a Table 1 row number. This reference corresponds to the NUREG-1801, Volume 2, "roll-up" to the NUREG-1801, Volume 1, tables.The last column contains notes that are used to describe the degree of consistency with the line items in NUREG-1801, Volume 2. Notes that use letter designations are standard notes based on NEI 95-10, Appendix D (Reference 4). Notes that use numeric designators are specific to VYNPS.Many of the NUREG-1801 evaluations refer to plant-specific programs. By NRC request, Note E is used In these cases (consistent but different program credited).
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| ==1.4REFERENCES==
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| 1.U.S. NRC, NUREG-1800, Standard Review Plan for Review of License Renewal Applications for Nuclear Power Plants, September 2005.2.U.S. NRC, NUREG-1801, Generic Aging Lessons Learned (GALL) Report, Volume 1 and Volume 2, September 2005.3.U.S. NRC, NUREG-0933, A Prioritization of Generic Safety Issues, Supplement 28, August 2004.4.Nuclear Energy Institute, NEI 95-10, Industry Guideline for Implementing the Requirements of 10 CFR Part 54 - The License Renewal Rule, Revision 6, June 2005.5.Kuo, P. T. (NRC) to A. Marion (NEI) and D. Lachbaum (UCS), "Status of Interim Staff Guidance Associated with License Renewal," letter dated May 19, 2005.6.Kuo, P. T. (NRC) to A. Marion (NEI) and D. Lachbaum (Union of Concerned Scientists), "Staff Resolution Associated with Interim Staff Guidance ISG-07 Proposed Staff Guidance on the Scoping of Fire Protection Equipment for License Renewal," letter dated June 7, 2005.7.Borchardt, R., to W. Travers, "Closeout of Generic Safety Issue (GSI) 168, 'Environmental Qualification of Low-Voltage Instrumentation and Control Cables,'" memorandum dated August 14, 2003.8.Thadani, A., Director, Office of Nuclear Regulatory Research, to W. Travers, Executive Director of Operations: Closeout of Generic Safety Issue 190, "Fatigue Evaluation of Metal Components for 60 Year Plant Life," NRC memorandum dated December 26, 1999.9.LRPG-01, License Renewal Project Plan, Rev. 0.
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| 10.LRPG-10, License Renewal Application Development, Rev. 0.
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| 11.AMRM-01, Aging Management Review of the Standby Liquid Control System, Rev. 0.
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 12 of 488Aging Management Review Summary12.AMRM-02 Aging Management Review of the Residual Heat Removal System, Rev. 013.AMRM-03, Aging Management Review of the Core Spray System, Rev. 0 14.AMRM-04, Aging Management Review of the Automatic Depressurization System, Rev. 0 15.AMRM-05, Aging Management Review of the High Pressure Coolant Injection System, Rev.016.AMRM-06, Aging Management Review of the Reactor Core Isolation Cooling System, Rev.017.AMRM-07, Aging Management Review of the Standby Gas Treatment System, Rev. 0 18.AMRM-08, Aging Management Review of the Primary Containment Atmosphere Control and Containment Atmosphere Dilution Systems, Rev. 019.AMRM-11, Aging Management Review of the Service Water Systems, Rev. 0 20.AMRM-12, Aging Management Review of the Reactor Building Closed Cooling Water System, Rev. 021.AMRM-13, Aging Management Review of the Emergency Diesel Generator System, Rev. 022.AMRM-14, Aging Management Review of the Fuel Pool Cooling Systems, Rev. 023.AMRM-15, Aging Management Review of the Fuel Oil System, Rev. 0 24.AMRM-16, Aging Management Review of the Instrument Air System, Rev. 0 25.AMRM-17, Aging Management Review of the Fire Protection-Water System, Rev. 0 26.AMRM-18, Aging Management Review of the Fire Protection-CO2 System, Rev. 027.AMRM-19, Aging Management Review of the Heating, Ventilation and Air Conditioning Systems, Rev. 028.AMRM-20, Aging Management Review of the Primary Containment Penetrations, Rev. 029.AMRM-21, Aging Management Review of the John Deere Diesel, Rev. 0 30.AMRM-26, Aging Management Review of the Main Condenser and MSIV Leakage Pathway, Rev. 031.AMRM-30, Aging Management Review of Nonsafety-Related Systems and Components Affecting Safety-Related Systems, Rev. 032.AMRM-31, Aging Management Review of the Reactor Vessel, Rev. 0 33.AMRM-32, Aging Management Review of the Reactor Vessel Internals, Rev. 0 Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 13 of 488Aging Management Review Summary34.AMRM-33, Aging Management Review of the Reactor Coolant System Pressure Boundary, Rev. 035.AMRE-01, Electrical Screening and Aging Management Reviews 36.AMRC-01, Aging Management Review of Primary Containment, Rev. 0 37.AMRC-02 Aging Management Review of the Reactor Building, Rev. 0 38.AMRC-03, Aging Management Review of the Intake Structure, Rev. 0 39.AMRC-04, Aging Management Review of Process Facilities, Rev. 040.AMRC-05, Aging Management Review of Yard Structures, Rev. 0 41.AMRC-06, Aging Management Review of Bulk Commodities, Rev. 0 Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 14 of 488Aging Management Review Summary2.0GENERIC INFORMATIONThis section of the report contains summary information that applies to the scoping process and to the aging management reviews in general. Portions of this information will be included in the license renewal application. Text in green will be hyperlinked to the indicated sections within the application. Section references are to sections in the LRA.2.1INTERIM STAFF GUIDANCE (ISG)
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| As discussed in Reference 4, the NRC has encouraged applicants for license renewal to address proposed ISGs in the LRA. The following list is from Reference 5. The NRC staff has identified these issues for which additional staff and industry guidance clarification may be necessary:ISG-1GALL Report Presenting One Acceptable Way to Manage Aging Effects for License RenewalISG-2Scoping of Equipment Relied On to Meet the Requirements of the Station Blackout (SBO) Rule for License RenewalISG-3Aging Management Program of Concrete ISG-4Aging Management of Fire Protection System for License RenewalISG-5Identification and Treatment of Electrical Fuse Holders for License RenewalISG-6Identification and Treatment of Housings for Active Components for License RenewalISG-7Scoping Guidance for Fire Protection Equipment for License RenewalISG-8Updating the Improved License Renewal Guidance Documents - ISG ProcessISG-9Identification and Treatment of Structures, Systems and Components Which Meet 10 CFR 54.4(a)(2)ISG-10Standardized Format for License Renewal Applications ISG-11Aging Management of Environmental Fatigue for Carbon/Low-Alloy SteelISG-12Operating Experience with Cracking of Class 1 Small-Bore PipingISG-13Management of Loss of Preload on Reactor Vessel Internals Bolting Using the Loose Parts Monitoring SystemISG-14Operating Experience with Cracking in BoltingISG-15Revision to Generic Aging Lessons Learned Aging Management Program (AMP) XI.E2ISG-16Time-Limited Aging Analyses Supporting Information for License Renewal ApplicationsISG-17Bus Ducts (Iso-phase and Non-segregated) for Electrical Bus BarISG-18Revision to GALL AMP XI.E3 for Inaccessible Cable (Medium Voltage)
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| ISG-19AProposed Aging Management Program XI.M11-A, "Nickel-alloy Penetration Nozzles Welded to the Upper Reactor Vessel Closure Heads of Pressurized Water Reactors (PWRs Only)," for License RenewalISG-19BProposed Aging Management Program XI.M11-B, "Nickel-alloy Base-metal Components and Welds in the Reactor Coolant Pressure Boundary," for License RenewalISG-20Steam Generator Tube IntegrityISG-21Reactor Vessel InternalsISG-22Lower Plenum Components ISG-23Replacement Parts Necessary to Meet 10 CFR 50.48 (Fire Protection)ISGs 1-6, 13-18, 20, and 21 were incorporated into revised NRC license renewal guidance documents and therefore do not need to be addressed here.
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 15 of 488Aging Management Review Summary NRC considers ISG-7 withdrawn and closed (Reference 6). The jockey pump casing has been added to the revised license renewal guidance documents. No other guidance is needed.
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| NRC considers ISG-8 and ISG-10 completed and closed. These ISGs are process related documents and were not included in NRC license renewal guidance documents. The standardized format for LRAs is included in the revision to NEI 95-10.NRC considers ISG-11 closed. The staff concluded there was insuffic ient technical basis provided to justify the elimination of the fatigue evaluation of carbon and low alloy steel components for the effects of the reactor coolant environment. Aging management of environmental fatigue for carbon/low-alloy steel items is discussed in Section4.3.3.1
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| .NRC considers ISG-12 withdrawn and closed. NUREG-1801 Section XI.M35, "One-Time Inspection of ASME Code Class 1 Small-Bore Piping," includes the staff's established position and has been added to the revised license renewal guidance documents.
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| NRC considers ISG-19A withdrawn and closed.
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| Proposed aging management program XI.M11-A has been incorporated into the revised license renewal guidance documents.ISG-19B is only applicable to PWRs.
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| ISG-22 is closed. The staff concluded that NUREG-1801 adequately addresses the issue and no ISG is needed.The remaining ISGs are discussed below.ISG-9Identification and Treatment of Structures, Systems and Components Which Meet 10 CFR 54(a)(2)10 CFR 54.4(a)(2) states that SSCs within the scope of license renewal shall include nonsafety-related SSCs whose failure could prevent the satisfactory accomplishment of any of the functions identified for safety-related SSCs.The process used to identify the in-scope nonsafety-related SSCs under 10CFR 54.4(a)(2), discussed in Section 2.1.1.2, is consistent with the guidance provided in NEI95-10 Appendix F (Reference 4
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| ), which has been endor sed by the NRC in RG1.188.ISG-23Replacement Parts Necessary to Meet 10 CFR 50.48 (Fire Protection)A review for replacement parts necessary to meet 10CFR50.48 identified a spare cable in the reactor building that is used to repower the inboard shutdown cooling isolation valve for control room cable vault fires. This cable is an installed spare that is included in the aging management review of insulated cables and connections. 2.2GENERIC SAFETY ISSUESIn accordance with the guidance in NEI 95-10, review of NRC generic safety issues as part of the license renewal process is required to satisfy the finding required by 10CFR54.29. GSIs that involve an issue applicable to VYNPS related to the license renewal aging management review Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 16 of 488Aging Management Review Summaryor time-limited aging analysis evaluations are to be addressed in the LRA. Based on NUREG-0933, A Prioritization of Generic Safety Issues (Supplement 28), Entergy Operations has identified the following GSIs to be addressed in the application.GSI-168, Environmental Qualification of Electrical Equipment This issue was resolved with no new requirements for licensees (Reference 7). The staff concluded that the existing equipment qualification process was adequate to ensure that I&C cables would perform their intended function. Environmental qualification evaluations of electrical equipment are identified as time-limited aging analyses for VYNPS and addressed in Section 4.4
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| .GSI-190, Fatigue Evaluation of Metal Components for 60-Year Plant LifeThis GSI addresses fatigue life of metal components and was closed by the NRC (Reference 8). In the closure letter, however, the NRC concluded that licensees should address the effects of reactor coolant environment on component fatigue life as aging management programs are formulated in support of license renewal. Accordingly, the issue of environmental effects on component fatigue life is addressed in Section 4.3.3.1
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| .Based on the above, the GSI review determined that the issues involving either aging effects for SCs subject to an aging management review or TLAAs are already being evaluated for license renewal.2.3COMPONENTS, INTENDED FUNCTIONS, AND ENVIRONMENTS USED IN AMRS 2.3.1Components and Intended FunctionsThe term "piping" in component lists may include pipe, pipe fittings (such as elbows and reducers), flow elements, orifices, and thermowells. If such components have unique tag numbers or the specific component has a function other than pressure boundary, then flow elements, orifices and thermowells are identified as a separate component type.The term "heat exchanger (shell)" may include the bonnet/channel head and tubesheet. In cases where the bonnet/channel head and tubesheet provide a unique material and environment combination, they will be uniquely identified as a separate component type.The general component type of "tank" includes components identified as tanks or accumulators on LRA drawings.Table 2.3-1 gives the expanded definitions of intended functions used in this application for structures and components. The tables in the application may refer to either the intended function name or to the abbreviation. Table 2.3-1 will be Table 2.0-1 in the LRA.
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 17 of 488Aging Management Review SummaryTable 2.3-1Intended Functions: Abbreviations and DefinitionsAbbreviationIntended FunctionDefinitionCEConducts electricityProvide electrical connections to specif ied sections of an electrical circuit to deliver voltage, current or signals.ENShelter or protectionProvide shelter or protection to safety-related equipment (including radiation shielding and pipe whip restraint).FBFire barrierProvide rated fire barrier to confine or retard a fire from spreading to or from adjacent areas of the plant.FCFlow controlProvide flow control.FDFlow distributionProvide for flow distribution or establish spray pattern.FLBFlood barrierProvide protective barrier for internal/external flood events.FLTFiltrationProvide filtration.FLVFloodable volumeMaintain the boundary of a volume in which the core can be flooded and adequately cooled in the event of a breach in the nuclear system process barrier external to the reactor vessel.HELBHELB shieldingProvide shielding against high energy line breaks (HELB).HSHeat sinkProvide heat sink during station blackout or design basis accidents.HTHeat transferProvide heat transfer.
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| INInsulation (electrical)Insulate and support an electrical conductor.INSInsulationProvide insulating characteristics to reduce heat transferMBMissile barrierProvide missile (internal or external) barrier.NANeutron absorptionAbsorb neutrons.
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| PBPressure boundaryProvide pressure boundary. For component types included under 10 CFR 54.4(a)(2), the intended function of pressure boundary may include providing structural/seismic support for components outside the safety class pressure boundary.PLT PlateoutProvide holdup and plateout of fission productsSNSSupport for Criterion (a)(2) equipmentProvide structural or functional support to nonsafety-related equipment whose failure could impact safety-related equipment (10 CFR 54.4(a)(2)).
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 18 of 488Aging Management Review SummaryMechanical System DrawingsLicense renewal drawings were prepared to indicate portions of systems that support system intended functions within the scope of license renewal (with the exception of those systems in scope for 10 CFR 54.4(a)(2) for physical interactions, as discussed below). In addition, the drawings identify components that are subject to aging management review. Boundary flags are used in conjunction with safety-to-nonsafety class breaks to identify the system intended function boundaries. Boundary flags are noted on the drawings as system intended function boundaries. Components within these boundary flags and class breaks support system intended functions within the scope of license renewal. Components subject to aging management review (i.e., passive, long-lived components that support system intended functions) are highlighted using color coding to indicate which system aging management review evaluated the components. Drawings that contain only highlighting (no boundary flags) indicate that all components on the drawing support system intended functions unless excluded by safety-to-nonsafety class breaks.Flexible elastomer hoses/expansion joints that are periodically replaced (not long-lived) and therefore not subject to aging management review are indicated as such on the drawings. Safety-related instrument air solenoid valves that open to relieve pressure and fail to a safe position upon loss of pressure boundary do not require aging management review but do support a system intended function. To improve the legibility of the drawings, these components are not marked individually on the drawing using boundary flags.Components that are subject to aging management review based only on the criterion of 10CFR 54.4(a)(2) for physical interactions are not indicated on license renewal drawings. The determination of whether a component meets this criterion is based on where it is located in a building and its proximity to safety-related equipment or where a structural/seismic boundary exists. This information is not provided on flow diagrams and as a result, highlighting the drawings would not provide useful information in determining if components are required to be included for 10CFR 54.4(a)(2) and subject to aging management review.2.3.2EnvironmentsSection 3.0 of the standard license renewal application (see Appendix D of Reference 4) has tables which describe the service environments used in the aging management reviews. The SRESupport for Criterion (a)(3) equipmentProvide structural or functional support to equipment required to meet the Commission's regulations for the five regulated events in 10 CFR 54.4(a)(3).SSRSupport for Criterion (a)(1) equipmentProvide structural or functional support for safety-related equipment.STRStructural integrityMaintain structural integrity such that loose parts are not introduced into the system.Table 2.3-1Intended Functions: Abbreviations and Definitions (Continued)AbbreviationIntended FunctionDefinition Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 19 of 488Aging Management Review Summaryenvironments may be internal and external surfaces. Many of the environments are self-explanatory, but additional descriptions have been provided as necessary.
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| The following tables will be inserted in Section 3.0 of the LRA..Table 2.3-2Service Environments for Mechanical Aging Management ReviewsEnvironmentDescription Class 1 Mechanical EnvironmentsAir-indoorIndoor air. Although inerted with nitrogen, primary containment air is conservatively considered equivalent to reactor building ambient air and both are referred to as air-indoor.Neutron fluenceNeutron flux integrated over time. Neutron fluence is specified as an environment for the limiting reactor vessel components with material properties that may be significantly affected by neutron irradiation. NitrogenNitrogen gas used in scram accumulatorsTreated waterTreated or demineralized water Treated water > 220°FTreated or demineralized water above thermal fatigue threshold for carbon steel. Steam is considered treated water.Treated water > 270°FTreated or demineralized water above thermal fatigue threshold for stainless steel. Steam is considered treated water.Treated water > 482°FTreated or demineralized water above thermal embrittlement threshold for CASS. Steam is considered treated water.Non-Class 1 Mechanical EnvironmentsAir-indoorIndoor air on systems with temperatures above the dewpoint. Although inerted with nitrogen, primary containment air is conservatively considered as air-indoor.Air-outdoorExposed to air and local weather conditionsAir-treatedAir that is dried and filtered but is subject to condensation unless monitored by the instrument air quality programAir-untreated Compressed air with moisture, etc.ConcreteComponents embedded in concreteCondensationAir and condensation on surfaces of indoor systems with temperatures below the dewpoint. For exterior surfaces, condensation is considered untreated water due to potential for surface contamination.Exhaust gasGas present in a diesel engine exhaust Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 20 of 488Aging Management Review SummaryFire protection foamFluoroprotein foam concentrate stored as a liquid for combination with water for fire suppressionFreonFreon gas used in HVAC equipment (contr ol room chiller)Fuel oilFuel oil such as used for combustion engines, boilers, etc.GasInert gas such as carbon dioxide, Freon, Halon, nitrogen, etc.
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| Interstitial fluidNon-toxic brine solution (fuel oil tank for John Deere diesel)Lube oilLubricating oil for plant equipmentNitrogenNitrogen gas Raw waterRaw, untreated fresh or salt waterSand and concreteSand and concrete base for tanksSiliconeSilicone (torus wide range level transmitter remote diaphragm seals)Sodium pentaborate solutionSodium pentaborate solution (SLC system)SoilExternal environment for components buried in the soil, including groundwater in the soilSteam > 220°FSteam above the thermal fatigue threshold for carbon steel Steam > 270°FSteam above the thermal fatigue threshold for stainless steel Treated waterTreated or demineralized water 1Treated water > 140°FTreated water above SCC threshold for stainless steelTreated water > 220°FTreated water above thermal fatigue threshold for carbon steelTreated water > 270°FTreated water above thermal fatigue threshold for stainless steel Treated water > 482°FTreated water above thermal embrittlement threshold for CASSUntreated waterWater that may contain contaminants, including oil or boric acid, depending on the location; includes originally treated water that is not monitored by a chemistry programTable 2.3-2Service Environments for Mechanical Aging Management Reviews (Continued)EnvironmentDescription Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 21 of 488Aging Management Review SummaryTable 2.3-3Service Environments for Structural Aging Management Reviews1.For the aging management review process, and the Table 2 presentation of review results, "treated water" encompasses a range of water "types," all of which were chemically treated or demineralized. These water types include treated water, reactor coolant and closed cycle cooling water as defined in NUREG-1801. In the Table 2 results, the type of water can be normally be inferred from the context of the result (e.g., if water chemistry control - closed cooling water is the aging management program, then the treated water is equivalent to closed cycle cooling water as defined by NUREG-1801). Where such an inference is not clear, a plant specific note identifies the water type. For the comparison of the aging management review results with those of NUREG-1801, as presented in the last three Table 2 columns, and for the summary of results discussed in Table 1, the NUREG-1801 definitions of water types were used. In other words, the "treated water" listed in the results was compared to the corresponding water type of NUREG-1801. The discussions in Table 1, and in the text sections referenced in Table 1 for further evaluation, use the water types defined by NUREG-1801. In these discussions, "treated water" refers only to water controlled by the water chemistry control - BWR program.EnvironmentDescriptionProtected from weatherAir with temperature less than 150°F, humidity up to 100% and protected from precipitationExposed to weather (includes above grade and below grade)Exposed to the weather with air temperature less than 115°F, humidity up to 100%Exposed to fluid environmentFluid environment at VYNPS is defined as raw water or treated water.
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 22 of 488Aging Management Review Summary2.4CONSUMABLESThe following discussion will become Section 2.1.2.4 of the LRA.Consumables include such short-lived items as packing, gaskets, component seals, O-rings, structural sealants, oil, grease, component filters, system filters, fire extinguishers, fire hoses, and air packs. Items potentially treatable as consumables have been evaluated consistently with the information presented in T able 2.1-3 of NUREG-1800. Consumables have been divided into the following four categories for the purpose of license renewal: (a) packing, gaskets, component seals, and O-rings; (b) structural sealants; (c) oil, grease, and component filters; and (d) system filters, fire extinguishers, fire hoses, and air packs.2.4.1Packing, Gaskets, Component Seals, and O-RingsPacking, gaskets, component mechanical seals, and O-rings are typically used to provide a leak-proof seal when components are mechanically joined together. These items are commonly found in components such as valves, pumps, heat exchangers, ventilation units or ducts, and piping segments.
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| Based on ANSI B31.1 and the ASME B&PV Code Section III, the subcomponents of pressure retaining components as shown above are not pressure-retaining parts. Therefore, these subcomponents are not relied on to form a pressure-retaining function and are not subject to aging management review.2.4.2Structural SealantsElastomers and other materials used as structural sealants are subject to aging management review if they are not periodically replaced and they perform an intended function, typically supporting a pressure boundary, flood barrier, or rated fire barrier.Seals and sealants, including pressure boundary sealants, compressible joints and seals, seismic joint filler, and waterproofing membranes are included in the aging management review of bulk commodities [LRA] (Section 2.4.6).Table 2.3-4Service Environments for Electrical Aging Management ReviewsEnvironmentDescriptionHeat and airIndoor air at normal operating temperature.Radiation and airNormal plant operating radiation levels.
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| Moisture and voltage stressA wetted environment with applied voltage > 2kV. Applies to underground medium-voltage cables energized at least 25% of the
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| time.Outdoor weatherAmbient outdoor conditions including precipitation.
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 23 of 488Aging Management Review Summary2.4.3Oil, Grease, and FiltersOil, grease, and component filters have been treated as consumables because either (1) they are periodically replaced or (2) they are monitored and replaced based on condition.2.4.4System Filters, Fire Extinguishers, Fire Hoses, and Air PacksComponents such as system filters, fire hoses, fire extinguishers, self-contained breathing apparatus (SCBA), and SCBA cylinders are considered to be consumables and are routinely tested, inspected, or replaced. Fire protection at VYNPS complies with the applicable safety standards (NFPA-10 for fire extinguishers; NFPA-1962 for fire hoses; 29 CFR 19.10, 29 CFR 19.26, 42 CFR 84, NUREG/CR-0041, and ANSI-Z88.2 for air packs), which specify performance and condition monitoring programs for these specific components. Fire hoses and fire extinguishers are inspected and hydrostatically tested periodically and must be replaced if they do not pass the test or inspection. SCBA and SCBA cylinders are inspected and periodically tested and must be replaced if they do not pass the test or inspection. Fire protection procedures specify the replacement criterion of these components that are routinely checked by tests or inspections to assure operability. Therefore, while these consumables are in the scope of license renewal, they do not require an AMR.
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 24 of 488Aging Management Review Summary3.0RESULTSThis section presents the summary information for each sy stem group in NUREG-1801. References in this section to Section 2 or Section 4 or appendices are referring to the corresponding item in the LRA. Hyperlinks to program descriptions are mentioned in this document to facilitate its conversion to the LRA, but the hyperlinks are not available in the AMRS. Hyperlinks indicated by a green font are non-working links in the AMRS that will be used in the LRA.
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 25 of 488Aging Management Review Summary3.1REACTOR VESSEL, INTERNALS AND REACTOR COOLANT SYSTEM3.1.1IntroductionThis section provides the results of the aging management reviews for components in the reactor vessel, internals and reactor coolant system that are subject to aging management review. The following component groups are addressed in this section (component group descriptions are available in the referenced [LRA] sections).
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| *reactor vessel (Section 2.3.1.1)
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| *reactor vessel internals (Section 2.3.1.2)
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| *reactor coolant pressure boundary (Section 2.3.1.3)Table 3.1.1, Summary of Aging Management Programs for the Reactor Coolant System in Chapter IV of NUREG-1801, provides the summary of the programs evaluated in NUREG-1801 for the reactor coolant system (RCS) component groups. This table uses the format described in the introduction to Section 3. Hyperlinks are provided to the program evaluations in Appendix B.3.1.2ResultsThe following tables summarize the results of aging management reviews and the NUREG-1801 comparison for the reactor vessel, internals and reactor coolant system components.
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| *Table 3.1.2-1Reactor Vessel-Summary of Aging Management Evaluation
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| *Table 3.1.2-2Reactor Vessel Internals-Summary of Aging Management Evaluation
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| *Table 3.1.2-3Reactor Coolant Pressure Boundary-Summary of Aging Management Evaluation3.1.2.1Materials, Environment, Aging Effects Requiring Management and Aging Management ProgramsThe following sections list the materials, environments, aging effects requiring management, and aging management programs for the reactor coolant system components. Programs are described in Appendix B. Further details are provided in Tables 3.1.2-1 through 3.1.2-3.3.1.2.1.1Reactor Vessel Materials Reactor vessel components are constructed of the following materials.
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| *carbon steel
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| *low alloy steel
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| *low alloy steel with partial (SS) cladding
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| *low alloy steel with stainless steel (SS) cladding
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| *nickel-based alloy
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| *stainless steel Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 26 of 488Aging Management Review SummaryEnvironmentReactor vessel components are exposed to the following environments.
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| *air-indoor
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| *neutron fluence
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| *treated water > 220ºF
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| *treated water > 270ºFAging Effects Requiring ManagementThe following aging effects associated with the reactor vessel components require management.
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| *cracking*cracking-fatigue
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| *loss of material
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| *reduction of fracture toughnessAging Management ProgramsThe following programs manage the effects of aging on reactor vessel components.
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| *BWR CRD return line nozzle
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| *BWR feedwater nozzle
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| *BWR penetrations
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| *BWR stress corrosion cracking
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| *BWR vessel ID attachment welds
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| *BWR vessel internals
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| *inservice inspection
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| *reactor head closure studs
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| *reactor vessel surveillance
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| *water chemistry control-BWR3.1.2.1.2Reactor Vessel Internals MaterialsReactor vessel internals components are constructed of the following materials.
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| *cast austenitic stainless steel (CASS)
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| *nickel-based alloy
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| *stainless steelEnvironmentReactor vessel internals components are exposed to the following environments.
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| *air-indoor
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| *neutron fluence
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| *treated water > 270ºF
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| *treated water > 482ºF Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 27 of 488Aging Management Review SummaryAging Effects Requiring ManagementThe following aging effects associated with the reactor vessel internals components require management.
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| *cracking*cracking-fatigue
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| *cracking-flow induced vibration (FIV)
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| *loss of material
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| *loss of preload
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| *reduction of fracture toughnessAging Management ProgramsThe following programs manage the effects of aging on reactor vessel internals components.
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| *BWR vessel internals
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| *thermal aging embrittlement of CASS
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| *water chemistry control-BWR3.1.2.1.3Reactor Coolant Pressure Boundary MaterialsReactor coolant pressure boundary components are constructed of the following materials.
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| *carbon steel
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| *CASS*low alloy steel
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| *stainless steelEnvironmentReactor coolant pressure boundary components are exposed to the following environments.
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| *air-indoor
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| *nitrogen*treated water
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| *treated water > 220ºF
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| *treated water > 270ºF
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| *treated water > 482ºFAging Effects Requiring ManagementThe following aging effects associated with the reactor coolant pressure boundary components require management.
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| *cracking*cracking-fatigue Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 28 of 488Aging Management Review Summary
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| *loss of material
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| *loss of preload
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| *reduction of fracture toughnessAging Management ProgramsThe following programs manage the effects of aging on reactor coolant pressure boundary components.
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| *BWR stress corrosion cracking
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| *flow-accelerated corrosion
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| *inservice inspection
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| *one-time inspection
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| *system walkdowns
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| *water chemistry control-BWR
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| *water chemistry control-closed cooling water3.1.2.2Further Evaluation of Agi ng Management as Recommended by NUREG-1801NUREG-1801 indicates that further evaluation is necessary for certain aging effects and other issues. Section 3.1.2.2 of NUREG-1800 discusses these aging effects th at require further evaluation. The following sections are numbered in accordance with the discussions in NUREG-1800 and explain the VYNPS approach to these areas requiring further evaluation. Programs are described in Appendix B
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| .3.1.2.2.1Cumulative Fatigue DamageFatigue is a TLAA as defined in 10 CFR 54.3. TLAAs are evaluated in accordance with 10CFR 54.21(c). The evaluation of fatigue for the reactor vessel and the reactor internals is discussed in Sections 4.3.1.1 and 4.3.1.2, respectively. The evaluation of fatigue as a TLAA for the Class 1 portions of the reactor coolant boundary piping and components, including those for interconnecting systems, is discussed in Section 4.3.1.3.3.1.2.2.2Loss of Material Due to General, Pitting, and Crevice Corrosion1.Loss of material due to general, pitting, and crevice corrosion in steel components of the reactor pressure vessel exposed to reactor coolant is managed at VYNPS by the water chemistry control-BWR program. The effectiveness of the water chemistry control-BWR program will be confirmed by the one-time inspection program through an inspection of a representative sample of components crediting this program including areas of stagnant flow. The inservice inspection program supplements the water chemistry control - BWR program for these components.2.This paragraph in NUREG-1800 pertains to BWR isolation condenser components. VYNPS does not have an isolation condenser, however, loss of material due to general, pitting, and crevice corrosion in other steel components within the reactor coolant pressure boundary exposed to reactor coolant is managed by the water chemistry control-BWR program. The effectiveness of the Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 29 of 488Aging Management Review Summarywater chemistry control-BWR program will be confirmed by the one-time inspection program through an inspection of a representative sample of components crediting this program including areas of stagnant flow. For some components, the inservice inspection program supplements the water chemistry control - BWR program.3.Loss of material due to general, pitting, and crevice corrosion in stainless steel, nickel-alloy and steel with stainless steel cladding components of the reactor pressure vessel, and loss of material in stainless steel (including CASS) components of the reactor coolant pressure boundary exposed to reactor coolant is managed at VYNPS by the water chemistry control-BWR program. The effectiveness of the water chemistry control-BWR program will be confirmed by the one-time inspection program through an inspection of a representative sample of components crediting this program including areas of stagnant flow. The one-time inspection program is also used to manage loss of material for the main steam flow restrictors by means of a component specific inspection. For some components, the inservice inspection or BWR vessel internals program supplements the water chemistry control - BWR program.4.This paragraph in NUREG-1800 applies to PWRs only.3.1.2.2.3Loss of Fracture Toughness due to Neutron Irradiation Embrittlement1.Neutron irradiation embrittlement is a TLAA evaluated for the period of extended operation in accordance with 10 CFR 54.21(c). The evaluation of loss of fracture toughness for the reactor vessel beltline shell, and welds is discussed in Section 4.2.2.The reactor vessel surveillance program manages reduction of fracture toughness due to neutron embrittlement of reactor vessel beltline materials. VYNPS is a participant in the Boiling Water Reactor Vessel and Internals Project (BWRVIP) Integrated Surveillance Program (ISP) (see reactor vessel surveillance program in Appendix B). This program monitors changes in the fracture toughness properties of ferritic materials in the reactor pressure vessel (RPV) beltline region.3.1.2.2.4Cracking due to Stress Corrosion Cracking (SCC) and Intergranular Stress Corrosion Cracking (IGSCC)1)The water chemistry control - BWR and one-time inspection programs will manage cracking due to SCC and IGSCC in the stainless steel head seal leak detection lines. The one-time inspection program will include a volumetric examination for the detection of cracking.2)This paragraph in NUREG-1800 pertains to BWR isolation condenser components. VYNPS does not have an isolation condenser.3.1.2.2.5Crack Growth due to Cyclic LoadingThis paragraph in NUREG-1800 applies to PWRs only.
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 30 of 488Aging Management Review Summary3.1.2.2.6Loss of Fracture Toughness due to Neutron Irradiation Embrittlement and Void Swellin gThis paragraph in NUREG-1800 applies to PWRs only.3.1.2.2.7Cracking due to Stress Corrosion CrackingBoth paragraphs in NUREG-1800 apply to PWRs only.3.1.2.2.8Cracking due to Cyclic Loading1.This paragraph in NUREG-1800 pertains to the jet pump sensing lines inside the reactor vessel. At VYNPS, these lines have no license renewal intended function and thus are not subject to aging management review. The lines inside the vessel do not form part of the RCS pressure boundary and their failure would not affect the performance of any functions in the scope of license renewal. However, the lines outside the vessel are part of the RCS pressure boundary and are subject to aging management review.2.This paragraph in NUREG-1800 pertains to BWR isolation condenser components. VYNPS does not have an isolation condenser.3.1.2.2.9Loss of Preload due to Stress RelaxationThis paragraph in NUREG-1800 applies to PWRs only.3.1.2.2.10Loss of Material due to ErosionThis paragraph in NUREG-1800 applies to PWRs only.3.1.2.2.11Cracking due to Flow-Induced VibrationCracking due to flow-induced vibration in the stainless steel steam dryers is managed by the BWR vessel internals program. The BWR vessel internals program currently incorporates the guidance of GE-SIL-644, Revision 1. VYNPS will evaluate BWRVIP-139 once it is approved by the staff and either include its recommendations in the VYNPS BWR vessel internals program or inform the staff of VYNPS's exceptions to that document.3.1.2.2.12Cracking due to Stress Corrosion Cracking and Irradiation-Assisted Stress Corrosion Cracking (IASCC)This paragraph in NUREG-1800 applies to PWRs only.3.1.2.2.13Cracking due to Primary Water Stress Corrosion Cracking (PWSCC)This paragraph in NUREG-1800 applies to PWRs only.
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 31 of 488Aging Management Review Summary3.1.2.2.14Wall Thinning due to Flow-Accelerated CorrosionThis paragraph in NUREG-1800 applies to PWRs only.3.1.2.2.15Changes in Dimensions due to Void SwellingThis paragraph in NUREG-1800 applies to PWRs only.3.1.2.2.16Cracking due to Stress Corrosion Cracking and Primary Water Stress Corrosion CrackingBoth paragraphs in NUREG-1800 apply to PWRs only.3.1.2.2.17Cracking due to Stress Corrosion Cracking, Primary Water Stress Corrosion Cracking, and Irradiation-Assisted Stress Corrosion CrackingThis paragraph in NUREG-1800 applies to PWRs only.3.1.2.2.18Quality Assurance for Aging Management of Nonsafety-Related ComponentsSee Appendix B Section B.0.3 for discussion of VYNPS quality assurance procedures and administrative controls for aging management programs.3.1.2.3Time-Limited Aging AnalysesTLAA identified for the reactor coolant system include reactor vessel neutron embrittlement, metal fatigue, and loss of preload. These topics are addressed in Section 4.3.1.3ConclusionThe reactor vessel, internals and reactor coolant system components that are subject to aging management review have been identified in accordance with the requirements of 10CFR54.21. The aging management programs selected to manage aging effects for the reactor vessel, internals and reactor coolant system components are identified in Section 3.1.2.1 and in the following tables
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| . A description of these aging management programs is provided in Appendix B , along with the demonstration that the identified aging effects will be managed for the period of extended operation.Therefore, based on the demonstrations provided in Appendix B, the effects of aging associated with the reactor coolant system components will be managed such that there is reasonable assurance that the intended functions will be maintained consistent with the current licensing basis during the period of extended operation.
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| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 32 of 488 Table 3.1.1 Summary of Aging Management Programs for the Reactor Coolant System Evaluated in Chapter IV of NUREG-1801 Table 3.1.1: Reactor Coolant System, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
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| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.1.1-1 Steel pressure vessel support skirt and attachment welds Cumulative fatigue damage TLAA, evaluated in accordance with 10
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| CFR 54.21(c) Yes, TLAA Fatigue is a TLAA.
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| See Section 3.1.2.2.1 3.1.1-2 Steel; stainless steel; steel with nickel-alloy or stainless
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| steel cladding; nickel-alloy
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| reactor vessel components:
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| flanges; nozzles; penetrations;
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| safe ends; thermal sleeves;
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| vessel shells, heads and
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| welds Cumulative fatigue damage TLAA, evaluated in accordance with 10
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| CFR 54.21(c) and
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| environmental effects
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| are to be addressed for Class 1
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| components Yes, TLAA Fatigue is a TLAA.
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| See Section 3.1.2.2.1 3.1.1-3 Steel; stainless steel; steel with nickel-alloy or stainless
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| steel cladding; nickel-
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| alloy reactor coolant pressure
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| boundary piping, piping
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| components, and piping
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| elements exposed to reactor
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| coolant Cumulative fatigue damage TLAA, evaluated in accordance with 10
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| CFR 54.21(c) and
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| environmental effects
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| are to be addressed for Class 1
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| components Yes, TLAA Fatigue is a TLAA.
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| See Section 3.1.2.2.1 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 33 of 488 Table 3.1.1: Reactor Coolant System, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
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| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.1.1-4 Steel pump and valve closure bolting Cumulative fatigue damage TLAA, evaluated in accordance with 10
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| CFR 54.21(c) check
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| Code limits for
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| allowable cycles (less
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| than 7000 cycles) of
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| thermal stress range Yes, TLAA Fatigue is a TLAA.
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| See Section 3.1.2.2.1 3.1.1-5 Stainless steel and nickel alloy reactor vessel internals
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| components Cumulative fatigue damage TLAA, evaluated in accordance with 10
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| CFR 54.21(c) Yes, TLAA Fatigue is a TLAA.
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| See Section 3.1.2.2.1 3.1.1-6 PWR only 3.1.1-7 PWR only 3.1.1-8 PWR only 3.1.1-9 PWR only 3.1.1-10 PWR only VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 34 of 488 Table 3.1.1: Reactor Coolant System, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
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| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.1.1-11 Steel top head enclosure (without cladding) top head
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| nozzles (vent, top head spray
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| or RCIC, and spare) exposed
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| to reactor coolant Loss of material due to general, pitting and crevice
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| corrosion Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
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| be evaluated Consistent with NUREG-1801.
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| The water chemistry control -
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| BWR program, augmented by the one-time inspection program to verify program effectiveness, will
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| be used to manage loss of
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| material in carbon steel
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| components of the reactor vessel.
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| The inservice inspection program supplements the water chemistry
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| control - BWR program for these
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| components.
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| See Section 3.1.2.2.2.1 3.1.1-12 PWR only VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 35 of 488 Table 3.1.1: Reactor Coolant System, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
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| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.1.1-13 Steel and stainless steel isolation condenser
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| components exposed to
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| reactor coolant Loss of material due to general (steel only), pitting
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| and crevice
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| corrosion Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
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| be evaluated Consistent with NUREG-1801.
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| Although VYNPS has no isolation
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| condenser, loss of material in
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| other steel components within the
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| reactor coolant pressure boundary
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| is managed by the water chemistry control - BWR program, augmented by the one-time inspection program to verify program effectiveness. For some
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| components, the inservice inspection program supplements the water chemistry control - BWR
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| program.
| |
| | |
| See Section 3.1.2.2.2.2 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 36 of 488 Table 3.1.1: Reactor Coolant System, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.1.1-14 Stainless steel, nickel-alloy, and steel with nickel-alloy or
| |
| | |
| stainless steel cladding
| |
| | |
| reactor vessel flanges, nozzles, penetrations, safe
| |
| | |
| ends, vessel shells, heads
| |
| | |
| and welds Loss of material due to pitting and
| |
| | |
| crevice corrosion Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Consistent with NUREG-1801.
| |
| Loss of material in stainless steel, nickel-alloy and steel with
| |
| | |
| stainless steel cladding
| |
| | |
| components of the reactor vessel
| |
| | |
| is managed by the water chemistry control - BWR program, augmented by the one-time inspection program to verify program effectiveness. For some
| |
| | |
| components, the inservice inspection or BWR vessel internals program supplements the water
| |
| | |
| chemistry control - BWR program.
| |
| | |
| See Section 3.1.2.2.2.3 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 37 of 488 Table 3.1.1: Reactor Coolant System, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.1.1-15 Stainless steel; steel with nickel-alloy or stainless steel
| |
| | |
| cladding; and nickel-alloy
| |
| | |
| reactor coolant pressure
| |
| | |
| boundary components
| |
| | |
| exposed to reactor coolant Loss of material due to pitting and
| |
| | |
| crevice corrosion Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Consistent with NUREG-1801.
| |
| Loss of material in stainless steel (including CASS) components of
| |
| | |
| the reactor coolant pressure
| |
| | |
| boundary is managed by the water chemistry control - BWR program, augmented by the one-time inspection program to verify program effectiveness. The one-time inspection program is also used to manage loss of material
| |
| | |
| for the main steam flow restrictors
| |
| | |
| by means of a component specific
| |
| | |
| inspection. For some
| |
| | |
| components, the inservice inspection program supplements the water chemistry control - BWR
| |
| | |
| program.
| |
| | |
| See Section 3.1.2.2.2.3 3.1.1-16 PWR only VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 38 of 488 Table 3.1.1: Reactor Coolant System, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.1.1-17 Steel (with or without stainless steel cladding) reactor vessel
| |
| | |
| beltline shell, nozzles, and
| |
| | |
| welds Loss of fracture toughness due to
| |
| | |
| neutron irradiation
| |
| | |
| embrittlement TLAA, evaluated in accordance with
| |
| | |
| Appendix G of
| |
| | |
| 10 CFR 50 and RG
| |
| | |
| 1.99. The applicant
| |
| | |
| may choose to
| |
| | |
| demonstrate that the
| |
| | |
| materials of the
| |
| | |
| nozzles are not
| |
| | |
| controlling for the
| |
| | |
| TLAA evaluations. Yes, TLAA Loss of fracture toughness for the reactor vessel beltline shell, and
| |
| | |
| welds is a TLAA.
| |
| | |
| See Section 3.1.2.2.3.1 3.1.1-18 Steel (with or without stainless steel cladding) reactor vessel
| |
| | |
| beltline shell, nozzles, and welds; safety injection nozzles Loss of fracture toughness due to
| |
| | |
| neutron irradiation
| |
| | |
| embrittlement Reactor Vessel Surveillance Yes, plant specificConsistent with NUREG-1801.
| |
| The reactor vessel surveillance program manages reduction in
| |
| | |
| fracture toughness of reactor
| |
| | |
| vessel beltline materials.
| |
| | |
| See Section 3.1.2.2.3.2 3.1.1-19 Stainless steel and nickel alloy top head enclosure
| |
| | |
| vessel flange leak detection
| |
| | |
| line Cracking due to stress corrosion
| |
| | |
| cracking and
| |
| | |
| intergranular stress corrosion
| |
| | |
| cracking A plant-specific aging management program
| |
| | |
| is to be evaluated
| |
| | |
| because existing
| |
| | |
| programs may not be
| |
| | |
| capable of mitigating or
| |
| | |
| detecting crack
| |
| | |
| initiation and growth
| |
| | |
| due to SCC in the
| |
| | |
| vessel flange leak
| |
| | |
| detection line. Yes, plant specificThe water chemistry control -
| |
| BWR and one-time inspection programs manage cracking in the
| |
| | |
| stainless steel head seal leak
| |
| | |
| detection lines.
| |
| | |
| See Section 3.1.2.2.4.1 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 39 of 488 Table 3.1.1: Reactor Coolant System, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.1.1-20 Stainless steel isolation condenser components
| |
| | |
| exposed to reactor coolant Cracking due to stress corrosion
| |
| | |
| cracking and
| |
| | |
| intergranular stress corrosion
| |
| | |
| cracking Inservice Inspection (IWB, IWC, and IWD),
| |
| Water Chemistry, and
| |
| | |
| plant-specific
| |
| | |
| verification program Yes, detection of aging effects is to
| |
| | |
| be evaluated Not applicable. VYNPS does not have an isolation condenser.
| |
| | |
| See Section 3.1.2.2.4.2 3.1.1-21 PWR only 3.1.1-22 PWR only 3.1.1-23 PWR only 3.1.1-24 PWR only 3.1.1-25 Stainless steel jet pump sensing line Cracking due to cyclic loading A plant-specific aging management program
| |
| | |
| is to be evaluated. Yes, plant specific The jet pump instrumentation lines inside the reactor vessel are not
| |
| | |
| subject to aging management
| |
| | |
| review. The lines outside the
| |
| | |
| vessel are part of the RCS
| |
| | |
| pressure boundary and hence are
| |
| | |
| subject to aging management
| |
| | |
| review. These lines are included
| |
| | |
| as piping and fittings < 4" nominal
| |
| | |
| pipe size (NPS) and cracking of
| |
| | |
| these lines is addressed by item
| |
| | |
| 3.1.1-48 of this table.
| |
| | |
| See Section 3.1.2.2.8.1 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 40 of 488 Table 3.1.1: Reactor Coolant System, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.1.1-26 Steel and stainless steel isolation condenser
| |
| | |
| components exposed to
| |
| | |
| reactor coolant Cracking due to cyclic loading Inservice Inspection (IWB, IWC, and IWD)
| |
| | |
| and plant-specific
| |
| | |
| verification program Yes, detection of aging effects is to
| |
| | |
| be evaluated Not applicable. VYNPS does not have an isolation condenser.
| |
| | |
| See Section 3.1.2.2.8.2 3.1.1-27 PWR only 3.1.1-28 PWR only 3.1.1-29 Stainless steel steam dryers exposed to reactor coolant Cracking due to flow-induced
| |
| | |
| vibration A plant-specific aging management program
| |
| | |
| is to be evaluated. Yes, plant specific The BWR vessel internals program will manage cracking in
| |
| | |
| the stainless steel steam dryers.
| |
| | |
| See Section 3.1.2.2.11 3.1.1-30 PWR only 3.1.1-31 PWR only 3.1.1-32 PWR only 3.1.1-33 PWR only 3.1.1-34 PWR only 3.1.1-35 PWR only 3.1.1-36 PWR only 3.1.1-37 PWR only VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 41 of 488 Table 3.1.1: Reactor Coolant System, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.1.1-38 Steel (with or without stainless steel cladding) control rod
| |
| | |
| drive return line nozzles
| |
| | |
| exposed to reactor coolant Cracking due to cyclic loading BWR CR Drive Return Line Nozzle No Consistent with NUREG-1801.
| |
| The BWR CRD return line nozzle program manages cracking in the
| |
| | |
| low alloy steel with stainless steel
| |
| | |
| cladding control rod drive return
| |
| | |
| line nozzles exposed to reactor
| |
| | |
| coolant. 3.1.1-39 Steel (with or without stainless steel cladding) feedwater
| |
| | |
| nozzles exposed to reactor
| |
| | |
| coolant Cracking due to cyclic loading BWR Feedwater Nozzle No Consistent with NUREG-1801.
| |
| The BWR feedwater nozzle program manages cracking in the
| |
| | |
| low alloy steel feedwater nozzles
| |
| | |
| exposed to reactor coolant. 3.1.1-40 Stainless steel and nickel alloy penetrations for control
| |
| | |
| rod drive stub tubes
| |
| | |
| instrumentation, jet pump
| |
| | |
| instrument, standby liquid
| |
| | |
| control, flux monitor, and drain
| |
| | |
| line exposed to reactor
| |
| | |
| coolant Cracking due to stress corrosion
| |
| : cracking, Intergranular stress corrosion cracking, cyclic
| |
| | |
| loading BWR Penetrations and Water Chemistry No Cracking in stainless steel and nickel-alloy nozzles and
| |
| | |
| penetrations in the reactor vessel
| |
| | |
| is managed by the water chemistry control - BWR and either the BWR penetrations , BWR vessel internals or inservice inspection program.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 42 of 488 Table 3.1.1: Reactor Coolant System, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.1.1-41 Stainless steel and nickel alloy piping, piping
| |
| | |
| components, and piping
| |
| | |
| elements greater than or
| |
| | |
| equal to 4 NPS; nozzle safe
| |
| | |
| ends and associated welds Cracking due to stress corrosion
| |
| | |
| cracking and
| |
| | |
| intergranular stress corrosion
| |
| | |
| cracking BWR Stress Corrosion Cracking and Water
| |
| | |
| Chemistry No Cracking in stainless steel, nickel-alloy and steel clad with stainless
| |
| | |
| steel components in reactor
| |
| | |
| coolant is managed by several
| |
| | |
| programs. Consistent with
| |
| | |
| NUREG-1801 for some
| |
| | |
| components of the reactor vessel
| |
| | |
| and reactor coolant pressure
| |
| | |
| boundary, the BWR stress corrosion cracking and water chemistry control - BWR programs, further supplemented
| |
| | |
| by the inservice inspection program for some components, manage cracking. For other
| |
| | |
| components, to which the BWR stress corrosion cracking program
| |
| | |
| is not applicable, cracking is
| |
| | |
| managed by the water chemistry control - BWR program and either the inservice inspection or one-time inspection program. 3.1.1-42 Stainless steel and nickel alloy vessel shell attachment
| |
| | |
| welds exposed to reactor
| |
| | |
| coolant Cracking due to stress corrosion
| |
| | |
| cracking and
| |
| | |
| intergranular stress corrosion
| |
| | |
| cracking BWR Vessel ID Attachment Welds and Water Chemistry No Consistent with NUREG-1801.
| |
| The BWR vessel ID attachment welds and water chemistry control
| |
| - BWR programs manage cracking in stainless steel and nickel-alloy vessel attachment
| |
| | |
| welds exposed to reactor coolant.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 43 of 488 Table 3.1.1: Reactor Coolant System, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.1.1-43 Stainless steel fuel supports and control rod drive
| |
| | |
| assemblies control rod drive
| |
| | |
| housing exposed to reactor
| |
| | |
| coolant Cracking due to stress corrosion
| |
| | |
| cracking and
| |
| | |
| intergranular stress corrosion
| |
| | |
| cracking BWR Vessel Internals and Water Chemistry No Consistent with NUREG-1801.
| |
| The BWR vessel internals and water chemistry control - BWR programs manage cracking in
| |
| | |
| stainless steel components of the
| |
| | |
| reactor vessel and vessel
| |
| | |
| internals. 3.1.1-44 Stainless steel and nickel alloy core shroud, core plate, core plate bolts, support
| |
| | |
| structure, top guide, core
| |
| | |
| spray lines, spargers, jet
| |
| | |
| pump assemblies, control rod
| |
| | |
| drive housing, nuclear
| |
| | |
| instrumentation guide tubes Cracking due to stress corrosion
| |
| : cracking, intergranular stress corrosion
| |
| : cracking, irradiation-assisted stress
| |
| | |
| corrosion
| |
| | |
| cracking BWR Vessel Internals and Water Chemistry No Consistent with NUREG-1801.
| |
| The BWR vessel internals and water chemistry control - BWR programs manage cracking in
| |
| | |
| stainless steel and nickel-alloy
| |
| | |
| components of the reactor vessel
| |
| | |
| internals exposed to reactor
| |
| | |
| coolant. 3.1.1-45 Steel piping, piping components, and piping
| |
| | |
| elements exposed to reactor
| |
| | |
| coolant Wall thinning due to flow-accelerated
| |
| | |
| corrosion Flow-Accelerated Corrosion No Consistent with NUREG-1801.
| |
| The flow accelerated corrosion program manages wall thinning of
| |
| | |
| steel components of the reactor
| |
| | |
| coolant pressure boundary.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 44 of 488 Table 3.1.1: Reactor Coolant System, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.1.1-46 Nickel alloy core shroud and core plate access hole cover (mechanical covers)
| |
| Cracking due to stress corrosion
| |
| : cracking, intergranular stress corrosion
| |
| : cracking, irradiation-assisted stress
| |
| | |
| corrosion
| |
| | |
| cracking Inservice Inspection (IWB, IWC, and IWD),
| |
| and Water Chemistry No The VYNPS access hole covers are welded, not mechanical (bolted). 3.1.1-47 Stainless steel and nickel-alloy reactor vessel internals
| |
| | |
| exposed to reactor coolant Loss of material due to pitting and
| |
| | |
| crevice corrosion Inservice Inspection (IWB, IWC, and IWD),
| |
| and Water Chemistry No Loss of material in stainless steel and nickel-alloy components of the
| |
| | |
| reactor vessel internals is
| |
| | |
| managed by the water chemistry control - BWR program. The one-time inspectio n program will verify the effectiveness of the water
| |
| | |
| chemistry control - BWR program
| |
| | |
| to manage loss of material. The
| |
| | |
| inservice inspection program is not applicable to most reactor vessel
| |
| | |
| internals components since they
| |
| | |
| are not part of the pressure
| |
| | |
| boundary. Management of loss of
| |
| | |
| material using the water chemistry
| |
| | |
| program augmented by the one-
| |
| | |
| time inspection program is
| |
| | |
| consistent with other items of this
| |
| | |
| table including 3.1.1-14 and
| |
| | |
| 3.1.1-15.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 45 of 488 Table 3.1.1: Reactor Coolant System, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.1.1-48 Steel and stainless steel Class 1 piping, fittings and
| |
| | |
| branch connections < NPS 4
| |
| | |
| exposed to reactor coolant Cracking due to stress corrosion
| |
| : cracking, intergranular stress corrosion
| |
| | |
| cracking (for
| |
| | |
| stainless steel
| |
| | |
| only), and thermal
| |
| | |
| and mechanical
| |
| | |
| loading Inservice Inspection (IWB, IWC, and IWD),
| |
| Water chemistry, and
| |
| | |
| One-Time Inspection
| |
| | |
| of ASME Code Class 1
| |
| | |
| Small-bore Piping No Cracking in stainless steel components of the reactor coolant
| |
| | |
| pressure boundary exposed to
| |
| | |
| reactor coolant is managed by the
| |
| | |
| water chemistry control - BWR program. The one-time inspection program , which is consistent with NUREG-1801 programs XI.M32, One-Time Inspection and XI.M35
| |
| | |
| One-Time Inspection of ASME
| |
| | |
| Code Class 1 Small-bore Piping, will verify the effectiveness of the
| |
| | |
| water chemistry program, and will
| |
| | |
| manage cracking in piping and
| |
| | |
| fitting <4" NPS. Cracking in steel
| |
| | |
| components due to thermal and
| |
| | |
| mechanical loading is not directly
| |
| | |
| dependent on water chemistry, so
| |
| | |
| only the one-time inspection program is credited. The inservice inspection program is also credited for those components >4" NPS
| |
| | |
| that are compared to this line item.
| |
| | |
| Inservice inspection is not
| |
| | |
| applicable to components <4"
| |
| | |
| NPS. Lines that reference this
| |
| | |
| item use either one-time
| |
| | |
| inspection or inservice inspection
| |
| | |
| but not both as listed in NUREG-
| |
| | |
| 1801, so note E is used.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 46 of 488 Table 3.1.1: Reactor Coolant System, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.1.1-49 Nickel alloy core shroud and core plate access hole cover (welded covers)
| |
| Cracking due to stress corrosion
| |
| : cracking, intergranular stress corrosion
| |
| : cracking, irradiation-assisted stress
| |
| | |
| corrosion
| |
| | |
| cracking Inservice Inspection (IWB, IWC, and IWD),
| |
| Water Chemistry, and, for BWRs with a
| |
| | |
| crevice in the access
| |
| | |
| hole covers, augmented inspection
| |
| | |
| using UT or other
| |
| | |
| demonstrated
| |
| | |
| acceptable inspection
| |
| | |
| of the access hole cover welds No VYNPS has welded access hole covers with no crevice behind the
| |
| | |
| weld. Cracking of the nickel-alloy
| |
| | |
| shroud support access hole covers
| |
| | |
| is managed by the BWR vessel internals and water chemistry control - BWR programs as described in line item 3.1.1-44. 3.1.1-50 High-strength low alloy steel top head closure studs and
| |
| | |
| nuts exposed to air with
| |
| | |
| reactor coolant leakage Cracking due to stress corrosion
| |
| | |
| cracking and
| |
| | |
| intergranular stress corrosion
| |
| | |
| cracking Reactor Head Closure Studs No Consistent with NUREG-1801 for the head closure flange bolting.
| |
| | |
| The reactor head closure studs program manages cracking in low
| |
| | |
| alloy steel head closure flange
| |
| | |
| bolting. The inservice inspection program manages cracking in
| |
| | |
| other low allow steel pressure
| |
| | |
| boundary bolting. 3.1.1-51 Cast austenitic stainless steel jet pump assembly castings;
| |
| | |
| orificed fuel support Loss of fracture toughness due to
| |
| | |
| thermal aging and
| |
| | |
| neutron irradiation
| |
| | |
| embrittlement Thermal Aging and Neutron Irradiation
| |
| | |
| Embrittlement of CASS No Consistent with NUREG-1801.
| |
| The thermal aging embrittlement of CASS program manages the reduction of fracture toughness in
| |
| | |
| cast austenitic stainless steel
| |
| | |
| components of the reactor vessel
| |
| | |
| internals. 3.1.1-52 Steel and stainless steel Cracking due to Bolting Integrity No Cracking of stainless steel bolting VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 47 of 488 Table 3.1.1: Reactor Coolant System, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion reactor coolant pressure boundary (RCPB) pump and
| |
| | |
| valve closure bolting, manway
| |
| | |
| and holding bolting, flange
| |
| | |
| bolting, and closure bolting in
| |
| | |
| high-pressure and high-
| |
| | |
| temperature systems stress corrosion cracking, loss of
| |
| | |
| material due to
| |
| | |
| wear, loss of
| |
| | |
| preload due to
| |
| | |
| thermal effects, gasket creep, and
| |
| | |
| self-loosening of the incore housing is managed by the inservice inspection program. The ISI programs
| |
| | |
| provides for visual and volumetric
| |
| | |
| examinations of the bolting in
| |
| | |
| accordance with ASME section XI
| |
| | |
| IWB which is consistent with the
| |
| | |
| NUREG-1801 Reactor Heads
| |
| | |
| Closure Studs Program,
| |
| | |
| Industry operating experience
| |
| | |
| indicates that loss of material due
| |
| | |
| to wear is not a significant aging
| |
| | |
| effect for this bolting. Occasional
| |
| | |
| thread failures due to wear related
| |
| | |
| mechanisms such as galling, are
| |
| | |
| event driven conditions that are
| |
| | |
| resolved as required.
| |
| | |
| Loss of preload is a design driven
| |
| | |
| effect and not an aging effect
| |
| | |
| requiring management. Bolting at
| |
| | |
| VYNPS is standard grade B7
| |
| | |
| carbon steel, or similar material, except in rare specialized
| |
| | |
| applications such as where
| |
| | |
| stainless steel bolting is utilized.
| |
| | |
| Loss of preload due to stress
| |
| | |
| relaxation (creep) would only be a
| |
| | |
| concern in very high temperature
| |
| | |
| applications (> 700°F) as stated in
| |
| | |
| the ASME Code, Section II, Part
| |
| | |
| D, Table 4. No VYNPS bolting
| |
| | |
| operates at >700°F. Therefore, VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 48 of 488 Table 3.1.1: Reactor Coolant System, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion loss of preload due to stress relaxation (creep) is not an
| |
| | |
| applicable aging effect for the
| |
| | |
| reactor coolant system. Other
| |
| | |
| issues that may result in pressure
| |
| | |
| boundary joint leakage are
| |
| | |
| improper design or maintenance
| |
| | |
| issues. Improper bolting
| |
| | |
| application (design) and
| |
| | |
| maintenance issues are current
| |
| | |
| plant operational concerns and not
| |
| | |
| related to aging effects or
| |
| | |
| mechanisms that require
| |
| | |
| management during the period of
| |
| | |
| extended operation. To address
| |
| | |
| these bolting operational
| |
| | |
| concerns, VYNPS has taken
| |
| | |
| actions to address NUREG-1339, "Resolution to Generic Safety
| |
| | |
| Issue 29: Bolting Degradation or
| |
| | |
| Failure in Nuclear Power Plants."
| |
| | |
| These actions include
| |
| | |
| implementation of good bolting
| |
| | |
| practices in accordance with EPRI
| |
| | |
| NP-5067, Good Bolting Practices.
| |
| | |
| Proper joint preparation and make-
| |
| | |
| up in accordance with industry
| |
| | |
| standards is expected to preclude
| |
| | |
| loss of preload. This has been
| |
| | |
| confirmed by operating experience
| |
| | |
| at VYNPS.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 49 of 488 Table 3.1.1: Reactor Coolant System, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.1.1-53 Steel piping, piping components, and piping
| |
| | |
| elements exposed to closed
| |
| | |
| cycle cooling water Loss of material due to general, pitting and crevice
| |
| | |
| corrosion Closed-Cycle Cooling Water System No Not applicable. There are no steel components of the Class 1 reactor vessel, vessel internals or reactor
| |
| | |
| coolant pressure boundary
| |
| | |
| exposed to closed cycle cooling
| |
| | |
| water. 3.1.1-54 Copper alloy piping, piping components, and piping
| |
| | |
| elements exposed to closed
| |
| | |
| cycle cooling water Loss of material due to pitting, crevice, and
| |
| | |
| galvanic corrosion Closed-Cycle Cooling Water System No Not applicable. There are no copper alloy components of the Class 1 reactor vessel, vessel
| |
| | |
| internals or reactor coolant
| |
| | |
| pressure boundary exposed to
| |
| | |
| closed cycle cooling water. 3.1.1-55 Cast austenitic stainless steel Class 1 pump casings, and
| |
| | |
| valve bodies and bonnets
| |
| | |
| exposed to reactor coolant
| |
| | |
| >250°C (>482°F)
| |
| Loss of fracture toughness due to
| |
| | |
| thermal aging
| |
| | |
| embrittlement Inservice inspection (IWB, IWC, and IWD).
| |
| | |
| Thermal aging
| |
| | |
| susceptibility screening
| |
| | |
| is not necessary, inservice inspection
| |
| | |
| requirements are
| |
| | |
| sufficient for managing
| |
| | |
| these aging effects.
| |
| | |
| ASME Code Case N-
| |
| | |
| 481 also provides an
| |
| | |
| alternative for pump casings. No The inservice inspection and one-time inspection programs manage the reduction of fracture toughness
| |
| | |
| in cast austenitic stainless steel
| |
| | |
| components of the reactor coolant
| |
| | |
| pressure boundary.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 50 of 488 Table 3.1.1: Reactor Coolant System, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.1.1-56 Copper alloy >15% Zn piping, piping components, and
| |
| | |
| piping elements exposed to
| |
| | |
| closed cycle cooling water Loss of material due to selective
| |
| | |
| leaching Selective Leaching of Materials No Not applicable. There are no copper alloy components in the Class 1 reactor vessel, vessel
| |
| | |
| internals or reactor coolant
| |
| | |
| pressure boundary. 3.1.1-57 Cast austenitic stainless steel Class 1 piping, piping
| |
| | |
| component, and piping
| |
| | |
| elements and control rod drive
| |
| | |
| pressure housings exposed to
| |
| | |
| reactor coolant >250°C
| |
| | |
| (>482°F) Loss of fracture toughness due to
| |
| | |
| thermal aging
| |
| | |
| embrittlement Thermal Aging Embrittlement of CASS No The one-time inspection program manages the reduction of fracture
| |
| | |
| toughness in cast austenitic
| |
| | |
| stainless steel main steam flow
| |
| | |
| restrictors. VYNPS has no other
| |
| | |
| Class 1 piping, piping
| |
| | |
| components, piping elements, or
| |
| | |
| CRD housings made of CASS.
| |
| | |
| Pump casings and valve bodies of
| |
| | |
| CASS are included in item number
| |
| | |
| 3.1.1-55 above. 3.1.1-58 PWR only 3.1.1-59 PWR only 3.1.1-60 PWR only 3.1.1-61 PWR only 3.1.1-62 PWR only 3.1.1-63 PWR only 3.1.1-64 PWR only 3.1.1-65 PWR only VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 51 of 488 Table 3.1.1: Reactor Coolant System, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.1.1-66 PWR only 3.1.1-67 PWR only 3.1.1-68 PWR only 3.1.1-69 PWR only 3.1.1-70 PWR only 3.1.1-71 PWR only 3.1.1-72 PWR only 3.1.1-73 PWR only 3.1.1-74 PWR only 3.1.1-75 PWR only 3.1.1-76 PWR only 3.1.1-77 PWR only 3.1.1-78 PWR only 3.1.1-79 PWR only 3.1.1-80 PWR only 3.1.1-81 PWR only 3.1.1-82 PWR only 3.1.1-83 PWR only VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 52 of 488 Table 3.1.1: Reactor Coolant System, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.1.1-84 PWR only 3.1.1-85 Nickel alloy piping, piping components, and piping
| |
| | |
| elements exposed to air -
| |
| | |
| indoor uncontrolled (external) None None NA - No AEM or AMP Consistent with NUREG-1801. 3.1.1-86 Stainless steel piping, piping components, and piping
| |
| | |
| elements exposed to air -
| |
| | |
| indoor uncontrolled (External);
| |
| | |
| air with borated water
| |
| | |
| leakage; concrete; gas None None NA - No AEM or AMP Consistent with NUREG-1801. 3.1.1-87 Steel piping, piping components, and piping
| |
| | |
| elements in concrete None None NA - No AEM or AMP Not applicable. There are no components of the Class 1 reactor vessel, vessel internals or reactor
| |
| | |
| coolant pressure boundary
| |
| | |
| exposed to concrete.
| |
| | |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 53 of 488 Notes for Tables 3.1.2-1 through 3.1.2-3 Generic notes A. Consistent with NUREG-1801 item for component, materi al, environment, aging effect and aging management program.
| |
| AMP is consistent with NUREG-1801 AMP. B. Consistent with NUREG-1801 item for component, materi al, environment, aging effect and aging management program.
| |
| AMP has exceptions to NUREG-1801 AMP. C. Component is different, but consistent with NUREG-1801 item for material, environment, aging effect and aging management program. AMP is consistent with NUREG-1801 AMP. D. Component is different, but consistent with NUREG-1801 item for material, environment, aging effect and aging management program. AMP has exceptions to NUREG-1801 AMP. E. Consistent with NUREG-1801 material, environment, and agi ng effect but a different aging management program is credited. F. Material not in NUREG-1801 for this component.
| |
| G. Environment not in NUREG-1801 for this component and material.
| |
| H. Aging effect not in NUREG-1801 for this component, material and environment combination.
| |
| I. Aging effect in NUREG-1801 for this component, material and environment combination is not applicable.
| |
| J. Neither the component nor the material and environment combination is evaluated in NUREG-1801.
| |
| Plant-specific notes 101. The environment of air - indoor (external) is considered to be equivalent to the NUREG-1801 environment of Reactor coolant for the purposes of evaluating cracking due to fatigue. 102. High component surface temperature precludes moisture accumulation that could result in corrosion.
| |
| 103. The environment of air - indoor (external) is considered to be equivalent to the NUREG-1801 generic line R-28 environment of System temperature up to 288°C (550°F) for t he purposes of evaluating cracking due to fatigue. 104. Cracking of the head seal leak detection line is included in this line item.
| |
| 105. The VYNPS one-time inspection program is consistent with both XI.M32, One Time Inspection and XI.M35, One-Time Inspection of ASME Code Class 1 Small-bore Piping, described in NUREG-1801.
| |
| Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 54 of 488 Table 3.1.2-1 Reactor Vessel Summary of Aging Management Evaluation Table 3.1.2-1: Reactor Vessel Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol.
| |
| 2 Item Table 1 Item Notes Bolting Loss of material Reactor head closure studs H Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 C, 101 Closure flange studs, nuts, washers and
| |
| | |
| bushings Pressure boundary Low alloy steel Air-indoor (ext) Cracking Reactor head closure studs IV.A1-9 (R-60) 3.1.1-50 B Cracking - fatigue TLAA - metal fatigue G Incore housing bolting Flange bolts Flange Nut and washer Pressure boundary Stainless steel Air-indoor (ext)
| |
| Cracking Inservice Inspection IV.A2-6 (R-78) 3.1.1-52 E Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 C, 101 Other pressure boundary bolting Flange bolts and nuts (N6A, N6B, N7) CRD flange capscrews and
| |
| | |
| washers Pressure boundary Low alloy steel Air-indoor (ext)
| |
| Cracking Inservice Inspection IV.A1-9 (R-60) 3.1.1-50 E Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 55 of 488 Table 3.1.2-1: Reactor Vessel Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol.
| |
| 2 Item Table 1 Item Notes Heads and Shell Loss of material Water chemistry control - BWR IV.A1-8 (RP-25) 3.1.1-14 A Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Treated water
| |
| >220ºF (int) Cracking Water chemistry control - BWR Inservice
| |
| | |
| inspection H Dome: bottom head Pressure boundary
| |
| | |
| Support Low alloy steel with SS
| |
| | |
| cladding Air-indoor (ext) None None G, 102 Loss of material Water chemistry control - BWR IV.A1-8 (RP-25) 3.1.1-14 A Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Treated water
| |
| >220ºF (int) Cracking Water chemistry control - BWR Inservice
| |
| | |
| inspection H Dome: upper head Pressure boundary Low alloy steel with SS
| |
| | |
| cladding Air-indoor (ext) None None G, 102 Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 56 of 488 Table 3.1.2-1: Reactor Vessel Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol.
| |
| 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR IV.A1-8 (RP-25) 3.1.1-14 A Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Treated water
| |
| >220ºF (int) Cracking Water chemistry control - BWR Inservice
| |
| | |
| inspection H Flanges (closure) Upper head Vessel shell Pressure boundary Low alloy steel with SS
| |
| | |
| cladding Air-indoor (ext) None None G, 102 Loss of material Water chemistry control - BWR IV.A1-8 (RP-25) 3.1.1-14 A Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Treated water
| |
| >220ºF (int) Cracking Water chemistry control - BWR Inservice
| |
| | |
| inspection H Reactor vessel shell Upper shell Intermediate nozzle shell Lower shell Pressure boundary Low alloy steel with SS
| |
| | |
| cladding Air-indoor (ext) None None G, 102 Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 57 of 488 Table 3.1.2-1: Reactor Vessel Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol.
| |
| 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR IV.A1-8 (RP-25) 3.1.1-14 A Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Treated water
| |
| >220ºF (int) Cracking Water chemistry control - BWR Inservice
| |
| | |
| inspection H Neutron fluence Reduction in fracture toughness Reactor vessel surveillance
| |
| | |
| TLAA - neutron
| |
| | |
| fluence IV.A1-14 (R-63)
| |
| IV.A1-13 (R-62) 3.1.1-18 3.1.1-17 A A Reactor vessel
| |
| | |
| shell Intermediate beltline shell Pressure boundary Low alloy steel with SS
| |
| | |
| cladding Air-indoor (ext) None None G, 102 Nozzles and Penetrations Loss of material Inservice inspection Water chemistry
| |
| | |
| control - BWR IV.A1-8 (RP-25) 3.1.1-14 C Cracking - fatigue TLAA - metal fatigue IV.B1-14 (R-53) 3.1.1-5 A Treated water
| |
| >270ºF (int) Cracking BWR Vessel Internals Water chemistry
| |
| | |
| control - BWR IV.B1-8 (R-104) 3.1.1-43 B CRD housings Pressure boundary Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 58 of 488 Table 3.1.2-1: Reactor Vessel Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol.
| |
| 2 Item Table 1 Item Notes Loss of material Inservice inspection Water chemistry
| |
| | |
| control - BWR IV.A1-8 (RP-25) 3.1.1-14 A Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A CRD stub tubes Pressure boundary Nickel-based alloy Treated water
| |
| >270ºF (int) Cracking BWR Vessel Internals Water chemistry
| |
| | |
| control - BWR IV.A1-5 (R-69) 3.1.1-40 E Loss of material Inservice inspection Water chemistry
| |
| | |
| control - BWR IV.A1-8 (RP-25) 3.1.1-14 A Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Treated water
| |
| >270ºF (int)
| |
| Cracking Inservice inspection Water chemistry
| |
| | |
| control - BWR IV.A1-5 (R-69) 3.1.1-40 E Incore housings Pressure boundary Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 59 of 488 Table 3.1.2-1: Reactor Vessel Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol.
| |
| 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR IV.A1-8 (RP-25) 3.1.1-14 A Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Treated water
| |
| >220ºF (int) Cracking Water chemistry control - BWR Inservice
| |
| | |
| inspection IV.A1-1 (R-68) 3.1.1-41 E Nozzles Recirc outlets (N1)
| |
| Recirc inlets (N2) Pressure boundary Low alloy steel with SS
| |
| | |
| cladding Air-indoor (ext) None None G, 102 Loss of material Inservice inspection Water chemistry
| |
| | |
| control - BWR IV.A1-11 (R-59) 3.1.1-11 C Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Treated water
| |
| >220ºF (int) Cracking Water chemistry control - BWR Inservice
| |
| | |
| inspection H Nozzles Main steam (N3) Pressure boundary Low alloy steel with
| |
| | |
| partial SS
| |
| | |
| cladding Air-indoor (ext) None None G, 102 Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 60 of 488 Table 3.1.2-1: Reactor Vessel Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol.
| |
| 2 Item Table 1 Item Notes Loss of material Inservice inspection Water chemistry
| |
| | |
| control - BWR IV.A1-11 (R-59) 3.1.1-11 C Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Treated water
| |
| >220ºF (int) Cracking BWR feedwater nozzle IV.A1-3 (R-65) 3.1.1-39 B Nozzles Feedwater (N4) Pressure boundary Low alloy steel with
| |
| | |
| partial SS
| |
| | |
| cladding Air-indoor (ext) None None G, 102 Loss of material Water chemistry control - BWR IV.A1-8 (RP-25) 3.1.1-14 A Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Treated water
| |
| >220ºF (int) Cracking Water chemistry control - BWR Inservice
| |
| | |
| inspection IV.A1-1 (R-68) 3.1.1-41 E Nozzles Core spray (N5)
| |
| Head spray (N6A)
| |
| Head instr. (N6B)
| |
| Head vent (N7) Jet pump instr. (N8) Pressure boundary Low alloy steel with SS
| |
| | |
| cladding Air-indoor (ext) None None G, 102 Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 61 of 488 Table 3.1.2-1: Reactor Vessel Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol.
| |
| 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR IV.A1-8 (RP-25) 3.1.1-14 A Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Treated water
| |
| >220ºF (int) Cracking BWR CRD return line nozzle IV.A1-2 (R-66) 3.1.1-38 B Nozzle CRD return (N9) Pressure boundary Low alloy steel with SS
| |
| | |
| cladding Air-indoor (ext) None None G, 102 Loss of material Water chemistry control - BWR IV.A1-8 (RP-25) 3.1.1-14 A Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Treated water
| |
| >220ºF (int) Cracking Water chemistry control - BWR
| |
| | |
| BWR penetrations IV.A1-5 (R-69) 3.1.1-40 B Nozzle Core SLC/P (N10) Pressure boundary Low alloy steel with SS
| |
| | |
| cladding Air-indoor (ext) None None G, 102 Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 62 of 488 Table 3.1.2-1: Reactor Vessel Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol.
| |
| 2 Item Table 1 Item Notes Loss of material Inservice inspection Water chemistry
| |
| | |
| control - BWR IV.A1-8 (RP-25) 3.1.1-14 A Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Treated water
| |
| >270ºF (int)
| |
| Cracking BWR penetrations Water chemistry
| |
| | |
| control - BWR IV.A1-5 (R-69) 3.1.1-40 B Nozzles Instrumentatio n (N11, N12) Pressure boundary Nickel-based alloy Air-indoor (ext) None None IV.E-1 (RP-03) 3.1.1-85 A Loss of material Inservice inspection Water chemistry
| |
| | |
| control - BWR IV.A1-8 (RP-25) 3.1.1-14 A Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Treated water
| |
| >270ºF (int)
| |
| Cracking Inservice inspection Water chemistry
| |
| | |
| control - BWR IV.A1-1 (R-68) 3.1.1-41 E Nozzles Flange leakoff (N13, N14) Pressure boundary Nickel-based alloy Air-indoor (ext) None None IV.E-1 (RP-03) 3.1.1-85 A Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 63 of 488 Table 3.1.2-1: Reactor Vessel Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol.
| |
| 2 Item Table 1 Item Notes Loss of material Inservice inspection Water chemistry
| |
| | |
| control - BWR IV.A1-11 (R-59) 3.1.1-11 C Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Treated water
| |
| >220ºF (int) Cracking Water chemistry control - BWR Inservice
| |
| | |
| inspection H Nozzles Drain (N15) Pressure boundary Low alloy steel with
| |
| | |
| partial SS
| |
| | |
| cladding Air-indoor (ext) None None G, 102 Safe Ends, Thermal Sleeves, Flanges, Caps Loss of material Inservice inspection Water chemistry
| |
| | |
| control - BWR IV.A1-8 (RP-25) 3.1.1-14 A Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Treated water
| |
| >270ºF (int) Cracking BWR CRD return line nozzle Water chemistry
| |
| | |
| control - BWR F CAP CRD return line (N9) Pressure boundary Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 64 of 488 Table 3.1.2-1: Reactor Vessel Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol.
| |
| 2 Item Table 1 Item Notes Loss of material Inservice inspection Water chemistry
| |
| | |
| control - BWR IV.A1-8 (RP-25) 3.1.1-14 A Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Treated water
| |
| >270ºF (int)
| |
| Cracking Inservice inspection Water chemistry
| |
| | |
| control - BWR IV.A1-1 (R-68) 3.1.1-41 E Flanges Head nozzle flanges (N6, N7) Blank flanges (N6) Pressure boundary Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Loss of material Inservice Inspection Water chemistry
| |
| | |
| control - BWR IV.A1-8 (RP-25) 3.1.1-14 A Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Treated water
| |
| >270ºF (int) Cracking BWR stress corrosion
| |
| | |
| cracking Water chemistry
| |
| | |
| control - BWR IV.A1-1 (R-68) 3.1.1-41 B Safe ends >=4" Recirc inlet (N1) Recirc outlet (N2) Pressure boundary Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 65 of 488 Table 3.1.2-1: Reactor Vessel Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol.
| |
| 2 Item Table 1 Item Notes Loss of material Inservice Inspection Water chemistry
| |
| | |
| control - BWR IV.A1-11 (R-59) 3.1.1-11 C Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Treated water
| |
| >220ºF (int) Safe ends >=4" Main steam (N3) Feedwater (N4) Pressure boundary Carbon steel Air-indoor (ext) None None G, 102 Loss of material Inservice Inspection Water chemistry
| |
| | |
| control - BWR IV.A1-8 (RP-25) 3.1.1-14 A Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Treated water
| |
| >270ºF (int) Cracking BWR stress corrosion
| |
| | |
| cracking Water chemistry
| |
| | |
| control - BWR IV.A1-1 (R-68) 3.1.1-41 B Safe ends >=4" Core spray (N5) Pressure boundary Nickel-based alloy Air-indoor (ext) None None IV.E-1 (RP-03) 3.1.1-85 A Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 66 of 488 Table 3.1.2-1: Reactor Vessel Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol.
| |
| 2 Item Table 1 Item Notes Loss of material Inservice Inspection Water chemistry
| |
| | |
| control - BWR IV.A1-8 (RP-25) 3.1.1-14 A Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Treated water
| |
| >270ºF (int) Cracking BWR stress corrosion
| |
| | |
| cracking Water chemistry
| |
| | |
| control - BWR IV.A1-1 (R-68) 3.1.1-41 B Safe ends >=4" Jet pump instr. (N8) Pressure boundary Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Loss of material Inservice Inspection Water chemistry
| |
| | |
| control - BWR IV.A1-8 (RP-25) 3.1.1-14 A Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Treated water
| |
| >270ºF (int)
| |
| Cracking Inservice inspection Water chemistry
| |
| | |
| control - BWR IV.A1-1 (R-68) 3.1.1-41 E Safe ends < 4" Core SCL/P (N10) Instrumentatio n (N11, N12) Pressure boundary Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 67 of 488 Table 3.1.2-1: Reactor Vessel Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol.
| |
| 2 Item Table 1 Item Notes Loss of material Inservice Inspection Water chemistry
| |
| | |
| control - BWR IV.A1-11 (R-59) 3.1.1-11 C Treated water
| |
| >220ºF (int) Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Safe ends < 4" Drain (N15) Pressure boundary Low alloy steel Air-indoor (ext) None None G, 102 Loss of material Water chemistry control - BWR IV.A1-8 (RP-25) 3.1.1-14 C Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Thermal sleeves Recirc inlet (N2) Core spray (N5) Pressure boundary Stainless steel Treated water
| |
| >270ºF (int) Cracking BWR vessel internals Water chemistry
| |
| | |
| control - BWR IV.B1-13 (R-100) 3.1.1-44 D Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 68 of 488 Table 3.1.2-1: Reactor Vessel Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol.
| |
| 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR IV.A1-8 (RP-25) 3.1.1-14 A Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Thermal sleeves Feedwater inlets (N4) Pressure boundary Stainless steel and
| |
| | |
| Nickel-based
| |
| | |
| alloy Treated water
| |
| >270ºF (int)
| |
| Cracking Inservice inspection Water chemistry
| |
| | |
| control - BWR IV.A1-1 (R-68) 3.1.1-41 E Loss of material BWR vessel internals Water chemistry
| |
| | |
| control - BWR IV.A1-8 (RP-25) 3.1.1-14 A Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 A Treated water
| |
| >270ºF (int)
| |
| Cracking BWR penetrations Water chemistry
| |
| | |
| control - BWR IV.A1-5 (R-69) 3.1.1-40 B Weld SLC nozzle to safe end weld (N10) Pressure boundary Nickel-based alloy Air-indoor (ext) None None IV.E-1 (RP-03) 3.1.1-85 A Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 69 of 488 Table 3.1.2-1: Reactor Vessel Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol.
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| 2 Item Table 1 Item Notes Vessel Attachments and Supports Loss of material Inservice inspection Water chemistry
| |
| | |
| control - BWR IV.A1-8 (RP-25) 3.1.1-14 A Cracking - fatigue TLAA - metal fatigue IV.A1-7 (R-04) 3.1.1-2 C Internal attachments Shroud support ring pad (1) Shroud support feet (14) Jet pump riser pads (20) Core spray brackets (4) Guide rod brackets (2) Steam dryer brackets (4) Dryer holddown brackets (4) Surveillance specimen holder brackets Feedwater sparger brackets (8)
| |
| Support for Criterion (a)(1) equipment Stainless steel and
| |
| | |
| Nickel-based
| |
| | |
| alloy Treated water
| |
| >270ºF (int) Cracking BWR vessel ID attachment welds Water chemistry
| |
| | |
| control - BWR IV.A1-12 (R-64) 3.1.1-42 B Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 70 of 488 Table 3.1.2-1: Reactor Vessel Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol.
| |
| 2 Item Table 1 Item Notes Loss of material Inservice inspection H Supports Stabilizer pads Support skirt Support for Criterion (a)(1) equipment Low alloy steel Air-indoor (ext) Cracking - fatigue TLAA - metal fatigue IV.A1-6 (R-70) 3.1.1-1 A Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 71 of 488 Table 3.1.2-2 Reactor Vessel Internals Summary of Aging Management Evaluation Table 3.1.2-2 Reactor Vessel Internals Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR IV.B1-15 (RP-26) 3.1.1-47 E Cracking - fatigue TLAA - metal fatigue IV.B1-14 (R-53) 3.1.1-5 A Control rod guide tubes Tubes Support for Criterion (a)(1) equipment Stainless steel Treated water
| |
| >270ºF (int) Cracking BWR vessel internals Water chemistry control
| |
| - BWR IV.B1-8 (R-104) 3.1.1-43 D Loss of material Water chemistry control - BWR IV.B1-15 (RP-26) 3.1.1-47 E Cracking - fatigue TLAA - metal fatigue IV.B1-14 (R-53) 3.1.1-5 A Treated water
| |
| >482ºF (int) Cracking BWR vessel internals Water chemistry control
| |
| - BWR IV.B1-8 (R-104) 3.1.1-43 D Control rod guide tubes Bases Support for Criterion (a)(1) equipment CASS Treated water
| |
| >482 °F and
| |
| | |
| neutron fluence Reduction of fracture toughness Thermal aging embrittlement of CASS IV.B1-9 (R-103) 3.1.1-51 A Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 72 of 488 Table 3.1.2-2 Reactor Vessel Internals Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR IV.B1-15 (RP-26) 3.1.1-47 E Cracking - fatigue TLAA - metal fatigue IV.B1-14 (R-53) 3.1.1-5 A Core plate Plate, beams Blocks, plugs, Alignment assemblies Support for Criterion (a)(1) equipment Stainless steel Treated water
| |
| >270ºF (int) Cracking BWR vessel internals Water chemistry control
| |
| | |
| - BWR IV.B1-6 (R-93) 3.1.1-44 B Core plate Rim bolts Support for Criterion (a)(1) equipment Stainless steel Treated water
| |
| >270ºF (int) Cracking BWR vessel internals Water chemistry control
| |
| | |
| - BWR IV.B1-6 (R-93) 3.1.1-44 B Loss of preload TLAA - loss of preload H Loss of material Water chemistry control
| |
| - BWR IV.B1-15 (RP-26) 3.1.1-47 E Cracking - fatigue TLAA - metal fatigue IV.B1-14 (R-53) 3.1.1-5 A Core spray lines Flow distribution Stainless steel Treated water
| |
| >270ºF (int) Cracking BWR vessel internals Water chemistry control
| |
| - BWR IV.B1-7 (R-99) 3.1.1-44 B Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 73 of 488 Table 3.1.2-2 Reactor Vessel Internals Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR IV.B1-15 (RP-26) 3.1.1-47 E Cracking - fatigue TLAA - metal fatigue IV.B1-14 (R-53) 3.1.1-5 A Treated water
| |
| >482ºF (int) Cracking BWR vessel internals Water chemistry control
| |
| - BWR IV.B1-6 (R-93) 3.1.1-44 D Fuel support pieces Orificed supports Peripheral supports Support for Criterion (a)(1) equipment CASS Treated water
| |
| >482°F and
| |
| | |
| neutron fluence Reduction of fracture toughness Thermal aging embrittlement of CASS IV.B1-9 (R-103) 3.1.1-51 A Loss of material Water chemistry control
| |
| - BWR IV.B1-15 (RP-26) 3.1.1-47 E Cracking - fatigue TLAA - metal fatigue IV.B1-14 (R-53) 3.1.1-5 A Treated water
| |
| >270ºF (ext) Cracking BWR vessel internals Water chemistry control
| |
| - BWR IV.B1-10 (R-105) 3.1.1-44 B Incore dry tubes Pressure boundary Stainless steel Air-indoor (int) None None IV.E-2 (RP-04) 3.1.1-86 A Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 74 of 488 Table 3.1.2-2 Reactor Vessel Internals Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Loss of material Water chemistry control
| |
| - BWR IV.B1-15 (RP-26) 3.1.1-47 E Cracking - fatigue TLAA - metal fatigue IV.B1-14 (R-53) 3.1.1-5 A Incore guide tubes Pressure boundary Stainless steel Treated water
| |
| >270ºF (ext) Cracking BWR vessel internals Water chemistry control
| |
| - BWR IV.B1-10 (R-105) 3.1.1-44 B Loss of material Water chemistry control
| |
| - BWR IV.B1-15 (RP-26) 3.1.1-47 E Cracking - fatigue TLAA - metal fatigue IV.B1-14 (R-53) 3.1.1-5 A Jet pump assemblies Risers, riser braces Riser hold down bolts Mixer barrels and adapters Restraint brackets, wedges, bolts Diffusers and tailpipes Adapter upper rings Floodable volume Stainless steel Treated water
| |
| >270ºF (int) Cracking BWR vessel internals Water chemistry control
| |
| - BWR IV.B1-13 (R-100) 3.1.1-44 B Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 75 of 488 Table 3.1.2-2 Reactor Vessel Internals Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR IV.B1-15 (RP-26) 3.1.1-47 E Cracking - fatigue TLAA - metal fatigue IV.B1-14 (R-53) 3.1.1-5 A Jet pump assemblies Holddown beams Adapter lower ring Floodable volume Nickel-based alloy Treated water
| |
| >270ºF (int) Cracking BWR vessel internals Water chemistry control
| |
| | |
| -BWR IV.B1-13 (R-100) 3.1.1-44 B Loss of material Water chemistry control
| |
| - BWR IV.B1-15 (RP-26) 3.1.1-47 E Cracking - fatigue TLAA - metal fatigue IV.B1-14 (R-53) 3.1.1-5 A Treated water
| |
| >482ºF (int) Cracking BWR vessel internals Water chemistry control
| |
| - BWR IV.B1-13 (R-100) 3.1.1-44 B Jet pump castings Transition piece Inlet elbow/
| |
| nozzle Mixer flange and flare Diffuser collar Floodable volume CASS Treated water
| |
| >482 °F and
| |
| | |
| neutron fluence Reduction of fracture toughness Thermal aging embrittlement of CASS IV.B1-9 (R-103) 3.1.1-51 C Loss of material Water chemistry control - BWR IV.B1-15 (RP-26) 3.1.1-47 E Cracking - fatigue TLAA - metal fatigue IV.B1-14 (R-53) 3.1.1-5 A Shroud Floodable volume Stainless steel Treated water
| |
| >270ºF (int) Cracking BWR vessel internals Water chemistry control
| |
| - BWR IV.B1-1 (R-92) 3.1.1-44 B Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 76 of 488 Table 3.1.2-2 Reactor Vessel Internals Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR IV.B1-15 (RP-26) 3.1.1-47 E Cracking - fatigue TLAA - metal fatigue IV.B1-14 (R-53) 3.1.1-5 A Shroud repair hardware Tie rod assemblies Top bracket Radial restraints Spring rod /
| |
| top adapter Bottom adapter Support for Criterion (a)(1) equipment Stainless steel and
| |
| | |
| Nickel-based alloy Treated water
| |
| >270ºF (int) Cracking BWR vessel internals Water chemistry control
| |
| - BWR IV.B1-1 (R-92)
| |
| IV.B1-2 (R-96) 3.1.1-44 3.1.1-44 B B Loss of material Water chemistry control - BWR IV.B1-15 (RP-26) 3.1.1-47 E Cracking - fatigue TLAA - metal fatigue IV.B1-14 (R-53) 3.1.1-5 A Shroud support Ring, cylinder, and legs Access hole cover Support for Criterion (a)(1) equipment
| |
| | |
| Nickel-based alloy Treated water
| |
| >270ºF (int) Cracking BWR vessel internals Water chemistry control
| |
| - BWR IV.B1-2 (R-96)
| |
| IV.B1-5 (R-94) 3.1.1-44 3.1.1-49 B E Steam dryers Structural integrity Stainless steel Treated water
| |
| >270°F (int) Cracking BWR vessel internals IV.B1-16 (RP-18) 3.1.1-29 E Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 77 of 488 Table 3.1.2-2 Reactor Vessel Internals Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR IV.B1-15 (RP-26) 3.1.1-47 E Cracking - fatigue TLAA - metal fatigue IV.B1-14 (R-53) 3.1.1-5 A Top guide assembly Support for Criterion (a)(1) equipment Stainless steel Treated water
| |
| >270ºF (int) Cracking BWR vessel internals Water chemistry control
| |
| | |
| - BWR IV.B1-17 (R-98) 3.1.1-44 B Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 78 of 488 Table 3.1.2-3 Reactor Coolant Pressure Boundary Summary Of Aging Management Evaluation Table 3.1.2-3: Reactor Coolant Pressure Boundary Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Cracking -
| |
| fatigue TLAA - metal fatigue IV.C1-15 (R-220) 3.1.1-3 A, 101 Stainless steel Air-indoor (ext) Cracking Inservice Inspection F Loss of material System walkdown Inservice inspection V.E-7 (E-44) 3.2.1-31 C Cracking -
| |
| fatigue TLAA - metal fatigue IV.C1-11 (R-28) 3.1.1-4 A, 103 Bolting (flanges, valves, etc.)
| |
| (all systems)
| |
| | |
| Pressure boundary Low alloy steel Air-indoor (ext) Cracking Inservice inspection H Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 79 of 488 Table 3.1.2-3: Reactor Coolant Pressure Boundary Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR IV.C1-14 (RP-27) 3.1.1-15 A Cracking Water chemistry control - BWR
| |
| | |
| One-time inspection IV.C1-1 (R-03) 3.1.1-48 E, 105 Treated water >270°F (int) Cracking -
| |
| fatigue TLAA - metal fatigue IV.C1-15 (R-220) 3.1.1-3 A Condensing chambers Pressure boundary Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Loss of material Water chemistry control - BWR IV.C1-14 (RP-27) 3.1.1-15 A Cracking Water chemistry control - BWR
| |
| | |
| Inservice Inspection IV.C1-1 (R-03) 3.1.1-48 E Treated water >270°F (int) Cracking -
| |
| fatigue TLAA - metal fatigue IV.C1-15 (R-220) 3.1.1-3 A Drive (CRD) Pressure boundary Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 80 of 488 Table 3.1.2-3: Reactor Coolant Pressure Boundary Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR IV.C1-14 (RP-27) 3.1.1-15 A Cracking Water chemistry control - BWR
| |
| | |
| One-time inspection IV.C1-1 (R-03) 3.1.1-48 E, 105 Treated water >270°F (int) Cracking -
| |
| fatigue TLAA - metal fatigue IV.C1-15 (R-220) 3.1.1-3 A Detector (CRD) Pressure boundary Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Driver mount (RR) Pressure boundary Carbon steel Air-indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 C Loss of material Water chemistry control - BWR IV.C1-14 (RP-27) 3.1.1-15 A Cracking Water chemistry control - BWR
| |
| | |
| One-time inspection IV.C1-1 (R-03) 3.1.1-48 E, 105 Treated water >270°F (int) Cracking -
| |
| fatigue TLAA - metal fatigue IV.C1-15 (R-220) 3.1.1-3 A Filter housing (CRD) Pressure boundary Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 81 of 488 Table 3.1.2-3: Reactor Coolant Pressure Boundary Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR
| |
| | |
| Inservice inspection IV.C1-14 (RP-27) 3.1.1-15 A Cracking Water chemistry control - BWR
| |
| | |
| Inservice inspection BWR stress corrosion
| |
| | |
| cracking IV.C1-9 (R-20) 3.1.1-41 B Treated water >270°F (int) Cracking -
| |
| fatigue TLAA - metal fatigue IV.C1-15 (R-220) 3.1.1-3 A Flow elements (RR), (SLC) Pressure boundary Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Loss of material Water chemistry control - BWR IV.C1-14 (RP-27) 3.1.1-15 A Cracking Water chemistry control - BWR
| |
| | |
| One-time inspection IV.C1-1 (R-03) 3.1.1-48 E, 105 Treated water >270°F (int) Cracking -
| |
| fatigue TLAA - metal fatigue IV.C1-15 (R-220) 3.1.1-3 A Orifices (Instrumentation) Pressure boundary Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 82 of 488 Table 3.1.2-3: Reactor Coolant Pressure Boundary Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR IV.C1-14 (RP-27) 3.1.1-15 A Cracking Water chemistry control - BWR
| |
| | |
| One-time inspection IV.C1-1 (R-03) IV.A1-10 (R-61) 3.1.1-48 3.1.1-19 E, 103 E, 104 Treated water >270°F (int) Cracking -
| |
| fatigue TLAA - metal fatigue IV.C1-15 (R-220) 3.1.1-3 A Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Loss of material Water chemistry control - BWR IV.C1-6 (R-16) 3.1.1-13 C Treated water >220°F (int) Cracking -
| |
| fatigue TLAA - metal fatigue IV.C1-15 (R-220) 3.1.1-3 A Piping and fittings <4" NPS Pressure boundary Carbon steel Air-indoor (ext) None None I, 102 Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 83 of 488 Table 3.1.2-3: Reactor Coolant Pressure Boundary Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR IV.C1-14 (RP-27) 3.1.1-15 A Treated water (int) Cracking Water chemistry control - BWR
| |
| | |
| One-time inspection IV.C1-1 (R-03) 3.1.1-48 E, 103 Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Treated water (int) Loss of material Water chemistry control - BWR IV.C1-6 (R-16) 3.1.1-13 C Piping and fittings <4" NPS Pressure boundary Carbon steel Air-indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 C Nitrogen (int) None None IV.E-5 (RP-07) 3.1.1-86 A Piping and fittings <4" NPS (CRD) Pressure boundary Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 84 of 488 Table 3.1.2-3: Reactor Coolant Pressure Boundary Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR
| |
| | |
| Inservice inspection IV.C1-14 (RP-27) 3.1.1-15 A Cracking Water chemistry control - BWR
| |
| | |
| Inservice inspection BWR stress corrosion
| |
| | |
| cracking IV.C1-9 (R-20) 3.1.1-41 B Treated water >270°F (int) Cracking -
| |
| fatigue TLAA - metal fatigue IV.C1-15 (R-220) 3.1.1-3 A Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Water chemistry control - BWR
| |
| | |
| Inservice inspection IV.C1-6 (R-16) 3.1.1-13 C Loss of material Flow accelerated corrosion IV.C1-7 (R-23) 3.1.1-45 A Treated water >220°F (int) Cracking -
| |
| fatigue TLAA - metal fatigue IV.C1-15 (R-220) 3.1.1-3 A Piping and fittings >=4" NPS Pressure boundary Carbon steel Air-indoor (ext) None None I, 102 Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 85 of 488 Table 3.1.2-3: Reactor Coolant Pressure Boundary Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR
| |
| | |
| Inservice inspection IV.C1-14 (RP-27) 3.1.1-15 A Treated water (int) Cracking Water chemistry control - BWR
| |
| | |
| Inservice inspection BWR stress corrosion
| |
| | |
| cracking IV.C1-9 (R-20) 3.1.1-41 B Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Treated water (int) Loss of material Water chemistry control - BWR
| |
| | |
| Inservice inspection IV.C1-6 (R-16) 3.1.1-13 C Piping and fittings >=4" NPS Pressure boundary Carbon steel Air-indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 C Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 86 of 488 Table 3.1.2-3: Reactor Coolant Pressure Boundary Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR
| |
| | |
| Inservice inspection IV.C1-14 (RP-27) 3.1.1-15 A Cracking Water chemistry control - BWR BWR stress corrosion
| |
| | |
| cracking Inservice inspection IV.C1-9 (R-20) 3.1.1-41 B Cracking -
| |
| fatigue TLAA - metal fatigue IV.C1-15 (R-220) 3.1.1-3 A Treated water >482°F (int) Reduction of fracture toughness Inservice inspection IV.C1-3 (R-08) 3.1.1-55 E Pump casing and cover (RR) Pressure boundary CASS Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 87 of 488 Table 3.1.2-3: Reactor Coolant Pressure Boundary Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Loss of material Water chemistry control - closed
| |
| | |
| cooling water
| |
| | |
| Inservice inspection V.D2-5 (E-19) 3.2.1-28 D Treated water (int) Cracking Water chemistry control - closed
| |
| | |
| cooling water
| |
| | |
| Inservice inspection V.D2-26 (EP-44) 3.2.1-25 D Pump cover thermal barrier (RR) Pressure boundary CASS Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Loss of material Water chemistry control - BWR
| |
| | |
| One-time inspection IV.C1-14 (RP-27) 3.1.1-15 A Cracking Water chemistry control - BWR
| |
| | |
| One-time inspection IV.C1-9 (R-20) 3.1.1-41 E Cracking -
| |
| fatigue TLAA - metal fatigue IV.C1-15 (R-220) 3.1.1-3 A Restrictors (MS) Flow control CASS Treated water >482°F (int) Reduction of fracture toughness One-time inspection IV.C1-2 (R-52) 3.1.1-57 E Nitrogen (int) None None IV.E-5 (RP-07) 3.1.1-86 A Rupture disc (CRD) Pressure boundary Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 88 of 488 Table 3.1.2-3: Reactor Coolant Pressure Boundary Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Treated water (int) Loss of material Water chemistry control - BWR IV.C1-6 (R-16) 3.1.1-13 C Nitrogen (int) None None V.F-18 (EP-7) 3.2.1-56 C Carbon steel Air-indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 C Loss of material Water chemistry control - BWR IV.C1-14 (RP-27) 3.1.1-15 A Treated water (int) Cracking Water chemistry control - BWR
| |
| | |
| One-time inspection IV.C1-1 (R-03) 3.1.1-48 E, 105 Nitrogen (int) None None IV.E-5 (RP-07) 3.1.1-86 A Tank (CRD accumulator) Pressure boundary Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 89 of 488 Table 3.1.2-3: Reactor Coolant Pressure Boundary Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR IV.C1-14 (RP-27) 3.1.1-15 A Cracking Water chemistry control - BWR
| |
| | |
| One-time inspection IV.C1-1 (R-03) 3.1.1-48 E, 105 Treated water >270°F (int) Cracking -
| |
| fatigue TLAA - metal fatigue IV.C1-15 (R-220) 3.1.1-3 A Thermowells <4" NPS (all systems) Pressure boundary Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Loss of material Water chemistry control - BWR IV.C1-14 (RP-27) 3.1.1-15 A Cracking Water chemistry control - BWR
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| Inservice inspection BWR stress corrosion
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| cracking IV.C1-9 (R-20) 3.1.1-41 B Treated water >270°F (int) Cracking -
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| fatigue TLAA - metal fatigue IV.C1-15 (R-220) 3.1.1-3 A Thermowells
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| > 4" NPS (all systems) Pressure boundary Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 90 of 488 Table 3.1.2-3: Reactor Coolant Pressure Boundary Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR IV.C1-6 (R-16) 3.1.1-13 C Treated water >220°F (int) Cracking -
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| fatigue TLAA - metal fatigue IV.C1-15 (R-220) 3.1.1-3 A Carbon steel Air-indoor (ext) None None I, 102 Loss of material Water chemistry control - BWR IV.C1-14 (RP-27) 3.1.1-15 A Cracking Water chemistry control - BWR
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| | |
| One-time inspection IV.C1-1 (R-03) 3.1.1-48 E, 105 Cracking -
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| fatigue TLAA - metal fatigue IV.C1-15 (R-220) 3.1.1-3 A Treated water >482°F (int) Reduction of fracture toughness One time inspection IV.C1-3 (R-08) 3.1.1-55 E Valve bodies <4" NPS Pressure boundary CASS Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 91 of 488 Table 3.1.2-3: Reactor Coolant Pressure Boundary Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR IV.C1-14 (RP-27) 3.1.1-15 A Cracking Water chemistry control - BWR
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| | |
| One-time inspection IV.C1-1 (R-03) 3.1.1-48 E, 105 Treated water >270°F (int) Cracking -
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| fatigue TLAA - metal fatigue IV.C1-15 (R-220) 3.1.1-3 A Valve bodies <4" NPS (continued) Pressure boundary Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Treated water (int) Loss of material Water chemistry control - BWR IV.C1-6 (R-16) 3.1.1-13 C Carbon steel Air-indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 C Loss of material Water chemistry control - BWR IV.C1-14 (RP-27) 3.1.1-15 A Treated water (int) Cracking Water chemistry control - BWR
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| One-time inspection IV.C1-1 (R-03) 3.1.1-48 E, 105 Valve bodies <4" NPS Pressure boundary CASS Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 92 of 488 Table 3.1.2-3: Reactor Coolant Pressure Boundary Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR IV.C1-14 (RP-27) 3.1.1-15 A Treated water (int) Cracking Water chemistry control - BWR
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| One-time inspection IV.C1-1 (R-03) 3.1.1-48 E, 105 Valve bodies <4" NPS (continued) Pressure boundary Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Nitrogen (int) None None IV.E-5 (RP-07) 3.1.1-86 A Valve bodies <4" NPS (CRD) Pressure boundary Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Loss of material Water chemistry control - BWR
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| Inservice inspection IV.C1-14 (RP-27) 3.1.1-15 A Cracking Water chemistry control - BWR
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| Inservice inspection BWR stress corrosion
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| cracking IV.C1-9 (R-20) 3.1.1-41 B Treated water >270°F (int) Cracking -
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| fatigue TLAA - metal fatigue IV.C1-15 (R-220) 3.1.1-3 A Valve bodies >
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| 4" NPS Pressure boundary Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 93 of 488 Table 3.1.2-3: Reactor Coolant Pressure Boundary Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Water chemistry control - BWR
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| | |
| Inservice inspection IV.C1-6 (R-16) 3.1.1-13 C Loss of material Flow accelerated corrosion IV.C1-7 (R-23) 3.1.1-45 A Treated water >220°F (int) Cracking -
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| fatigue TLAA - metal fatigue IV.C1-15 (R-220) 3.1.1-3 A Carbon steel Air-indoor (ext) None None I, 102 Loss of material Water chemistry control - BWR
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| Inservice inspection IV.C1-14 (RP-27) 3.1.1-15 A Cracking Water chemistry control - BWR
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| | |
| Inservice inspection BWR stress corrosion
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| | |
| cracking IV.C1-9 (R-20) 3.1.1-41 B Cracking -
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| fatigue TLAA - metal fatigue IV.C1-15 (R-220) 3.1.1-3 A Treated water >482°F (int) Reduction of fracture toughness Inservice inspection IV.C1-3 (R-08) 3.1.1-55 E Valve bodies >
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| 4" NPS (continued) Pressure boundary CASS Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Vermont Yankee License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 94 of 488 Table 3.1.2-3: Reactor Coolant Pressure Boundary Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Program NUREG-1801 Vol. 2 Item Table 1 Item Notes Loss of material Water chemistry control - BWR
| |
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| Inservice inspection IV.C1-14 (RP-27) 3.1.1-15 A Treated water (int) Cracking Water chemistry control - BWR
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| | |
| Inservice inspection BWR stress corrosion
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| | |
| cracking IV.C1-9 (R-20) 3.1.1-41 B Pressure boundary Stainless steel Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A Treated water (int) Loss of material Water chemistry control - BWR
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| Inservice inspection IV.C1-6 (R-16) 3.1.1-13 C Carbon steel Air-indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 C Loss of material Water chemistry control - BWR
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| Inservice inspection IV.C1-14 (RP-27) 3.1.1-15 A Treated water (int) Cracking Water chemistry control - BWR
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| Inservice inspection BWR stress corrosion
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| cracking IV.C1-9 (R-20) 3.1.1-41 B Valve bodies >
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| 4" NPS (continued) Pressure boundary CASS Air-indoor (ext) None None IV.E-2 (RP-04) 3.1.1-86 A
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 95 of 488Aging Management Review Summary3.2ENGINEERED SAFETY FEATURES SYSTEMS3.2.1IntroductionThis section provides the results of the aging management reviews for components in the engineered safety features (ESF) systems that are subject to aging management review. The following systems are addressed in this section (system descriptions are available in the referenced [LRA] sections).
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| *residual heat removal system (Section 2.3.2.1)
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| *core spray system (Section 2.3.2.2)
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| *automatic depressurization system (Section 2.3.2.3)
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| *high pressure coolant injection system (Section 2.3.2.4)
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| *reactor core isolation cooling system (Section 2.3.2.5)
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| *standby gas treatment system (Section 2.3.2.6)
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| *primary containment penetrations (Section 2.3.2.7)Table3.2.1
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| , Summary of Aging Management Programs for Engineered Safety Features Evaluated in Chapter V of NUREG-1801, provides the summary of the programs evaluated in NUREG-1801 for the engineered safety features component groups. This t able uses the format described in the introduction to Section 3. Hyperlinks are provided to the program evaluations in Appendix B
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| .3.2.2ResultsThe following system tables summarize the results of aging management reviews and the NUREG-1801 comparison for systems in the ESF system group.
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| *Table3.2.2-1Residual Heat Removal System-Summary of Aging Management Evaluation
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| *Table3.2.2-2Core Spray System-Summary of Aging Management Evaluation
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| *Table3.2.2-3Automatic Depressurization System-Summary of Aging Management Evaluation
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| *Table3.2.2-4High Pressure Coolant Injection System-Summary of Aging Management Evaluation
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| *Table3.2.2-5Reactor Core Isolation Cooling System-Summary of Aging Management Evaluation
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| *Table3.2.2-6Standby Gas Treatment System-Summary of Aging Management Evaluation
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| *Table3.2.2-7Primary Containment Penetrations-Summary of Aging Management Evaluation Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 96 of 488Aging Management Review Summary3.2.2.1Materials, Environment, Aging Effects Requiring Management and Aging Management ProgramsThe following sections list the materials, environments, aging effects requiring management, and aging management programs for the ESF systems. Programs are described in Appendix B. Further details are provided in the system tables.3.2.2.1.1Residual Heat Removal System Materials Residual heat removal system components are constructed of the following materials.
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| *carbon steel
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| *copper alloy > 15% zinc
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| *gray cast iron
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| *stainless steelEnvironmentResidual heat removal system components are exposed to the following environments.
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| *air-indoor
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| *raw water
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| *treated water
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| *treated water > 270°FAging Effects Requiring ManagementThe following aging effects associated with the residual heat removal system require management.
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| *cracking*cracking-fatigue
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| *fouling*loss of material
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| *loss of material - wearAging Management ProgramsThe following aging management programs manage the aging effects for the residual heat removal components.
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| *selective leaching program
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| *service water integrity
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| *system walkdown
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| *water chemistry control-BWR
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| *water chemistry control-closed cooling water Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 97 of 488Aging Management Review Summary3.2.2.1.2Core Spray System MaterialsCore spray system components are constructed of the following materials.
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| *carbon steel
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| *stainless steelEnvironmentCore spray system components are exposed to the following environments.
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| *air-indoor
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| *treated waterAging Effects Requiring ManagementThe following aging effects associated with the core spray system require management.
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| *loss of materialAging Management ProgramsThe following aging management programs manage the aging effects for the core spray system components.
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| *system walkdown
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| *water chemistry control-BWR3.2.2.1.3Automatic Depressurization System MaterialsAutomatic depressurization system components are constructed of the following materials.
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| *carbon steel
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| *stainless steelEnvironmentAutomatic depressurization system components are exposed to the following environments.
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| *air-indoor
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| *steam > 220°F
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| *steam > 270°F
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| *treated water Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 98 of 488Aging Management Review SummaryAging Effects Requiring ManagementThe following aging effects associated with the automatic depressurization system require management.
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| *cracking-fatigue
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| *loss of materialAging Management ProgramsThe following aging management programs manage the aging effects for the automatic depressurization system components.
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| *system walkdown
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| *water chemistry control-BWR3.2.2.1.4High Pressure Coolant Injection System MaterialsHigh pressure coolant injection system components are constructed of the following materials.
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| *carbon steel
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| *copper alloy > 15% zinc
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| *glass*stainless steelEnvironmentHigh pressure coolant injection system components are exposed to the following environments.
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| *air-indoor
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| *air-outdoor
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| *air-untreated
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| *lube oil*treated water
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| *treated water > 140°F
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| *steam > 220°F
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| *steam > 270°F Aging Effects Requiring ManagementThe following aging effects associated with the high pressure coolant injection system require management.
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| *cracking*cracking-fatigue
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| *fouling*loss of material
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| *loss of material-wear Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 99 of 488Aging Management Review SummaryAging Management ProgramsThe following aging management programs manage the aging effects for the high pressure coolant injection system components.
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| *flow-accelerated corrosion
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| *heat exchanger monitoring
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| *oil analysis
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| *periodic surveillance and preventive maintenance
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| *selective leaching
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| *system walkdown
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| *water chemistry control-BWR3.2.2.1.5Reactor Core Isolation Cooling System MaterialsReactor core isolation cooling system components are constructed of the following materials.
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| *aluminum*carbon steel
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| *copper alloy > 15% zinc
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| *gray cast iron
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| *glass*stainless steelEnvironmentReactor core isolation cooling system components are exposed to the following environments.
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| *air-indoor
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| *air-outdoor
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| *lube oil*treated water
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| *treated water > 140°F
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| *treated water > 220°F
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| *sand/concrete
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| *steam > 220°F
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| *steam > 270°FAging Effects Requiring ManagementThe following aging effects associated with the reactor core isolation cooling system require management.
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| *cracking*cracking-fatigue
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| *fouling*loss of material
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| *loss of material-wear Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 100 of 488Aging Management Review SummaryAging Management ProgramsThe following aging management programs manage the aging effects for the reactor core isolation cooling system components.
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| *flow-accelerated corrosion
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| *heat exchanger monitoring
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| *oil analysis
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| *selective leaching
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| *water chemistry control-auxiliary systems
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| *water chemistry control-BWR
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| *system walkdown3.2.2.1.6Standby Gas Treatment System MaterialsStandby gas treatment system components are constructed of the following materials.
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| *carbon steel
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| *copper alloy > 15% zinc
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| *fiberglass
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| *stainless steelEnvironmentStandby gas treatment system components are exposed to the following environments.
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| *air-indoor
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| *raw water*soilAging Effects Requiring ManagementThe following aging effects associated with the standby gas treatment system require management.
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| *loss of materialAging Management ProgramsThe following aging management programs manage the aging effects for the standby gas treatment system components.
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| *buried pipe inspection
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| *one-time inspection
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| *periodic surveillance and preventive maintenance
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| *system walkdown Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 101 of 488Aging Management Review Summary3.2.2.1.7Primary Containment Penetrations MaterialsPrimary containment penetration components are constructed of the following materials.
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| *carbon steel
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| *stainless steelEnvironmentPrimary containment penetration components are exposed to the following environments.
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| *air-indoor
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| *gas*treated water
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| *untreated waterAging Effects Requiring ManagementThe following aging effects associated with the primary containment penetrations require management.
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| *loss of materialAging Management ProgramsThe following aging management programs manage the aging effects for the primary containment penetration components.
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| *containment leak rate
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| *system walkdown
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| *water chemistry control-BWR3.2.2.2Further Evaluation of Agi ng Management as Recommended by NUREG-1801NUREG-1801 indicates that further evaluation is necessary for certain aging effects and other issues. Section 3.2.2.2 of NUREG-1800 discusses these aging effects th at require further evaluation. The following sections are numbered in accordance with the discussions in NUREG-1800 and explain the VYNPS approach to these areas requiring further evaluation. Programs are described in Appendix B
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| .3.2.2.2.1Cumulative Fatigue DamageWhere identified as an aging effect requiring management, the analysis of fatigue is a TLAA as defined in 10 CFR 54.3. TLAAs are evaluated in accordance with 10 CFR 54.21(c). Evaluation of this TLAA is addressed in Section 4.3.
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 102 of 488Aging Management Review Summary3.2.2.2.2Cracking due to Underclad CrackingThis item covers underclad cracking of cladding on PWR steel pump casings. VYNPS is a BWR and does not have charging pumps or steel pump casings with stainless steel cladding. This item is not applicable to VYNPS.3.2.2.2.3Loss of Material due to Pitting and Crevice Corrosion1.Loss of material due to pitting and crevice corrosion for internal surfaces of stainless steel piping and components in ESF systems exposed to treated water is managed at VYNPS by the water chemistry control-BWR program. The effectiveness of the water chemistry control-BWR program will be confirmed by the one-time inspection program through an inspection of a representative sample of components including areas of stagnant flow.2.At VYNPS there are no stainless steel ESF components that are in contact with a soil environment. This item is therefore not applicable to VYNPS.3.Loss of material from pitting and crevice corrosion for BWR stainless steel and aluminum piping and piping components exposed to treated water at VYNPS is managed by the water chemistry control-BWR program. The effectiveness of the water chemistry control-BWR program will be confirmed by the one-time inspection program through an inspection of a representative sample of components including areas of stagnant flow.4.Loss of material from pitting and crevice corrosion could occur for copper alloy and stainless steel piping and components in ESF systems at VYNPS that are exposed to lubricating oil. Loss of material is managed by the oil analysis program, which includes periodic sampling and analysis of lubricating oil to maintain contaminants within acceptable limits, thereby preserving an environment that is not conducive to corrosion. Operating experience at VYNPS has confirmed the effectiveness of this program in maintaining contaminants within limits such that corrosion has not and will not affect the intended functions of these components.5.Loss of material from pitting and crevice corrosion could occur for partially encased stainless steel tanks exposed to raw water due to cracking of the perimeter seal from weathering. At VYNPS there are no outdoor stainless steel tanks in the ESF systems. This item is therefore not applicable to VYNPS.6.Loss of material from pitting and crevice corrosion for BWR stainless steel piping and piping components internally exposed to condensation at VYNPS is managed
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| by the periodic surveillance and preventive maintenance program. This program uses visual and other NDE techniques to manage loss of material for these components.
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 103 of 488Aging Management Review Summary3.2.2.2.4Reduction of Heat Transfer due to Fouling1.Reduction of heat transfer due to fouling for copper alloy heat exchanger tubes exposed to lubricating oil in ESF systems at VYNPS is managed by the oil analysis program. There are no stainless steel or steel heat exchanger tubes exposed to lubricating oil in the ESF systems. This program includes periodic sampling and analysis of lubricating oil to maintain contaminants within acceptable limits, thereby preserving an environment that is not conducive to fouling. Operating experience at VYNPS has confirmed the effectiveness of this program in maintaining contaminants within limits such that fouling has not and will not affect the intended functions of these components.2.Reduction of heat transfer due to fouling for stainless steel heat exchanger tubes exposed to treated water in ESF systems at VYNPS is managed by the water chemistry control-BWR program. The effectiveness of the water chemistry control-BWR program will be confirmed by the one-time inspection program through an inspection of a representative sample of components crediting this program including areas of stagnant flow.3.2.2.2.5Hardening and Loss of Strength due to Elastomer DegradationAt VYNPS there are no elastomeric components in the ESF systems. This item is not applicable to VYNPS.3.2.2.2.6Loss of Material due to ErosionThis discussion refers to stainless steel high pressure safety injection (HPSI) pump miniflow recirculation orifice exposed to treated borated water. VYNPS is a BWR and has no HPSI pump miniflow orifice and as such this item is not applicable.3.2.2.2.7Loss of Material due to General Corrosion and Fouling.This item refers to loss of material due to general corrosion and fouling occurring for steel drywell and suppression chamber spray system nozzle and flow orifice internal surfaces exposed to air-indoor uncontrolled (internal). At VYNPS the spray nozzles are copper alloy and are not subject to loss of material due to general corrosion in an indoor air environment. There are also no orifices in ECCS systems exposed to an indoor air environment (internal).3.2.2.2.8Loss of Material due to General, Pitting, and Crevice Corrosion1.Loss of material due to general, pitting and crevice corrosion for BWR steel piping and components in ESF systems exposed to treated water is managed at VYNPS by the water chemistry control-BWR program. The effectiveness of the water chemistry control-BWR program will be confirmed by the one-time inspection program through an inspection of a representative sample of components crediting this program including areas of stagnant flow.2.The loss of material due to general, pitting and crevice corrosion for internal surfaces of primary containment penetration steel piping and components Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 104 of 488Aging Management Review Summaryexposed to treated water is managed at VYNPS by the water chemistry control-BWR program. The effectiveness of the water chemistry control-BWR program will be confirmed by the one-time inspection program through an inspection of a representative sample of components including areas of stagnant flow.3.Loss of material due to general, pitting and crevice corrosion for steel piping and components in ESF systems exposed to lubricating oil is managed by the oil analysis program. This program includes periodic sampling and analysis of lubricating oil to maintain contaminants within acceptable limits, thereby preserving an environment that is not conducive to corrosion. Operating experience at VYNPS has confirmed the effectiveness of this program in maintaining contaminants within limits such that corrosion has not and will not affect the intended functions of these components.3.2.2.2.9Loss of Material due to General, Pitting, Crevice, and Microbiologically-Influenced Corrosion (MIC)Loss of material due to general, pitting, crevice, and MIC for steel (with or without coating or wrapping) piping and piping components buried in soil in ESF systems at VYNPS is managed by the buried piping inspection program. There are no buried tanks in the ESF systems. The buried piping inspection program will include (a) preventive measures to mitigate corrosion and (b) inspections to manage the effects of corrosion on the pressure-retaining capability of buried carbon steel components. Buried components will be inspected when excavated during maintenance. An inspection will be performed within 10 years of entering the period of extended operation, unless an opportunistic inspection occurred within this ten-year period.3.2.2.2.10Quality Assurance for Aging Management of Nonsafety-Related ComponentsSee Appendix B Section B.0.3 for discussion of VYNPS quality assurance procedures and administrative controls for aging management programs.3.2.2.3Time-Limited Aging AnalysesThe only time-limited aging analysis (TLAA) identified for the ESF systems components is metal fatigue. This is evaluated in Section 4.3.
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 105 of 488Aging Management Review Summary3.2.3ConclusionThe ESF system components that are subject to aging management review have been identified in accordance with the requirements of 10CFR54.21. The aging management programs selected to manage the effects of aging on ESF components are identified in Section 3.2.2.1 and in the following tables. A description of these aging management programs is provided in Appendix B, along with the demonstration that the identified aging effects will be managed for the period of extended operation.Therefore, based on the demonstrations provided in Appendix B, the effects of aging associated with the ESF components will be managed such that there is reasonable assurance that the intended functions will be maintained consistent with the current licensing basis during the period of extended operation.
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| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 106 of 488 Table 3.2.1 Summary of Aging Management Programs for Engineered Safety Features Evaluated in Chapter V of NUREG-1801 Table 3.2.1: Engineered Safety Features, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
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| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.2.1-1 Steel and stainless steel piping, piping
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| components, and
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| piping elements in
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| emergency core
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| cooling system Cumulative fatigue damage TLAA, evaluated in accordance with 10 CFR
| |
| | |
| 54.21(c) Yes, TLAA Fatigue is a TLAA.
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| See Section 3.2.2.2.1 3.2.1-2 PWR only 3.2.1-3 Stainless steel containment isolation
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| piping and
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| components internal
| |
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| surfaces exposed to
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| | |
| treated water Loss of material due to pitting and
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| crevice corrosion Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
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| | |
| be evaluated Consistent with NUREG-1801. The loss of material in stainless steel
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| | |
| components is managed by the
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| water chemistry control - BWR program. The one-time inspection program will be used to verify the
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| | |
| effectiveness of the water
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| | |
| chemistry program.
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| See Section 3.2.2.2.3.1 3.2.1-4 Stainless steel piping, piping
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| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to soil Loss of material due to pitting and
| |
| | |
| crevice corrosion A plant-specific aging management program is
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| | |
| to be evaluated. Yes, plant specific Not applicable. No stainless steel components in the ESF systems
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| | |
| are exposed to soil.
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| | |
| See Section 3.2.2.2.3.2 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 107 of 488 Table 3.2.1: Engineered Safety Features, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
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| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.2.1-5 Stainless steel and aluminum piping, piping components, and piping elements
| |
| | |
| exposed to treated
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| water Loss of material due to pitting and
| |
| | |
| crevice corrosion Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Consistent with NUREG-1801. The loss of material in stainless steel
| |
| | |
| and aluminum components is
| |
| | |
| managed by the water chemistry control - BWR program. The one-time inspection program will be used to verify the effectiveness of
| |
| | |
| the water chemistry program.
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| | |
| See Section 3.2.2.2.3.3 3.2.1-6 Stainless steel and copper alloy piping, piping components, and piping elements
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| exposed to
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| lubricating oil Loss of material due to pitting and
| |
| | |
| crevice corrosion Lubricating Oil Analysis and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated The oil analysis program manages loss of material in stainless and
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| | |
| copper alloy components.
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| See Section 3.2.2.2.3.4 3.2.1-7 Partially encased stainless steel tanks
| |
| | |
| with breached
| |
| | |
| moisture barrier
| |
| | |
| exposed to raw
| |
| | |
| water Loss of material due to pitting and
| |
| | |
| crevice corrosion A plant-specific aging management program is
| |
| | |
| to be evaluated for pitting
| |
| | |
| and crevice corrosion of
| |
| | |
| tank bottoms because
| |
| | |
| moisture and water can
| |
| | |
| egress under the tank due
| |
| | |
| to cracking of the
| |
| | |
| perimeter seal from
| |
| | |
| weathering. Yes, plant specific Not applicable. There are no outdoor stainless steel tanks in the ESF systems.
| |
| | |
| See Section 3.2.2.2.3.5 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 108 of 488 Table 3.2.1: Engineered Safety Features, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.2.1-8 Stainless steel piping, piping
| |
| | |
| components, piping
| |
| | |
| elements, and tank
| |
| | |
| internal surfaces
| |
| | |
| exposed to
| |
| | |
| condensation (internal)
| |
| Loss of material due to pitting and
| |
| | |
| crevice corrosion A plant-specific aging management program is
| |
| | |
| to be evaluated. Yes, plant specific The periodic surveillance and preventive maintenance program manages loss of material for
| |
| | |
| internal stainless steel surfaces
| |
| | |
| exposed to condensation in ESF systems.
| |
| | |
| See Section 3.2.2.2.3.6 3.2.1-9 Steel, stainless steel, and copper alloy
| |
| | |
| heat exchanger
| |
| | |
| tubes exposed to
| |
| | |
| lubricating oil Reduction of heat transfer due to
| |
| | |
| fouling Lubricating Oil Analysis and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated The oil analysis program manages reduction of heat transfer in copper
| |
| | |
| alloy heat exchanger tubes. There
| |
| | |
| are no stainless steel or steel heat
| |
| | |
| exchanger tubes exposed to lube
| |
| | |
| oil in the ESF systems.
| |
| | |
| See Section 3.2.2.2.4.1 3.2.1-10 Stainless steel heat exchanger tubes
| |
| | |
| exposed to treated
| |
| | |
| water Reduction of heat transfer due to
| |
| | |
| fouling Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Consistent with NUREG-1801. The reduction of heat transfer in
| |
| | |
| stainless steel heat exchanger
| |
| | |
| tubes is managed by the water chemistry control - BWR program.
| |
| The one-time inspection program
| |
| | |
| will be used to verify the
| |
| | |
| effectiveness of the water
| |
| | |
| chemistry program.
| |
| | |
| See Section 3.2.2.2.4.2 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 109 of 488 Table 3.2.1: Engineered Safety Features, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.2.1-11 Elastomer seals and components in
| |
| | |
| standby gas
| |
| | |
| treatment system
| |
| | |
| exposed to air -
| |
| | |
| indoor uncontrolled Hardening and loss of strength due to
| |
| | |
| elastomer
| |
| | |
| degradation A plant-specific aging management program is
| |
| | |
| to be evaluated.
| |
| Yes, plant specific
| |
| : 5) Not applicable. There are no elastomeric components in the ESF systems.
| |
| | |
| See Section 3.2.2.2.5 3.2.1-12 PWR only 3.2.1-13 Steel drywell and suppression
| |
| | |
| chamber spray
| |
| | |
| system nozzle and
| |
| | |
| flow orifice internal
| |
| | |
| surfaces exposed to
| |
| | |
| air - indoor
| |
| | |
| uncontrolled (internal)
| |
| Loss of material due to general
| |
| | |
| corrosion and
| |
| | |
| fouling A plant-specific aging management program is
| |
| | |
| to be evaluated. Yes, plant specific Not applicable. There are no steel nozzles or flow orifices internally
| |
| | |
| exposed to air in the drywell and
| |
| | |
| suppression chamber spray flow
| |
| | |
| paths.
| |
| | |
| See Section 3.2.2.2.7 3.2.1-14 Steel piping, piping components, and
| |
| | |
| piping elements
| |
| | |
| exposed to treated
| |
| | |
| water Loss of material due to general, pitting, and crevice
| |
| | |
| corrosion Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Consistent with NUREG-1801. The loss of material in steel
| |
| | |
| components is managed by the
| |
| | |
| water chemistry control - BWR program. The one-time inspection program will be used to verify the
| |
| | |
| effectiveness of the water
| |
| | |
| chemistry program.
| |
| | |
| See Section 3.2.2.2.8.1 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 110 of 488 Table 3.2.1: Engineered Safety Features, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.2.1-15 Steel containment isolation piping, piping components, and piping elements
| |
| | |
| internal surfaces
| |
| | |
| exposed to treated
| |
| | |
| water Loss of material due to general, pitting, and crevice
| |
| | |
| corrosion Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Consistent with NUREG-1801. The loss of material in steel
| |
| | |
| containment isolation components
| |
| | |
| exposed to treated water is
| |
| | |
| managed by the water chemistry control - BWR program. The one-time inspection program will be used to verify the effectiveness of
| |
| | |
| the water chemistry program.
| |
| | |
| See Section 3.2.2.2.8.2 3.2.1-16 Steel piping, piping components, and
| |
| | |
| piping elements
| |
| | |
| exposed to
| |
| | |
| lubricating oil Loss of material due to general, pitting, and crevice
| |
| | |
| corrosion Lubricating Oil Analysis and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated The oil analysis program, with exceptions to NUREG-1801, manages loss of material in steel
| |
| | |
| components.
| |
| | |
| See Section 3.2.2.2.8.3 3.2.1-17 Steel (with or without coating or wrapping)
| |
| | |
| piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| buried in soil Loss of material due to general, pitting, crevice, and
| |
| | |
| microbiologically-
| |
| | |
| influenced corrosion Buried Piping and Tanks Surveillance
| |
| | |
| or
| |
| | |
| Buried Piping and Tanks
| |
| | |
| Inspection No
| |
| | |
| Yes, detection of
| |
| | |
| aging effects and
| |
| | |
| operating
| |
| | |
| experience are to
| |
| | |
| be further
| |
| | |
| evaluated Consistent with NUREG-1801. The loss of material of buried steel
| |
| | |
| piping will be managed by the
| |
| | |
| buried piping inspection program.
| |
| There are no buried tanks in the ESF systems.
| |
| | |
| See Section 3.2.2.2.9 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 111 of 488 Table 3.2.1: Engineered Safety Features, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.2.1-18 Stainless steel piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to treated
| |
| | |
| water >60°C
| |
| | |
| (>140°F) Cracking due to stress corrosion
| |
| | |
| cracking and
| |
| | |
| intergranular stress
| |
| | |
| corrosion cracking BWR Stress Corrosion Cracking and Water
| |
| | |
| Chemistry No The water chemistry control - BWR program manages cracking of
| |
| | |
| stainless steel components. None
| |
| | |
| of the ESF system components are
| |
| | |
| within the scope of the BWR stress
| |
| | |
| corrosion cracking program (all
| |
| | |
| relevant components are included
| |
| | |
| in the reactor vessel, internals and
| |
| | |
| reactor coolant systems). The one-time inspection program will be used to verify the effectiveness of
| |
| | |
| the water chemistry program. 3.2.1-19 Steel piping, piping components, and
| |
| | |
| piping elements
| |
| | |
| exposed to steam or
| |
| | |
| treated water Wall thinning due to flow-accelerated
| |
| | |
| corrosion Flow-Accelerated Corrosion No Consistent with NUREG-1801. The flow accelerated corrosion program manages wall thinning in steel
| |
| | |
| piping. 3.2.1-20 Cast austenitic stainless steel
| |
| | |
| piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to treated
| |
| | |
| water (borated or
| |
| | |
| unborated) >250°C
| |
| | |
| (>482°F) Loss of fracture toughness due to
| |
| | |
| thermal aging
| |
| | |
| embrittlement Thermal Aging Embrittlement of CASS No Not applicable. There are no CASS components in the ESF systems.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 112 of 488 Table 3.2.1: Engineered Safety Features, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.2.1-21 High-strength steel closure bolting
| |
| | |
| exposed to air with
| |
| | |
| steam or water
| |
| | |
| leakage Cracking due to cyclic loading, stress corrosion
| |
| | |
| cracking Bolting Integrity No Not applicable. High strength steel closure bolting is not used in ESF systems. 3.2.1-22 Steel closure bolting exposed to air with
| |
| | |
| steam or water
| |
| | |
| leakage Loss of material due to general
| |
| | |
| corrosion Bolting Integrity No Not applicable. All steel closure bolting exposed to air (external) is
| |
| | |
| conservatively assumed to be
| |
| | |
| exposed to indoor uncontrolled air (see Item Number 3.2.1-23). 3.2.1-23 Steel bolting and closure bolting
| |
| | |
| exposed to air -
| |
| | |
| outdoor (external), or
| |
| | |
| air - indoor
| |
| | |
| uncontrolled (external)
| |
| Loss of material due to general, pitting, and crevice
| |
| | |
| corrosion Bolting Integrity No The system walkdown program manages loss of material for steel
| |
| | |
| bolting through the use of visual
| |
| | |
| inspections that are performed at
| |
| | |
| least once per refueling cycle. 3.2.1-24 Steel closure bolting exposed to air -
| |
| | |
| indoor uncontrolled (external)
| |
| Loss of preload due to thermal effects, gasket creep, and
| |
| | |
| self-loosening Bolting Integrity No Not applicable. Loss of preload is a design driven effect and not an
| |
| | |
| aging effect requiring management.
| |
| | |
| Bolting at VYNPS is standard grade
| |
| | |
| B7 carbon steel, or similar material, except in rare specialized
| |
| | |
| applications such as where
| |
| | |
| stainless steel bolting is utilized.
| |
| | |
| Loss of preload due to stress
| |
| | |
| relaxation (creep) would only be a
| |
| | |
| concern in very high temperature
| |
| | |
| applications (> 700°F) as stated in VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 113 of 488 Table 3.2.1: Engineered Safety Features, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion the ASME Code, Section II, Part D, Table 4. No VYNPS bolting
| |
| | |
| operates at >700°F. Therefore, loss
| |
| | |
| of preload due to stress relaxation (creep) is not an applicable aging effect for ESF systems. Other
| |
| | |
| issues that may result in pressure
| |
| | |
| boundary joint leakage are
| |
| | |
| improper design or maintenance
| |
| | |
| issues. Improper bolting
| |
| | |
| application (design) and
| |
| | |
| maintenance issues are current
| |
| | |
| plant operational concerns and not
| |
| | |
| related to aging effects or
| |
| | |
| mechanisms that require
| |
| | |
| management during the period of
| |
| | |
| extended operation. To address
| |
| | |
| these bolting operational concerns, VYNPS has taken actions to
| |
| | |
| address NUREG-1339, "Resolution to Generic Safety Issue
| |
| | |
| 29: Bolting Degradation or Failure
| |
| | |
| in Nuclear Power Plants." These
| |
| | |
| actions include implementation of
| |
| | |
| good bolting practices in
| |
| | |
| accordance with EPRI NP-5067, Good Bolting Practices. Proper
| |
| | |
| joint preparation and make-up in
| |
| | |
| accordance with industry standards
| |
| | |
| is expected to preclude loss of
| |
| | |
| preload. This has been confirmed
| |
| | |
| by operating experience at VYNPS.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 114 of 488 Table 3.2.1: Engineered Safety Features, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.2.1-25 Stainless steel piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to closed
| |
| | |
| cycle cooling water
| |
| | |
| >60°C (>140°F)
| |
| Cracking due to stress corrosion
| |
| | |
| cracking Closed-Cycle Cooling Water System No Consistent with NUREG-1801. The water chemistry control - closed
| |
| | |
| cooling water program manages cracking for stainless steel
| |
| | |
| components exposed to closed
| |
| | |
| cycle cooling water >140°F. The
| |
| | |
| only components to which this
| |
| | |
| NUREG-1801 line item applies are
| |
| | |
| the reactor recirculation pump
| |
| | |
| cover thermal barriers listed in
| |
| | |
| Table 3.1.2-3. 3.2.1-26 Steel piping, piping components, and
| |
| | |
| piping elements
| |
| | |
| exposed to closed
| |
| | |
| cycle cooling water Loss of material due to general, pitting, and crevice
| |
| | |
| corrosion Closed-Cycle Cooling Water System No Not applicable. Steel containment isolation components exposed to
| |
| | |
| closed cycle cooling water are all
| |
| | |
| part of other safety systems that
| |
| | |
| are evaluated separately. 3.2.1-27 Steel heat exchanger
| |
| | |
| components
| |
| | |
| exposed to closed
| |
| | |
| cycle cooling water Loss of material due to general, pitting, crevice, and
| |
| | |
| galvanic corrosion Closed-Cycle Cooling Water System No Consistent with NUREG-1801. The water chemistry control - closed
| |
| | |
| cooling water program manages loss of material for steel
| |
| | |
| components. 3.2.1-28 Stainless steel piping, piping
| |
| | |
| components, piping
| |
| | |
| elements, and heat
| |
| | |
| exchanger
| |
| | |
| components
| |
| | |
| exposed to closed-
| |
| | |
| cycle cooling water Loss of material due to pitting and
| |
| | |
| crevice corrosion Closed-Cycle Cooling Water System No Consistent with NUREG-1801. The water chemistry control - closed
| |
| | |
| cooling water program manages loss of material for stainless steel
| |
| | |
| components.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 115 of 488 Table 3.2.1: Engineered Safety Features, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.2.1-29 Copper alloy piping, piping components, piping elements, and
| |
| | |
| heat exchanger
| |
| | |
| components
| |
| | |
| exposed to closed
| |
| | |
| cycle cooling water Loss of material due to pitting, crevice, and
| |
| | |
| galvanic corrosion Closed-Cycle Cooling Water System No Not applicable. There are no copper alloy components exposed
| |
| | |
| to closed cycle cooling water in the ESF systems. 3.2.1-30 Stainless steel and copper alloy heat
| |
| | |
| exchanger tubes
| |
| | |
| exposed to closed
| |
| | |
| cycle cooling water Reduction of heat transfer due to
| |
| | |
| fouling Closed-Cycle Cooling Water System No Consistent with NUREG-1801. The water chemistry control - closed
| |
| | |
| cooling water program manages reduction of heat transfer for
| |
| | |
| stainless steel heat exchanger
| |
| | |
| tubes There are no copper alloy
| |
| | |
| components exposed to closed
| |
| | |
| cycle cooling water in the ESF systems.. 3.2.1-31 External surfaces of steel components
| |
| | |
| including ducting, piping, ducting
| |
| | |
| closure bolting, and
| |
| | |
| containment isolation
| |
| | |
| piping external
| |
| | |
| surfaces exposed to
| |
| | |
| air - indoor
| |
| | |
| uncontrolled (external);
| |
| | |
| condensation (external) and air -
| |
| | |
| outdoor (external)
| |
| Loss of material due to general
| |
| | |
| corrosion External Surfaces Monitoring No Consistent with NUREG-1801. The system walkdown program manages loss of material for
| |
| | |
| external surfaces of steel
| |
| | |
| components.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 116 of 488 Table 3.2.1: Engineered Safety Features, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.2.1-32 Steel piping and ducting components
| |
| | |
| and internal surfaces
| |
| | |
| exposed to air -
| |
| | |
| indoor uncontrolled (Internal)
| |
| Loss of material due to general
| |
| | |
| corrosion Inspection of Internal Surfaces in Miscellaneous
| |
| | |
| Piping and Ducting
| |
| | |
| Components No The loss of material from the internal surfaces of steel
| |
| | |
| components exposed to air-indoor
| |
| | |
| is managed by the system walkdown, periodic surveillance
| |
| | |
| and preventive maintenance, fire
| |
| | |
| protection, fire water system, and one-time inspection programs.
| |
| | |
| The system walkdown program
| |
| | |
| manages loss of material for
| |
| | |
| external carbon steel components
| |
| | |
| by visual inspection of external
| |
| | |
| surfaces. For systems where
| |
| | |
| internal carbon steel surfaces are
| |
| | |
| exposed to the same environment
| |
| | |
| as external surfaces, external
| |
| | |
| surfaces condition will be
| |
| | |
| representative of internal surfaces.
| |
| | |
| Thus, loss of material on internal
| |
| | |
| carbon steel surfaces is also
| |
| | |
| managed by the system walkdown
| |
| | |
| program. 3.2.1-33 Steel encapsulation components
| |
| | |
| exposed to air-indoor
| |
| | |
| uncontrolled (internal)
| |
| Loss of material due to general, pitting, and crevice
| |
| | |
| corrosion Inspection of Internal Surfaces in Miscellaneous
| |
| | |
| Piping and Ducting
| |
| | |
| Components No Not applicable. The ESF systems include no steel encapsulation
| |
| | |
| components.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 117 of 488 Table 3.2.1: Engineered Safety Features, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.2.1-34 Steel piping, piping components, and
| |
| | |
| piping elements
| |
| | |
| exposed to
| |
| | |
| condensation (internal)
| |
| Loss of material due to general, pitting, and crevice
| |
| | |
| corrosion Inspection of Internal Surfaces in Miscellaneous
| |
| | |
| Piping and Ducting
| |
| | |
| Components No The periodic surveillance and preventive maintenance program manages loss of material for steel
| |
| | |
| components exposed internally to
| |
| | |
| condensation (untreated air in the
| |
| | |
| high pressure coolant injection system) 3.2.1-35 Steel containment isolation piping and
| |
| | |
| components internal
| |
| | |
| surfaces exposed to
| |
| | |
| raw water Loss of material due to general, pitting, crevice, and
| |
| | |
| microbiologically-
| |
| | |
| influenced
| |
| | |
| corrosion, and
| |
| | |
| fouling Open-Cycle Cooling Water System No The containment leak rate programs manages loss of material
| |
| | |
| for steel containment isolation
| |
| | |
| components exposed to untreated (raw) water. 3.2.1-36 Steel heat exchanger
| |
| | |
| components
| |
| | |
| exposed to raw
| |
| | |
| water Loss of material due to general, pitting, crevice, galvanic, and
| |
| | |
| microbiologically-
| |
| | |
| influenced
| |
| | |
| corrosion, and
| |
| | |
| fouling Open-Cycle Cooling Water System No Consistent with NUREG-1801 for heat exchanger components of the
| |
| | |
| residual heat removal system and
| |
| | |
| some piping components of the
| |
| | |
| standby gas treatment system.
| |
| | |
| The service water integrity program manages loss of material for
| |
| | |
| carbon steel components exposed
| |
| | |
| to raw water. For other piping
| |
| | |
| components of the standby gas
| |
| | |
| treatment system, the periodic surveillance and preventive
| |
| | |
| maintenance manages loss of material for carbon steel
| |
| | |
| components exposed to raw water.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 118 of 488 Table 3.2.1: Engineered Safety Features, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.2.1-37 Stainless steel piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to raw
| |
| | |
| water Loss of material due to pitting, crevice, and
| |
| | |
| microbiologically-
| |
| | |
| influenced corrosion Open-Cycle Cooling Water System No The periodic surveillance and preventive maintenance program manages loss of material for
| |
| | |
| stainless steel piping components
| |
| | |
| exposed to raw water. 3.2.1-38 Stainless steel containment isolation
| |
| | |
| piping and
| |
| | |
| components internal
| |
| | |
| surfaces exposed to
| |
| | |
| raw water Loss of material due to pitting, crevice, and
| |
| | |
| microbiologically-
| |
| | |
| influenced
| |
| | |
| corrosion, and
| |
| | |
| fouling Open-Cycle Cooling Water System No Not applicable. There are no stainless steel containment
| |
| | |
| isolation components exposed to raw water in the ESF systems. 3.2.1-39 Stainless steel heat exchanger
| |
| | |
| components
| |
| | |
| exposed to raw
| |
| | |
| water Loss of material due to pitting, crevice, and
| |
| | |
| microbiologically-
| |
| | |
| influenced
| |
| | |
| corrosion, and
| |
| | |
| fouling Open-Cycle Cooling Water System No Consistent with NUREG-1801. The service water integrity program manages loss of material for
| |
| | |
| stainless steel heat exchanger
| |
| | |
| components exposed to raw water. 3.2.1-40 Steel and stainless steel heat exchanger
| |
| | |
| tubes (serviced by
| |
| | |
| open-cycle cooling
| |
| | |
| water) exposed to
| |
| | |
| raw water Reduction of heat transfer due to
| |
| | |
| fouling Open-Cycle Cooling Water System No Consistent with NUREG-1801. The service water integrity program manages loss of material for
| |
| | |
| stainless steel heat exchanger
| |
| | |
| tubes exposed to raw water. There
| |
| | |
| are no steel heat exchanger tubes
| |
| | |
| exposed to raw water in the ESF systems.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 119 of 488 Table 3.2.1: Engineered Safety Features, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.2.1-41 Copper alloy >15%
| |
| Zn piping, piping
| |
| | |
| components, piping
| |
| | |
| elements, and heat
| |
| | |
| exchanger
| |
| | |
| components
| |
| | |
| exposed to closed
| |
| | |
| cycle cooling water Loss of material due to selective
| |
| | |
| leaching Selective Leaching of Materials No Not applicable. There are no copper alloy >15% zinc
| |
| | |
| components exposed to closed
| |
| | |
| cycle cooling water in the ESF systems. 3.2.1-42 Gray cast iron piping, piping
| |
| | |
| components, piping
| |
| | |
| elements exposed to
| |
| | |
| closed-cycle cooling
| |
| | |
| water Loss of material due to selective
| |
| | |
| leaching Selective Leaching of Materials No Consistent with NUREG-1801. The selective leaching program will manage loss of material due to
| |
| | |
| selective leaching for gray cast iron
| |
| | |
| components exposed to closed
| |
| | |
| cycle cooling water. 3.2.1-43 Gray cast iron piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to soil Loss of material due to selective
| |
| | |
| leaching Selective Leaching of Materials No Not applicable. There are no gray cast iron components exposed to soil in the ESF systems. 3.2.1-44 Gray cast iron motor cooler exposed to
| |
| | |
| treated water Loss of material due to selective
| |
| | |
| leaching Selective Leaching of Materials No Consistent with NUREG-1801. The selective leaching program will manage loss of material due to
| |
| | |
| selective leaching for gray cast iron
| |
| | |
| components exposed to treated
| |
| | |
| water. 3.2.1-45 PWR only 3.2.1-46 PWR only VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 120 of 488 Table 3.2.1: Engineered Safety Features, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.2.1-47 PWR only 3.2.1-48 PWR only 3.2.1-49 PWR only 3.2.1-50 Aluminum piping, piping components, and piping elements
| |
| | |
| exposed to air-
| |
| | |
| indoor uncontrolled (internal/external) None None NA - No AEM or AMP There are no aluminum components exposed to indoor air
| |
| | |
| in the ESF systems. The only
| |
| | |
| components to which this NUREG-
| |
| | |
| 1801 line item applies are in the
| |
| | |
| auxiliary systems. 3.2.1-51 Galvanized steel ducting exposed to
| |
| | |
| air - indoor
| |
| | |
| controlled (external) None None NA - No AEM or AMP Not applicable. Galvanized steel surfaces are evaluated as steel for the ESF systems. 3.2.1-52 Glass piping elements exposed to
| |
| | |
| air - indoor
| |
| | |
| uncontrolled (external), lubricating
| |
| | |
| oil, raw water, treated water, or
| |
| | |
| treated borated
| |
| | |
| water None None NA - No AEM or AMP Consistent with NUREG-1801.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 121 of 488 Table 3.2.1: Engineered Safety Features, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.2.1-53 Stainless steel, copper alloy, and
| |
| | |
| nickel alloy piping, piping components, and piping elements
| |
| | |
| exposed to air -
| |
| | |
| indoor uncontrolled (external) None None NA - No AEM or AMP Consistent with NUREG-1801 for steel and copper alloy components.
| |
| | |
| There are no nickel alloy
| |
| | |
| components exposed to air in the ESF systems. 3.2.1-54 Steel piping, piping components, and
| |
| | |
| piping elements
| |
| | |
| exposed to air -
| |
| | |
| indoor controlled (external) None None NA - No AEM or AMP Not applicable. There are no steel components of the ESF systems in
| |
| | |
| indoor controlled air environments.
| |
| | |
| All indoor air environments are
| |
| | |
| conservatively considered to be
| |
| | |
| uncontrolled. 3.2.1-55 Steel and stainless steel piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements in
| |
| | |
| concrete None None NA - No AEM or AMP Not applicable. There are no steel or stainless steel components in
| |
| | |
| ESF systems embedded in concrete. 3.2.1-56 Steel, stainless steel, and copper alloy
| |
| | |
| piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to gas None None NA - No AEM or AMP Consistent with NUREG-1801 for stainless steel components
| |
| | |
| exposed to gas in the ESF systems
| |
| | |
| and for steel components exposed
| |
| | |
| to gas in the reactor coolant
| |
| | |
| system. There are no copper alloy
| |
| | |
| components exposed to gas in the ESF systems. 3.2.1-57 PWR only VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 122 of 488 Notes for Tables 3,2,2-1 through 3,2,2-7 Generic notes A. Consistent with NUREG-1801 item for component, materi al, environment, aging effect and aging management program.
| |
| AMP is consistent with NUREG-1801 AMP. B. Consistent with NUREG-1801 item for component, materi al, environment, aging effect and aging management program.
| |
| AMP has exceptions to NUREG-1801 AMP. C. Component is different, but consistent with NUREG-1801 item for material, environment, aging effect and aging management program. AMP is consistent with NUREG-1801 AMP. D. Component is different, but consistent with NUREG-1801 item for material, environment, aging effect and aging management program. AMP has exceptions to NUREG-1801 AMP. E. Consistent with NUREG-1801 material, environment, and agi ng effect but a different aging management program is credited. F. Material not in NUREG-1801 for this component.
| |
| G. Environment not in NUREG-1801 for this component and material.
| |
| H. Aging effect not in NUREG-1801 for this component, material and environment combination.
| |
| I. Aging effect in NUREG-1801 for this component, material and environment combination is not applicable.
| |
| J. Neither the component nor the material and environment combination is evaluated in NUREG-1801.
| |
| Plant-specific notes 201. The environment of air - untreated (int) includes moisture with the potential for condensation on the internal surfaces of the components. 202. This treated water environment is the equivalent of the NUREG-1801 defined closed cycle cooling water.
| |
| 203. The treated water in the reactor core isolation cooling sy stem sight glass may be slightly greater than 140°F but will not lead to degradation of the glass.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 123 of 488 Table 3.2.2-1 Residual Heat Removal System Summary of Aging Management Table 3.2.2-1: Residual Heat Removal System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-4 (EP-25) 3.2.1-23 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 C Cyclone separator Pressure boundary, Filtration Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Cyclone separator Pressure boundary, Filtration Stainless steel Treated water
| |
| >270°F (int) Cracking Water chemistry control - BWR V.D2-29 (E-37) 3.2.1-18 E Cyclone separator Pressure boundary, Filtration Stainless steel Treated water
| |
| >270°F (int) Cracking-fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 C Cyclone separator Pressure boundary, Filtration Stainless steel Treated water
| |
| >270°F (int) Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Heat exchanger (bonnet) Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Heat exchanger (bonnet) Pressure boundary Carbon steel Raw water (int) Loss of material Service water integrityV.D2-8 (E-18) 3.2.1-36 B Heat exchanger (shell) Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Heat exchanger (shell) Pressure boundary Carbon steel Treated water
| |
| >270°F (int) Cracking-fatigue Metal fatigue TLAA V.D2-32 (E-10) 3.2.1-1 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 124 of 488 Table 3.2.2-1: Residual Heat Removal System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Heat exchanger (shell) Pressure boundary Carbon steel Treated water
| |
| >270°F (int) Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Heat exchanger (shell) Pressure boundary Gray cast ironAir - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Heat exchanger (shell) Pressure boundary Gray cast ironTreated water (int)Loss of material Water chemistry control - closed
| |
| | |
| cooling water V.D2-7 (E-17) 3.2.1-27 B Heat exchanger (shell) Pressure boundary Gray cast ironTreated water (int)Loss of material Selective leaching V.D1-20 (EP-52) 3.2.1-42 C, 202 Heat exchanger (tubes) Heat transfer Stainless steel Raw water (int) Fouling Service water integrityV.D2-12 (E-21) 3.2.1-40 B Heat exchanger (tubes) Heat transfer Stainless steel Treated water (ext) Fouling Water chemistry control - closed
| |
| | |
| cooling water V.D2-10 (EP-35) 3.2.1-30 B Heat exchanger (tubes) Heat transfer Stainless steel Treated water
| |
| >270°F (ext) Fouling Water chemistry control - BWR V.D2-13 (EP-34) 3.2.1-10 A Heat exchanger (tubes) Heat transfer Stainless steel Treated water
| |
| >270°F (int) Fouling Water chemistry control - BWR V.D2-13 (EP-34) 3.2.1-10 A Heat exchanger (tubes) Pressure boundary Stainless steel Raw water (int) Cracking Service water integrity H Heat exchanger (tubes) Pressure boundary Stainless steel Raw water (int) Loss of material Service water integrityV.D2-6 (E-20) 3.2.1-39 B Heat exchanger (tubes) Pressure boundary Stainless steel Treated water (ext) Loss of material Water chemistry control - closed
| |
| | |
| cooling water V.D2-5 (E-19) 3.2.1-28 B Heat exchanger (tubes) Pressure boundary Stainless steel Treated water
| |
| >270°F (ext) Cracking Water chemistry control - BWR V.D2-29 (E-37) 3.2.1-18 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 125 of 488 Table 3.2.2-1: Residual Heat Removal System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Heat exchanger (tubes) Pressure boundary Stainless steel Treated water
| |
| >270°F (ext) Cracking-fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 C Heat exchanger (tubes) Pressure boundary Stainless steel Treated water
| |
| >270°F (ext) Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 C Heat exchanger (tubes) Pressure boundary Stainless steel Treated water
| |
| >270°F (ext)
| |
| Loss of material-wear Service water integrity H Heat exchanger (tubes) Pressure boundary Stainless steel Treated water
| |
| >270°F (int) Cracking Water chemistry control - BWR V.D2-29 (E-37) 3.2.1-18 E Heat exchanger (tubes) Pressure boundary Stainless steel Treated water
| |
| >270°F (int) Cracking-fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 C Heat exchanger (tubes) Pressure boundary Stainless steel Treated water
| |
| >270°F (int) Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 C Nozzle Pressure
| |
| : boundary, Flow control Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 A Nozzle Pressure
| |
| : boundary, Flow control Copper alloy
| |
| >15% Zn Air - indoor (int) None None G Orifice Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Orifice Pressure boundary Stainless steel Treated water
| |
| >270°F (int) Cracking Water chemistry control - BWR V.D2-29 (E-37) 3.2.1-18 E Orifice Pressure boundary Stainless steel Treated water
| |
| >270°F (int) Cracking-fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 C Orifice Pressure boundary Stainless steel Treated water
| |
| >270°F (int) Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 126 of 488 Table 3.2.2-1: Residual Heat Removal System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Orifice Pressure
| |
| : boundary, Flow control Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Orifice Pressure
| |
| : boundary, Flow control Stainless steel Treated water
| |
| >270°F (int) Cracking Water chemistry control - BWR V.D2-29 (E-37) 3.2.1-18 E Orifice Pressure
| |
| : boundary, Flow control Stainless steel Treated water
| |
| >270°F (int) Cracking-fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 C Orifice Pressure
| |
| : boundary, Flow control Stainless steel Treated water
| |
| >270°F (int) Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Piping Pressure boundary Carbon steel Air - indoor (int) Loss of material System walkdown V.D2-16 (E-29) 3.2.1-32 E Piping Pressure boundary Carbon steel Treated water (ext) Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Piping Pressure boundary Carbon steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Piping Pressure boundary Carbon steel Treated water
| |
| >270°F (int) Cracking-fatigue Metal fatigue TLAA V.D2-32 (E-10) 3.2.1-1 A Piping Pressure boundary Carbon steel Treated water
| |
| >270°F (int) Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Pump casing Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 127 of 488 Table 3.2.2-1: Residual Heat Removal System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Pump casing Pressure boundary Carbon steel Treated water
| |
| >270°F (int) Cracking-fatigue Metal fatigue TLAA V.D2-32 (E-10) 3.2.1-1 A Pump casing Pressure boundary Carbon steel Treated water
| |
| >270°F (int) Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Strainer Filtration Stainless steel Treated water (ext) Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Strainer Filtration Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Tank Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Tank Pressure boundary Carbon steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Tank Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Tank Pressure boundary Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Thermowell Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Thermowell Pressure boundary Carbon steel Treated water
| |
| >270°F (int) Cracking-fatigue Metal fatigue TLAA V.D2-32 (E-10) 3.2.1-1 A Thermowell Pressure boundary Carbon steel Treated water
| |
| >270°F (int) Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Thermowell Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Thermowell Pressure boundary Stainless steel Treated water
| |
| >270°F (int) Cracking Water chemistry control - BWR V.D2-29 (E-37) 3.2.1-18 E Thermowell Pressure boundary Stainless steel Treated water
| |
| >270°F (int) Cracking-fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 128 of 488 Table 3.2.2-1: Residual Heat Removal System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Thermowell Pressure boundary Stainless steel Treated water
| |
| >270°F (int) Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Tubing Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Tubing Pressure boundary Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Valve body Pressure boundary Carbon steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Valve body Pressure boundary Carbon steel Treated water
| |
| >270°F (int) Cracking-fatigue Metal fatigue TLAA V.D2-32 (E-10) 3.2.1-1 A Valve body Pressure boundary Carbon steel Treated water
| |
| >270°F (int) Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Valve body Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Valve body Pressure boundary Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 129 of 488 Table 3.2.2-2 Core Spray System Summary of Aging Management Table 3.2.2-2: Core Spray System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-4 (EP-25) 3.2.1-23 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 C Cyclone separator Pressure boundary, Filtration Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Cyclone separator Pressure boundary, Filtration Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Flow nozzle Pressure boundary Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Orifice Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Orifice Pressure
| |
| : boundary, Flow control Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Piping Pressure boundary Carbon steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Pump casing Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 130 of 488 Table 3.2.2-2: Core Spray System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Pump casing Pressure boundary Carbon steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Strainer Filtration Stainless steel Treated water (ext) Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Strainer Filtration Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Tubing Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Tubing Pressure boundary Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Valve body Pressure boundary Carbon steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Valve body Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Valve body Pressure boundary Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 131 of 488 Table 3.2.2-3 Automatic Depressurization System Summary of Aging Management Table 3.2.2-3: Automatic Depressurization System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-4 (EP-25) 3.2.1-23 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 C Orifice Pressure boundary and
| |
| | |
| flow control Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Orifice Pressure boundary and
| |
| | |
| flow control Stainless steel Steam > 270°F (int) Cracking-fatigue Metal fatigue TLAA G Orifice Pressure boundary and
| |
| | |
| flow control Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Piping Pressure boundary Carbon steel Steam > 220°F (int) Cracking-fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Piping Pressure boundary Carbon steel Treated water (ext) Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Piping Pressure boundary Carbon steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Piping Pressure boundary Stainless steel Steam > 270°F (int) Cracking-fatigue Metal fatigue TLAA G VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 132 of 488 Table 3.2.2-3: Automatic Depressurization System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Stainless steel Treated water (ext) Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Piping Pressure boundary Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Tubing Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Tubing Pressure boundary Stainless steel Steam > 270°F (int) Cracking-fatigue Metal fatigue TLAA G Tubing Pressure boundary Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Valve body Pressure boundary Carbon steel Steam > 220°F (int) Cracking-fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Valve body Pressure boundary Carbon steel Treated water (ext) Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Valve body Pressure boundary Carbon steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Valve body Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Valve body Pressure boundary Stainless steel Steam > 270°F (int) Cracking-fatigue Metal fatigue TLAA G Valve body Pressure boundary Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 133 of 488 Table 3.2.2-4 High Pressure Coolant Injection System Summary of Aging Management Table 3.2.2-4: High Pressure Coolant Injection System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bearing housing Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Bearing housing Pressure boundary Carbon steel Lube oil (int) Loss of material Oil analysis V.D2-30 (EP-46) 3.2.1-16 E Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-4 (EP-25) 3.2.1-23 E Bolting Pressure boundary Carbon steel Air - outdoor (ext) Loss of material System walkdown V.E-1 (EP-1) 3.2.1-23 E Bolting Pressure boundary Carbon steel Treated water (ext) Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 C Bolting Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 C Bolting Pressure boundary Stainless steel Air - outdoor (ext) Loss of material System walkdown G Bolting Pressure boundary Stainless steel Treated water (ext) Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 C Drain pot Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Drain pot Pressure boundary Carbon steel Steam > 270°F (int) Cracking-fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 134 of 488 Table 3.2.2-4: High Pressure Coolant Injection System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Drain pot Pressure boundary Carbon steel Steam > 270°F (int) Loss of material Water chemistry control - BWR VIII.A-15 (S-04) 3.4.1-2 C Fan housing Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Fan housing Pressure boundary Carbon steel Untreated air (int) Loss of material Periodic surveillance and preventive
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| maintenance V.D2-17 (E-27) 3.2.1-34 E, 201 Filter housing Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Filter housing Pressure boundary Carbon steel Lube oil (int) Loss of material Oil analysis V.D2-30 (EP-46) 3.2.1-16 E Gear box Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Gear box Pressure boundary Carbon steel Lube oil (int) Loss of material Oil analysis V.D2-30 (EP-46) 3.2.1-16 E Governor housing Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Governor housing Pressure boundary Carbon steel Lube oil (int) Loss of material Oil analysis V.D2-30 (EP-46) 3.2.1-16 E Heat exchanger (bonnet) Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 135 of 488 Table 3.2.2-4: High Pressure Coolant Injection System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Heat exchanger (bonnet) Pressure boundary Carbon steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Heat exchanger (shell) Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Heat exchanger (shell) Pressure boundary Carbon steel Lube oil (int) Loss of material Oil analysis V.D2-30 (EP-46) 3.2.1-16 E Heat exchanger (shell) Pressure boundary Carbon steel Treated water
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| >140°F (int) Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Heat exchanger (tubes) Heat transfer Copper alloy
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| >15% Zn Lube oil (ext) Fouling Oil analysis V.D2-9 (EP-47) 3.2.1-9 E Heat exchanger (tubes) Heat transfer Copper alloy
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| >15% Zn Treated water (int)Fouling Water chemistry control - BWR VIII.E-10 (SP-58) 3.4.1-9 C Heat exchanger (tubes) Pressure boundary Copper alloy
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| >15% Zn Lube oil (ext) Loss of material Oil analysis V.D2-22 (EP-45) 3.2.1-6 E Heat exchanger (tubes) Pressure boundary Copper alloy
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| >15% Zn Lube oil (ext) Loss of material-wear Heat exchanger monitoring H Heat exchanger (tubes) Pressure boundary Copper alloy
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| >15% Zn Treated water (int)Loss of material Selective leaching VII.E3-11 (AP-32) 3.3.1-84 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 136 of 488 Table 3.2.2-4: High Pressure Coolant Injection System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Heat exchanger (tubes) Pressure boundary Copper alloy
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| >15% Zn Treated water (int)Loss of material Water chemistry control - BWR VII.E3-9 (AP-64) 3.3.1-31 C Heat exchanger (tubes) Pressure boundary Copper alloy
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| >15% Zn Treated water
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| >140°F (ext)
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| Loss of material -
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| wear Heat exchanger monitoring H Heat exchanger (tubes) Pressure boundary Copper alloy
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| >15% Zn Treated water
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| >140°F (ext) Loss of material Selective leaching VII.E3-11 (AP-32) 3.3.1-84 C Heat exchanger (tubes) Pressure boundary Copper alloy
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| >15% Zn Treated water
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| >140°F (ext) Loss of material Water chemistry control - BWR VII.E3-9 (AP-64) 3.3.1-31 C Heat exchanger (tubes) Pressure boundary Copper alloy
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| >15% Zn Treated water
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| >140°F (ext)
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| Loss of material-wear Heat exchanger monitoring H Orifice Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Orifice Pressure boundary Stainless steel Steam > 270°F (int) Cracking Water chemistry control - BWR VIII.B2-1 (SP-45) 3.4.1-13 C Orifice Pressure boundary Stainless steel Steam > 270°F (int) Cracking-fatigue Metal fatigue TLAA G Orifice Pressure boundary Stainless steel Steam > 270°F (int) Loss of material Water chemistry control - BWR VIII.B2-2 (SP-46) 3.4.1-37 C Orifice Pressure boundary Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 137 of 488 Table 3.2.2-4: High Pressure Coolant Injection System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Orifice Pressure boundary
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| Flow control Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Orifice Pressure boundary
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| Flow control Carbon steel Lube oil (int) Loss of material Oil analysis V.D2-30 (EP-46) 3.2.1-16 E Orifice Pressure boundary
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| Flow control Carbon steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Orifice Pressure boundary
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| Flow control Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Orifice Pressure boundary
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| Flow control Stainless steel Lube oil (int) Cracking Oil analysis H Orifice Pressure boundary
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| Flow control Stainless steel Lube oil (int) Loss of material Oil analysis V.D1-24 (EP-51) 3.2.1-6 E Orifice Pressure boundary
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| Flow control Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Orifice Pressure boundary
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| Flow control Stainless steel Treated water
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| >140ºF (int) Cracking Water chemistry control - BWR V.D2-29 (E-37) 3.2.1-18 E Orifice Pressure boundary
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| Flow control Stainless steel Treated water
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| >140ºF (int) Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 138 of 488 Table 3.2.2-4: High Pressure Coolant Injection System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Piping Pressure boundary Carbon steel Lube oil (int) Loss of material Oil analysis V.D2-30 (EP-46) 3.2.1-16 E Piping Pressure boundary Carbon steel Steam > 220°F (int) Cracking-fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Piping Pressure boundary Carbon steel Steam > 220°F (int) Loss of material Water chemistry control - BWR VIII.A-15 (S-04) 3.4.1-2 C Piping Pressure boundary Carbon steel Treated water (ext) Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Piping Pressure boundary Carbon steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Piping Pressure boundary Carbon steel Treated water
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| >140°F (int) Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Piping Pressure boundary Carbon steel Steam > 270°F (int) Cracking-fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Piping Pressure boundary Carbon steel Steam > 270°F (int) Loss of material Flow accelerated corrosion V.D2-31 (E-07) 3.2.1-19 A Piping Pressure boundary Carbon steel Steam > 270°F (int) Loss of material Water chemistry control - BWR VIII.A-15 (S-04) 3.4.1-2 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 139 of 488 Table 3.2.2-4: High Pressure Coolant Injection System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Carbon steel Untreated air (int) Loss of material Periodic surveillance and preventive
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| maintenance V.D2-17 (E-27) 3.2.1-34 E, 201 Piping Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Piping Pressure boundary Stainless steel Air - outdoor (ext)Loss of material System walkdown G Piping Pressure boundary Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Pump casing Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Pump casing Pressure boundary Carbon steel Lube oil (int) Loss of material Oil analysis V.D2-30 (EP-46) 3.2.1-16 E Pump casing Pressure boundary Carbon steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Pump casing Pressure boundary Carbon steel Treated water
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| >140°F (int) Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Sight glass Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Sight glass Pressure boundary Carbon steel Lube oil (int) Loss of material Oil analysis V.D2-30 (EP-46) 3.2.1-16 E Sight glass Pressure boundary Glass Air - indoor (ext) None None V.F-6 (EP-15) 3.2.1-52 A Sight glass Pressure boundary Glass Lube oil (int) None None V.F-7 (EP-16) 3.2.1-52 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 140 of 488 Table 3.2.2-4: High Pressure Coolant Injection System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Steam trap Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Steam trap Pressure boundary Carbon steel Steam > 270°F (int) Cracking-fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Steam trap Pressure boundary Carbon steel Steam > 270°F (int) Loss of material Water chemistry control - BWR VIII.A-15 (S-04) 3.4.1-2 C Steam trap Pressure boundary Carbon steel Steam > 270°F (int) Loss of material Flow accelerated corrosion V.D2-31 (E-07) 3.2.1-19 A Strainer Filtration Stainless steel Treated water (ext) Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Strainer Filtration Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Strainer housing Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Strainer housing Pressure boundary Carbon steel Steam > 270°F (int) Cracking-fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Strainer housing Pressure boundary Carbon steel Steam > 270°F (int) Loss of material Water chemistry control - BWR VIII.A-15 (S-04) 3.4.1-2 C Tank Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Tank Pressure boundary Carbon steel Lube oil (int) Loss of material Oil analysis V.D2-30 (EP-46) 3.2.1-16 E Thermowell Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 141 of 488 Table 3.2.2-4: High Pressure Coolant Injection System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Thermowell Pressure boundary Carbon steel Lube oil (int) Loss of material Oil analysis V.D2-30 (EP-46) 3.2.1-16 E Thermowell Pressure boundary Carbon steel Steam > 270°F (int) Cracking-fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Thermowell Pressure boundary Carbon steel Steam > 270°F (int) Loss of material Water chemistry control - BWR VIII.A-15 (S-04) 3.4.1-2 C Thermowell Pressure boundary Carbon steel Treated water >
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| 140°F (int) Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Tubing Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Tubing Pressure boundary Carbon steel Lube oil (int) Loss of material Oil analysis V.D2-30 (EP-46) 3.2.1-16 E Tubing Pressure boundary Copper alloy
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| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 A Tubing Pressure boundary Copper alloy
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| <15% Zn Lube oil (int) Loss of material Oil analysis V.D2-22 (EP-45) 3.2.1-6 E Tubing Pressure boundary Copper alloy
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| <15% Zn Treated water (int)Loss of material Water chemistry control - BWR VII.E3-9 (AP-64) 3.3.1-31 C Tubing Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Tubing Pressure boundary Stainless steel Lube oil (int) Cracking Oil analysis H VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 142 of 488 Table 3.2.2-4: High Pressure Coolant Injection System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Tubing Pressure boundary Stainless steel Lube oil (int) Loss of material Oil analysis V.D1-24 (EP-51) 3.2.1-6 E Tubing Pressure boundary Stainless steel Steam > 270°F (int) Cracking Water chemistry control - BWR VIII.B2-1 (SP-45) 3.4.1-13 C Tubing Pressure boundary Stainless steel Steam > 270°F (int) Cracking-fatigue Metal fatigue TLAA G Tubing Pressure boundary Stainless steel Steam > 270°F (int) Loss of material Water chemistry control - BWR VIII.B2-2 (SP-46) 3.4.1-37 C Tubing Pressure boundary Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Turbine casing Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Turbine casing Pressure boundary Carbon steel Steam > 270°F (int) Cracking-fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Turbine casing Pressure boundary Carbon steel Steam > 270°F (int) Loss of material Water chemistry control - BWR VIII.A-15 (S-04) 3.4.1-2 C Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Valve body Pressure boundary Carbon steel Air - outdoor (ext) Loss of material System walkdown V.E-8 (E-45) 3.2.1-31 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 143 of 488 Table 3.2.2-4: High Pressure Coolant Injection System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Carbon steel Lube oil (int) Loss of material Oil analysis V.D2-30 (EP-46) 3.2.1-16 E Valve body Pressure boundary Carbon steel Steam > 270°F (int) Cracking-fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Valve body Pressure boundary Carbon steel Steam > 270°F (int) Loss of material Flow accelerated corrosion V.D2-31 (E-07) 3.2.1-19 A Valve body Pressure boundary Carbon steel Steam > 270°F (int) Loss of material Water chemistry control - BWR VIII.A-15 (S-04) 3.4.1-2 C Valve body Pressure boundary Carbon steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Valve body Pressure boundary Carbon steel Treated water
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| >140°F (int) Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Valve body Pressure boundary Copper alloy
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| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 A Valve body Pressure boundary Copper alloy
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| >15% Zn Lube oil (int) Loss of material Oil analysis V.D2-22 (EP-45) 3.2.1-6 E Valve body Pressure boundary Copper alloy
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| >15% Zn Treated water (int)Loss of material Selective leaching VII.E3-11 (AP-32) 3.3.1-84 C Valve body Pressure boundary Copper alloy
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| >15% Zn Treated water (int)Loss of material Water chemistry control - BWR VII.E3-9 (AP-64) 3.3.1-31 C Valve body Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 144 of 488 Table 3.2.2-4: High Pressure Coolant Injection System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Stainless steel Lube oil (int) Cracking Oil analysis H Valve body Pressure boundary Stainless steel Lube oil (int) Loss of material Oil analysis V.D1-24 (EP-51) 3.2.1-6 E Valve body Pressure boundary Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 145 of 488 Table 3.2.2-5 Reactor Core Isolation Cooling Summary of Aging Management Table 3.2.2-5: Reactor Core Isolation Cooling Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-4 (EP-25) 3.2.1-23 E Bolting Pressure boundary Carbon steel Air - outdoor (ext) Loss of material System walkdown V.E-1 (EP-1) 3.2.1-23 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 C Bolting Pressure boundary Stainless steel Air - outdoor (ext) Loss of material System walkdown G Condenser Pressure boundary Gray cast ironAir - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Condenser Pressure boundary Gray cast ironTreated water >
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| 140°F (int) Loss of material Selective leaching V.D1-13 (E-43) 3.2.1-44 C Condenser Pressure boundary Gray cast ironTreated water >
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| 140°F (int) Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Drain pot Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Drain pot Pressure boundary Carbon steel Steam > 220°F (int) Cracking-fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Drain pot Pressure boundary Carbon steel Steam > 220°F (int) Loss of material Water chemistry control - BWR VIII.A-15 (S-04) 3.4.1-2 C Filter housing Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 146 of 488 Table 3.2.2-5: Reactor Core Isolation Cooling Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Filter housing Pressure boundary Carbon steel Lube oil (int) Loss of material Oil analysis V.D2-30 (EP-46) 3.2.1-16 E Flow indicator Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Flow indicator Pressure boundary Carbon steel Lube oil (int) Loss of material Oil analysis V.D2-30 (EP-46) 3.2.1-16 E Flow indicator Pressure boundary Glass Air - indoor (ext) None None V.F-6 (EP-15) 3.2.1-52 A Flow indicator Pressure boundary Glass Lube oil (int) None None V.F-7 (EP-16) 3.2.1-52 A Heat exchanger (bonnet) Pressure boundary Gray cast ironAir - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Heat exchanger (bonnet) Pressure boundary Gray cast ironTreated water >
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| 140°F (int) Loss of material Selective leaching V.D1-13 (E-43) 3.2.1-44 C Heat exchanger (bonnet) Pressure boundary Gray cast ironTreated water >
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| 140°F (int) Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Heat exchanger (shell) Pressure boundary Copper alloy
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| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 A Heat exchanger (shell) Pressure boundary Copper alloy
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| >15% Zn Lube oil (int) Loss of material Oil analysis V.D2-22 (EP-45) 3.2.1-6 E Heat exchanger (tubes) Heat transfer Copper alloy
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| >15% Zn Lube oil (ext) Fouling Oil analysis V.D2-9 (EP-47) 3.2.1-9 E Heat exchanger (tubes) Heat transfer Copper alloy
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| >15% Zn Treated water (int)Fouling Water chemistry control - BWR VIII.E-10 (SP-58) 3.4.1-9 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 147 of 488 Table 3.2.2-5: Reactor Core Isolation Cooling Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Heat exchanger (tubes) Pressure boundary Copper alloy
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| >15% Zn Lube oil (ext) Loss of material Oil analysis V.D2-22 (EP-45) 3.2.1-6 E Heat exchanger (tubes) Pressure boundary Copper alloy
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| >15% Zn Lube oil (ext) Loss of material -
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| wear Heat exchanger monitoring H Heat exchanger (tubes) Pressure boundary Copper alloy
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| >15% Zn Treated water (int)Loss of material Selective leaching VII.E3-11 (AP-32) 3.3.1-84 C Heat exchanger (tubes) Pressure boundary Copper alloy
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| >15% Zn Treated water (int)Loss of material Water chemistry control - BWR VII.E3-9 (AP-64) 3.3.1-31 C Orifice Pressure
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| : boundary, Flow control Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Orifice Pressure
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| : boundary, Flow control Carbon steel Lube oil (int) Loss of material Oil analysis V.D2-30 (EP-46) 3.2.1-16 E Orifice Pressure
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| : boundary, Flow control Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Orifice Pressure
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| : boundary, Flow control Stainless steel Steam > 270°F (int) Cracking Water chemistry control - BWR VIII.B2-1 (SP-45) 3.4.1-13 C Orifice Pressure
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| : boundary, Flow control Stainless steel Steam > 270°F (int) Cracking-fatigue Metal fatigue TLAA G Orifice Pressure
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| : boundary, Flow control Stainless steel Steam > 270°F (int) Loss of material Water chemistry control - BWR VIII.B2-2 (SP-46) 3.4.1-37 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 148 of 488 Table 3.2.2-5: Reactor Core Isolation Cooling Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Orifice Pressure
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| : boundary, Flow control Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Piping Pressure boundary Carbon steel Lube oil (int) Loss of material Oil analysis V.D2-30 (EP-46) 3.2.1-16 E Piping Pressure boundary Carbon steel Steam > 220°F (int) Cracking-fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Piping Pressure boundary Carbon steel Steam > 220°F (int) Loss of material Water chemistry control - BWR VIII.A-15 (S-04) 3.4.1-2 C Piping Pressure boundary Carbon steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Piping Pressure boundary Carbon steel Treated water
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| >140°F (int) Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Piping Pressure boundary Carbon steel Treated water
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| >220°F (int) Cracking-fatigue Metal fatigue TLAA V.D2-32 (E-10) 3.2.1-1 A Piping Pressure boundary Carbon steel Treated water
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| >220°F (int) Loss of material Flow accelerated corrosion V.D2-34 (E-09) 3.2.1-19 A Piping Pressure boundary Carbon steel Treated water
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| >220°F (int) Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Piping Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Piping Pressure boundary Stainless steel Air - outdoor (ext) Loss of material System walkdown G Piping Pressure boundary Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 149 of 488 Table 3.2.2-5: Reactor Core Isolation Cooling Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Pump casing Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Pump casing Pressure boundary Carbon steel Lube oil (int) Loss of material Oil analysis V.D2-30 (EP-46) 3.2.1-16 E Pump casing Pressure boundary Carbon steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Pump casing Pressure boundary Carbon steel Treated water
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| >140°F (int) Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Sight glass Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Sight glass Pressure boundary Carbon steel Lube oil (int) Loss of material Oil analysis V.D2-30 (EP-46) 3.2.1-16 E Sight glass Pressure boundary Copper alloy
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| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 A Sight glass Pressure boundary Copper alloy
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| >15% Zn Treated water
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| >140°F (int) Loss of material Selective leaching VII.E3-11 (AP-32) 3.3.1-84 C Sight glass Pressure boundary Copper alloy
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| >15% Zn Treated water
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| >140°F (int) Loss of material Water chemistry control - BWR VII.E3-9 (AP-64) 3.3.1-31 C Sight glass Pressure boundary Glass Air - indoor (ext) None None V.F-6 (EP-15) 3.2.1-52 A Sight glass Pressure boundary Glass Lube oil (int) None None V.F-7 (EP-16) 3.2.1-52 A Sight glass Pressure boundary Glass Treated water
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| >140°F (int) None None V.F-10 (EP-29) 3.2.1-52 A, 203 Steam heater Pressure boundary Aluminum Steam > 220°F (int) Loss of material Heat exchanger monitoring G VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 150 of 488 Table 3.2.2-5: Reactor Core Isolation Cooling Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Steam heater Pressure boundary Aluminum Steam > 220°F (int) Loss of material Water chemistry control - auxiliary systems G Steam heater Pressure boundary Aluminum Steam > 270°F (int) Cracking-fatigue Heat exchanger monitoring G Steam heater Pressure boundary Aluminum Treated water (ext) Loss of material Water chemistry control - BWR V.D2-19 (EP-26) 3.2.1-5 A Steam heater Pressure boundary Aluminum Treated water (ext) Loss of material-wear Heat exchanger monitoring H Steam trap Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Steam trap Pressure boundary Carbon steel Steam > 220°F (int) Cracking-fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Steam trap Pressure boundary Carbon steel Steam > 220°F (int) Loss of material Flow accelerated corrosion V.D2-34 (E-09) 3.2.1-19 A Steam trap Pressure boundary Carbon steel Steam > 220°F (int) Loss of material Water chemistry control - BWR VIII.A-15 (S-04) 3.4.1-2 C Strainer Filtration Stainless steel Steam > 270°F (int) Cracking Water chemistry control - BWR VIII.B2-1 (SP-45) 3.4.1-13 C Strainer Filtration Stainless steel Steam > 270°F (int) Cracking-fatigue Metal fatigue TLAA G Strainer Filtration Stainless steel Steam > 270°F (int) Loss of material Water chemistry control - BWR VIII.B2-2 (SP-46) 3.4.1-37 C Strainer Filtration Stainless steel Treated water (ext) Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Strainer Filtration Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 151 of 488 Table 3.2.2-5: Reactor Core Isolation Cooling Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Strainer housing Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Strainer housing Pressure boundary Carbon steel Steam > 220°F (int) Cracking-fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Strainer housing Pressure boundary Carbon steel Steam > 220°F (int) Loss of material Water chemistry control - BWR VIII.A-15 (S-04) 3.4.1-2 C Tank Pressure boundary Aluminum Air - outdoor (ext) None None G Tank Pressure boundary Aluminum Sand/concrete (ext) None None G Tank Pressure boundary Aluminum Treated water (int)Loss of material Water chemistry control - BWR V.D2-19 (EP-26) 3.2.1-5 A Tank Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Tank Pressure boundary Carbon steel Lube oil (int) Loss of material Oil analysis V.D2-30 (EP-46) 3.2.1-16 E Thermowell Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Thermowell Pressure boundary Carbon steel Lube oil (int) Loss of material Oil analysis V.D2-30 (EP-46) 3.2.1-16 E Thermowell Pressure boundary Carbon steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Tubing Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Tubing Pressure boundary Stainless steel Steam > 270°F (int) Cracking Water chemistry control - BWR VIII.B2-1 (SP-45) 3.4.1-13 C Tubing Pressure boundary Stainless steel Steam > 270°F (int) Cracking-fatigue Metal fatigue TLAA G VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 152 of 488 Table 3.2.2-5: Reactor Core Isolation Cooling Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Tubing Pressure boundary Stainless steel Steam > 270°F (int) Loss of material Water chemistry control - BWR VIII.B2-2 (SP-46) 3.4.1-37 C Tubing Pressure boundary Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Turbine casing Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Turbine casing Pressure boundary Carbon steel Steam > 220°F (int) Cracking-fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Turbine casing Pressure boundary Carbon steel Steam > 220°F (int) Loss of material Water chemistry control - BWR VIII.A-15 (S-04) 3.4.1-2 C Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Valve body Pressure boundary Carbon steel Air - outdoor (ext) Loss of material System walkdown V.E-8 (E-45) 3.2.1-31 A Valve body Pressure boundary Carbon steel Lube oil (int) Loss of material Oil analysis V.D2-30 (EP-46) 3.2.1-16 E Valve body Pressure boundary Carbon steel Steam > 220°F (int) Cracking-fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Valve body Pressure boundary Carbon steel Steam > 220°F (int) Loss of material Flow accelerated corrosion V.D2-34 (E-09) 3.2.1-19 A Valve body Pressure boundary Carbon steel Steam > 220°F (int) Loss of material Water chemistry control - BWR VIII.A-15 (S-04) 3.4.1-2 C Valve body Pressure boundary Carbon steel Treated water (int)Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Valve body Pressure boundary Carbon steel Treated water
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| >140°F (int) Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Valve body Pressure boundary Carbon steel Treated water
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| >220°F (int) Cracking-fatigue Metal fatigue TLAA V.D2-32 (E-10) 3.2.1-1 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 153 of 488 Table 3.2.2-5: Reactor Core Isolation Cooling Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Carbon steel Treated water
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| >220°F (int) Loss of material Water chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 154 of 488 Table 3.2.2-6 Standby Gas Treatment System Summary of Aging Management Table 3.2.2-6: Standby Gas Treatment System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-4 (EP-25) 3.2.1-23 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 C Duct Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Duct Pressure boundary Carbon steel Air - indoor (int) Loss of material System walkdown V.B-1 (E-25) 3.2.1-32 E Fan housing Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Fan housing Pressure boundary Carbon steel Air - indoor (int) Loss of material System walkdown V.B-1 (E-25) 3.2.1-32 E Filter Filtration Fiberglass Air - indoor (ext) None None F Filter Filtration Fiberglass Air - indoor (int) None None F Filter Filtration Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Filter Filtration Stainless steel Air - indoor (int) None None G VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 155 of 488 Table 3.2.2-6: Standby Gas Treatment System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Filter housing Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Filter housing Pressure boundary Stainless steel Air - indoor (int) None None G Filter unit housing Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Filter unit housing Pressure boundary Stainless steel Air - indoor (int) None None G Orifice Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Orifice Pressure boundary Stainless steel Air - indoor (int) None None G Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Piping Pressure boundary Carbon steel Air - indoor (int) Loss of material One-time inspection V.B-1 (E-25) 3.2.1-32 E Piping Pressure boundary Carbon steel Raw water (int) Loss of material Periodic surveillance and preventive
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| maintenance V.D2-8 (E-18) 3.2.1-36 E Piping Pressure boundary Carbon steel Soil (ext) Loss of material Buried pipe inspectionV.B-9 (E-42) 3.2.1-17 B VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 156 of 488 Table 3.2.2-6: Standby Gas Treatment System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Piping Pressure boundary Stainless steel Air - indoor (int) None None G Thermowell Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Thermowell Pressure boundary Stainless steel Air - indoor (int) None None G Tubing Pressure boundary Copper alloy
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| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 A Tubing Pressure boundary Copper alloy
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| >15% Zn Air - indoor (int) None None G Tubing Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Tubing Pressure boundary Stainless steel Raw water (int) Loss of material Periodic surveillance and preventive
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| maintenance V.D1-25 (EP-55) 3.2.1-37 E Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-7 (E-44) 3.2.1-31 A Valve body Pressure boundary Carbon steel Air - indoor (int) Loss of material System walkdown V.B-1 (E-25) 3.2.1-32 E Valve body Pressure boundary Carbon steel Raw water (int) Loss of material Periodic surveillance and preventive
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| maintenance V.D2-8 (E-18) 3.2.1-36 E Valve body Pressure boundary Copper alloy
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| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 157 of 488 Table 3.2.2-6: Standby Gas Treatment System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Copper alloy
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| >15% Zn Air - indoor (int) None None G VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 158 of 488 Table 3.2.2-7 Primary Containment Penetrations Summary of Aging Management Evaluation Table 3.2.2-7: Primary Containment Penetrations Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.E-4 (EP-25) 3.2.1-23 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 C Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.C-1 (E-35) 3.2.1-31 A Piping Pressure boundary Carbon steel Air - indoor (int) Loss of material System walkdown V.D2-16 (E-29) 3.2.1-32 E Piping Pressure boundary Carbon steel Treated water (int)Loss of material Water chemistry control - BWR V.C-6 (E-31) 3.2.1-15 A Piping Pressure boundary Carbon steel Untreated water (int) Loss of material Containment leak rateV.C-5 (E-22) 3.2.1-35 E Piping Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Piping Pressure boundary Stainless steel Air - indoor (int) None None G Piping Pressure boundary Stainless steel Gas (int) None None V.F-15 (EP-22) 3.2.1-56 A Piping Pressure boundary Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.C-4 (E-33) 3.2.1-3 A Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown V.C-1 (E-35) 3.2.1-31 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 159 of 488 Table 3.2.2-7: Primary Containment Penetrations Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Carbon steel Treated water (int)Loss of material Water chemistry control - BWR V.C-6 (E-31) 3.2.1-15 A Valve body Pressure boundary Carbon steel Untreated water (int) Loss of material Containment leak rateV.C-5 (E-22) 3.2.1-35 E Valve body Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Valve body Pressure boundary Stainless steel Gas (int) None None V.F-15 (EP-22) 3.2.1-56 A Valve body Pressure boundary Stainless steel Treated water (int)Loss of material Water chemistry control - BWR V.C-4 (E-33) 3.2.1-3 A
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 160 of 488Aging Management Review Summary3.3AUXILIARY SYSTEMS3.3.1IntroductionThis section provides the results of the aging management reviews for those components in the auxiliary systems which are subject to aging management review. The following systems are addressed in this section (system descriptions are available in the referenced [LRA] sections).
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| *standby liquid control system (Section 2.3.3.1)
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| *service water systems (Section 2.3.3.2)
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| *reactor building closed cooling water system (Section 2.3.3.3)
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| *emergency diesel generator system (Section 2.3.3.4)
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| *fuel pool cooling systems (Section 2.3.3.5)
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| *fuel oil system (Section 2.3.3.6)
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| *instrument air system (Section 2.3.3.7)
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| *fire protection-water system (Section 2.3.3.8)
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| *fire protection-carbon dioxide system (Section 2.3.3.9)
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| *heating, ventilation and air conditioning systems (Section 2.3.3.10)
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| *primary containment atmosphere control and containment atmosphere dilution systems (Section 2.3.3.11)
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| *John Deere diesel (Section 2.3.3.12)
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| *miscellaneous systems in scope for 10 CFR 54.4(a)(2) (Section 2.3.3.13)Table3.3.1, Summary of Aging Management Programs for Auxiliary Systems Evaluated in Chapter VII of NUREG-1801, provides the summary of the programs evaluated in NUREG-1801 for the auxiliary systems component group. This table uses the format described in the introduction to Section 3. Hyperlinks are provided to the program evaluations in Appendix B.3.3.2ResultsThe following system tables summarize the results of aging management reviews and the NUREG-1801 comparison for auxiliary systems.
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| *Table3.3.2-1Standby Liquid Control System - Summary of Aging Management Evaluation
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| *Table3.3.2-2 Service Water Systems - Summary of Aging Management Evaluation
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| *Table3.3.2-3Reactor Building Closed Cooling Water System - Summary of Aging Management Evaluation
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| *Table3.3.2-4Emergency Diesel Generator System - Summary of Aging Management Evaluation
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| *Table3.3.2-5Fuel Pool Cooling Systems - Summary of Aging Management Evaluation
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| *Table3.3.2-6Fuel Oil System - Summary of Aging Management Evaluation
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| *Table3.3.2-7Instrument AIr System - Summary of Aging Management Evaluation Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 161 of 488Aging Management Review Summary
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| *Table3.3.2-8Fire Protection-Water System - Summary of Aging Management Evaluation
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| *Table3.3.2-9Fire Protection-CO2 System - Summary of Aging Management Evaluation
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| *Table3.3.2-10Heating, Ventilation and Air Conditioning Systems - Summary of Aging Management Evaluation
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| *Table3.3.2-11Primary Containment Atmosphere Control and Containment Atmosphere Dilution Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-12John Deere Diesel - Summary of Aging Management EvaluationMiscellaneous Systems in Scope for 10CFR54.4(a)(2)
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| *Table3.3.2-13-1Augmented Offgas (AOG) System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-2Condensate (C) System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-3Containment Air Dilution, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-4Condensate Demineralizer System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-5Control Rod Drive (CRD)
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| System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-6Core Spray (CS) System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-7Condensate Storage and Transfer (CST) System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-8RWCU Filter Demineralizer (CUFD) System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-9Circulating Water (CW) System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 162 of 488Aging Management Review Summary
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| *Table3.3.2-13-10Diesel Generator and Auxiliaries, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-11Diesel Lube Oil System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-12Demineralized Water System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-13Feedwater System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-14Fuel Oil System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-15Fire Protection System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-16Fuel Pool Cooling System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-17Fuel Pool Cooling Filter Demineralizer System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-18House Heating Boiler System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-19Hydraulic Control Units, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-20High Pressure Injection System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-21Heating, Ventilation and Air Conditioning Systems, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-22Instrument Air System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-23MG Lube Oil System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 163 of 488Aging Management Review Summary
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| *Table3.3.2-13-24Nitrogen System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-25Nuclear Boiler System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-26Neutron Monitoring System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-27Post-Accident Sampling System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-28Primary Containment Atmosphere Control System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-29Potable Water System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-30Reactor Building Closed Cooling Water System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-31Reactor Core Isolation Cooling System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-32Radwaste, Liquid and Solid, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-33Residual Heat Removal System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-34RHR Service Water System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-35Equipment Retired in Place, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-36Reactor Water Clean-Up System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-37Standby Fuel Pool Cooling System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 164 of 488Aging Management Review Summary
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| *Table3.3.2-13-38Standby Gas Treatment System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-39Stator Cooling System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-40Standby Liquid Control System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-41Sampling System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation
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| *Table3.3.2-13-42Service Water System, Nonsafety-Related Components Affecting Safety-Related Systems-Summary of Aging Management Evaluation3.3.2.1Materials, Environment, Aging Effects Requiring Management and Aging Management ProgramsThe following sections list the materials, environments, aging effects requiring management, and aging management programs for the auxiliary systems. Programs are described in Appendix B. Further details are provided in the system tables.3.3.2.1.1Standby Liquid Control System Materials Standby liquid control system components are constructed of the following materials.
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| *carbon steel
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| *glass*stainless steelEnvironmentStandby liquid control system components are exposed to the following environments.
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| *air-indoor
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| *concrete*lube oil*sodium pentaborate solutionAging Effects Requiring ManagementThe following aging effects associated with the standby liquid control system require management.
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| *loss of material Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 165 of 488Aging Management Review SummaryAging Management ProgramsThe following aging management programs manage the aging effects for the standby liquid control system components.
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| *oil analysis
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| *system walkdown
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| *water chemistry control-BWR3.3.2.1.2Service Water Systems MaterialsService water systems components are constructed of the following materials.
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| *carbon steel
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| *copper alloy < 15% zinc
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| *copper alloy > 15% zinc
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| *stainless steelEnvironmentService water systems components are exposed to the following environments.
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| *air-indoor
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| *air-outdoor
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| *condensation
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| *lube oil*raw water*soil*treated waterAging Effects Requiring ManagementThe following aging effects associated with the service water systems require management.
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| *fouling*loss of material
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| *loss of material-wearAging Management ProgramsThe following aging management programs manage the effects of aging on service water systems components.
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| *buried piping inspection
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| *oil analysis
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| *periodic surveillance and preventive maintenance
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| *selective leaching
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| *service water integrity
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| *system walkdown Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 166 of 488Aging Management Review Summary
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| *water chemistry control-closed cooling water3.3.2.1.3Reactor Building Closed Cooling Water System MaterialsReactor building closed cooling water system components are constructed of the following materials.
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| *carbon steel
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| *copper alloy > 15% zinc
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| *stainless steelEnvironmentReactor building closed cooling water system components are exposed to the following environments.
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| *air-indoor
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| *condensation
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| *lube oil*treated water
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| *treated water > 140°F
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| *untreated waterAging Effects Requiring ManagementThe following aging effects associated with the reactor building closed cooling water system require management.
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| *cracking*loss of material
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| *loss of material-wearAging Management ProgramsThe following aging management programs manage the effects of aging on reactor building closed cooling water system components.
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| *heat exchanger monitoring
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| *oil analysis
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| *selective leaching
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| *system walkdown
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| *water chemistry control-BWR
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| *water chemistry control-closed cooling water Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 167 of 488Aging Management Review Summary3.3.2.1.4Emergency Diesel Generator System MaterialsEmergency diesel generator system components are constructed of the following materials.
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| *aluminum*carbon steel
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| *copper alloy < 15% zinc
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| *copper alloy > 15% zinc
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| *copper alloy > 15% zinc (inhibited)
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| *glass*gray cast iron
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| *stainless steelEnvironmentEmergency diesel generator system components are exposed to the following environments.
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| *air-indoor
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| *air-outdoor
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| *air-untreated
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| *exhaust gas
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| *lube oil*raw water*treated water
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| *treated water > 140°FAging Effects Requiring ManagementThe following aging effects associated with the emergency diesel generator system require management.
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| *cracking*cracking-fatigue
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| *fouling*loss of material
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| *loss of material-wearAging Management ProgramsThe following aging management programs manage the effects of aging on emergency diesel generator system components.
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| *oil analysis
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| *periodic surveillance and preventive maintenance
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| *selective leaching
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| *service water integrity
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| *system walkdown
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| *water chemistry control-closed cooling water Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 168 of 488Aging Management Review Summary3.3.2.1.5Fuel Pool Cooling Systems MaterialsFuel pool cooling systems components are constructed of the following materials.
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| *aluminum/boron carbide
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| *carbon steel
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| *stainless steelEnvironmentFuel pool cooling systems components are exposed to the following environments.
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| *air-indoor
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| *raw water*treated waterAging Effects Requiring ManagementThe following aging effects associated with the fuel pool cooling systems require management.
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| *cracking*fouling*loss of materialAging Management ProgramsThe following aging management programs manage the effects of aging on fuel pool cooling systems components.
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| *service water integrity
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| *system walkdown
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| *water chemistry control-BWR3.3.2.1.6Fuel Oil System MaterialsFuel oil system components are constructed of the following materials.
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| *aluminum*carbon steel
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| *copper alloy > 15% zinc
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| *copper alloy < 15% zinc
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| *fiberglass
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| *glass*stainless steel Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 169 of 488Aging Management Review SummaryEnvironmentFuel oil system components are exposed to the following environments.
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| *air-indoor
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| *air-outdoor
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| *concrete*fuel oil*interstitial fluid (brine)
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| *soil Aging Effects Requiring ManagementThe following aging effects associated with the fuel oil system require management.
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| *cracking*loss of materialAging Management ProgramsThe following aging management programs manage the effects of aging on fuel oil system components.
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| *buried piping inspection
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| *diesel fuel monitoring
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| *system walkdown3.3.2.1.7Instrument Air System Materials Instrument air system components are constructed of the following materials.
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| *carbon steel
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| *copper alloy > 15% zinc
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| *stainless steelEnvironmentInstrument air system components are exposed to the following environments.
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| *air-indoor
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| *air-treated
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| *nitrogenAging Effects Requiring ManagementThe following aging effects associated with the instrument air system require management.
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| *loss of material Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 170 of 488Aging Management Review SummaryAging Management ProgramsThe following aging management programs manage the effects of aging on instrument air system components.
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| *instrument air quality
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| *system walkdown3.3.2.1.8Fire Protection-Water System Materials Fire protection-water system components are constructed of the following materials.
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| *aluminum*carbon steel
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| *copper alloy > 15% zinc
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| *copper alloy < 15% zinc
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| *gray cast iron
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| *stainless steelEnvironmentFire protection-water system components are exposed to the following environments.
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| *air-indoor
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| *air-outdoor
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| *exhaust gas
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| *fire protection foam
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| *lube oil*raw water*soil*treated water > 140°FAging Effects Requiring ManagementThe following aging effects associated with the fire protection-water system require management.
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| *cracking*cracking-fatigue
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| *fouling*loss of materialAging Management ProgramsThe following aging management programs manage the effects of aging on fire protection-water system components.
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| *buried piping inspection
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| *fire protection program
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| *fire water system program Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 171 of 488Aging Management Review Summary
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| *oil analysis
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| *selective leaching
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| *system walkdown3.3.2.1.9Fire Protection-Carbon Dioxide System Materials Fire protection-CO 2 system components are constructed of the following materials.
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| *carbon steel
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| *copper alloy > 15% zinc
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| *copper alloy < 15% zinc
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| *stainless steelEnvironmentFire protection-CO 2 system components are exposed to the following environments.
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| *air-indoor
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| *air-outdoor
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| *gasAging Effects Requiring ManagementThe following aging effects associated with the fire protection-CO 2 system require management.
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| *loss of materialAging Management ProgramsThe following aging management programs manage the effects of aging on fire protection-CO 2 system components.
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| *system walkdown3.3.2.1.10Heating, Ventilation and Air Conditioning Systems Materials Heating, ventilation and air conditioning systems components are constructed of the following materials.
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| *aluminum*carbon steel
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| *copper alloy < 15% zinc
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| *copper alloy > 15% zinc
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| *elastomer*fiberglass
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| *glass*gray cast iron Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 172 of 488Aging Management Review Summary
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| *stainless steelEnvironmentHeating, ventilation and air conditioning systems components are exposed to the following environments.
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| *air-indoor
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| *air-outdoor
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| *condensation
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| *freon*raw water*treated water
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| *steam > 220°FAging Effects Requiring ManagementThe following aging effects associated with the heating, ventilation and air conditioning systems require management.
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| *change in material properties
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| *cracking*cracking-fatigue
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| *fouling*loss of material
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| *loss of material-wearAging Management ProgramsThe following aging management programs manage the effects of aging on heating, ventilation and air conditioning systems components.
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| *periodic surveillance and preventive maintenance
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| *selective leaching
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| *service water integrity
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| *system walkdown
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| *water chemistry control-auxiliary systems
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| *water chemistry control-closed cooling water3.3.2.1.11Primary Containment Atmosphere Control and Containment Atmosphere Dilution Systems MaterialsPrimary containment atmosphere control and containment atmosphere dilution systems components are constructed of the following materials.
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| *carbon steel
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| *stainless steel Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 173 of 488Aging Management Review SummaryEnvironmentPrimary containment atmosphere control and containment atmosphere dilution systems components are exposed to the following environments.
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| *air-indoor
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| *treated water
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| *treated water > 482°F
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| *siliconeAging Effects Requiring ManagementThe following aging effects associated with the primary containment atmosphere control and containment atmosphere dilution systems require management.
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| *cracking*cracking-fatigue
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| *fouling*loss of materialAging Management ProgramsThe following aging management programs manage the aging effects for the primary containment atmosphere control and containment atmosphere dilution systems components.
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| *periodic surveillance and preventive maintenance
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| *system walkdown
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| *water chemistry control-BWR3.3.2.1.12John Deere Diesel MaterialsJohn Deere diesel components are constructed of the following materials.
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| *carbon steel
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| *copper alloy > 15% zinc
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| *copper alloy < 15% zinc
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| *stainless steelEnvironmentJohn Deere diesel components are exposed to the following environments.
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| *air - indoor
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| *air - outdoor
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| *exhaust gas
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| *lube oil*treated water > 140°F Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 174 of 488Aging Management Review SummaryAging Effects Requiring ManagementThe following aging effects associated with the John Deere diesel require management.
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| *cracking-fatigue
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| *fouling*loss of material
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| *loss of material-wearAging Management ProgramsThe following aging management programs manage the effects of aging on John Deere diesel components.
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| *oil analysis
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| *periodic surveillance and preventive maintenance
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| *selective leaching
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| *system walkdown
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| *water chemistry control-auxiliary systems3.3.2.1.13Miscellaneous Systems in Scope for 10CFR54.4(a)(2)The following lists encompass materials, environments, aging effects requiring management, and aging management programs for the series 3.3.2-13-xx tables.
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| MaterialsNonsafety-related components affecting safety-related systems are constructed of the following materials.
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| *carbon steel
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| *copper alloy < 15% zinc
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| *copper alloy > 15% zinc
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| *glass*gray cast iron
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| *stainless steelEnvironmentNonsafety-related components affecting safety-related systems are exposed to the following environments.
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| *air-indoor
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| *air-outdoor
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| *condensation
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| *fuel oil*lube oil*raw water*sodium pentaborate solution
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| *steam > 220°F
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| *steam > 270°F Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 175 of 488Aging Management Review Summary
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| *treated water
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| *treated water > 220°F
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| *treated water > 270°F
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| *untreated waterAging Effects Requiring ManagementThe following aging effects associated with nonsafety-related components affecting safety-related systems require management.
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| *cracking*cracking-fatigue
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| *loss of materialAging Management ProgramsThe following aging management programs manage the effects of aging on nonsafety-related components affecting safety-related systems.
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| *diesel fuel monitoring
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| *fire water system
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| *flow-accelerated corrosion
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| *instrument air quality
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| *oil analysis
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| *one-time inspection
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| *periodic surveillance and preventive maintenance
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| *selective leaching
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| *service water integrity
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| *system walkdown
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| *water chemistry control-auxiliary systems
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| *water chemistry control-BWR
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| *water chemistry control-closed cooling water systems3.3.2.2Further Evaluation of Agi ng Management as Recommended by NUREG-1801NUREG-1801 indicates that further evaluation is necessary for certain aging effects and other issues. Section 3.3.2.2 of NUREG-1800 discusses these aging effects th at require further evaluation. The following sections are numbered in accordance with the discussions in NUREG-1800 and explain the VYNPS approach to these areas requiring further evaluation. Programs are described in Appendix B
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| .3.3.2.2.1Cumulative Fatigue DamageWhere identified as an aging effect requiring management, the analysis of fatigue is a TLAA as defined in 10 CFR 54.3. TLAAs are evaluated in accordance with 10 CFR 54.21(c). Evaluation of this TLAA is addressed in Section 4.3.3.3.2.2.2Reduction of Heat Transfer due to FoulingReduction of heat transfer due to fouling for stainless steel heat exchanger tubes exposed to treated water is managed by the water chemistry control-BWR program.
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 176 of 488Aging Management Review SummaryThe effectiveness of the water chemistry control-BWR program will be confirmed by the one-time inspection program through an inspection of a representative sample of components crediting this program including areas of stagnant flow.3.3.2.2.3Cracking due to Stress Corrosion Cracking (SCC)1.Cracking due to SCC can occur in the st ainless steel piping, piping components, and piping elements of the BWR standby liquid control (SLC) system that are exposed to sodium pentaborate solution greater than 140°F. At VYNPS the sodium pentaborate solution in the SLC system does not exceed 140°F. Therefore cracking due to SCC is not an aging effect requiring management for the SLC system. This item is not applicable to VYNPS.2.Cracking due to SCC in stainless steel heat exchanger components exposed to treated water greater than 140°F is an aging effect requiring management at VYNPS. There are no auxiliary system components at VYNPS with stainless steel cladding. For VYNPS auxiliary systems these stainless steel heat exchanger components are managed by the water chemistry control-BWR program. This program monitors parameters and contaminants to ensure they remain within the limits specified by the EPRI guidelines. The effectiveness of the water chemistry control-BWR program will be confirmed by the one-time inspection program through an inspection of a representative sample of components crediting this program for managing cracking using visual and ultrasonic inspection techniques.3.Cracking due to SCC in stainless steel diesel engine exhaust piping exposed to diesel exhaust is an aging effect requiring management at VYNPS. At VYNPS cracking of stainless steel exhaust piping in the emergency diesel generator system is managed by the periodic surveillance and preventive maintenance program. This program uses visual and other NDE techniques to manage cracking of the piping. These inspections will manage the aging effect of cracking such that the intended function of the component will not be affected.3.3.2.2.4Cracking due to Stress Corrosion Cracking and Cyclic Loading1.Cracking due to SCC and cyclic loadi ng could occur in stainless steel PWR nonregenerative heat exchanger components exposed to treated borated water greater than 140°F in the chemical and volume control system. VYNPS is a BWR and does not have a nonregenerative heat exchanger exposed to treated borated water. This item is not applicable to VYNPS.2.Cracking due to SCC and cyclic loadi ng could occur in stainless steel PWR regenerative heat exchanger components exposed to treated borated water greater than 140°F. VYNPS is a BWR and does not have a regenerative heat exchanger exposed to treated borated water. This item is not applicable to VYNPS.3.Cracking due to SCC and cyclic loading could occur for the stainless steel pump casing for the PWR high-pressure pumps in the chemical and volume control Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 177 of 488Aging Management Review Summarysystem. VYNPS is a BWR and does not have a chemical and volume control system. This item is not applicable to VYNPS.3.3.2.2.5Hardening and Loss of Strength due to Elastomer Degradation1.Cracking and change in material properties due to elastomer degradation in elastomer duct flexible connections of the heating, ventilation and air conditioning systems exposed to air-indoor are aging effects requiring management at VYNPS. These aging effects are managed by the periodic surveillance and preventive maintenance program. This program includes visual inspections and physical manipulation of the flexible connections to confirm that the components are not experiencing any aging that would affect accomplishing their intended functions.2.For the auxiliary systems at VYNPS, no credit is taken for any elastomer linings to prevent loss of material from the underlying carbon steel material such that the material is identified as carbon steel for the aging management review. This item is not applicable to VYNPS.3.3.2.2.6Reduction of Neutron-Absorbing Capacity and Loss of Material due to General CorrosionLoss of material and cracking are aging effects requiring management for Boral spent fuel storage racks exposed to a treated water environment. These aging effects are managed by the water chemistry control - BWR Program.Reduction of neutron-absorbing capacity is insignificant and requires no aging management. The potential for aging effects due to sustained irradiation of Boral was previously evaluated by the staff (BNL-NUREG-25582, dated January 1979; NUREG-1787, VC Summer SER, paragraph 3.5.2.4.2, page 3-408) and determined to be insignificant. Plant operating experience with Boral coupons inspected in 1991 and 1996 is consistent with the staff's conclusion and an aging management program is not required.3.3.2.2.7Loss of Material due to General, Pitting, and Crevice Corrosion1.Steel piping and components in auxiliary systems at VYNPS that are exposed to lubricating oil are managed by the oil analysis program, which includes periodic sampling and analysis of lubricating oil to maintain contaminants within acceptable limits, thereby preserving an environment that is not conducive to corrosion. Operating experience at VYNPS has confirmed the effectiveness of this program in maintaining contaminants within limits such that corrosion has not and will not affect the intended functions of these components.VYNPS is a BWR with an inert containment atmosphere and as a result has no reactor coolant pump oil collection system.2.VYNPS does not have a separate shutdown cooling system. Loss of material due to general, pitting, and crevice corrosion in carbon steel piping and components in Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 178 of 488Aging Management Review Summaryother auxiliary systems exposed to treated water are managed by the water chemistry control-BWR program. The effectiveness of the water chemistry control-BWR program will be confirmed by the one-time inspection program through an inspection of a representative sample of components crediting this program including areas of stagnant flow.3.Loss of material due to general (steel only) pitting and crevice corrosion for carbon steel and stainless steel diesel exhaust piping and components exposed to diesel exhaust in the emergency diesel generator and John Deere diesel generator systems is managed by the periodic surveillance and preventive maintenance (PSPM) program. This program uses visual and other NDE techniques to manage loss of material for these components. The carbon steel and stainless steel diesel exhaust piping and components in the fire protection system are managed by the fire protection program. The fire protection program uses visual inspections of diesel exhaust piping and components to manage loss of material. These inspections in the PSPM and fire protection programs will manage the aging effect of loss of material such that the intended function of the components will not be affected.3.3.2.2.8Loss of Material due to General, Pitting, Crevice, and Microbiologically-Influenced Corrosion (MIC)Loss of material due to general, pitting, crevice, and MIC for carbon steel (with or without coating or wrapping) piping and components buried in soil in the service water, fuel oil, and fire protection-water systems at VYNPS is managed by the buried piping inspection program. This program will include (a) preventive measures to mitigate corrosion and (b) inspections to manage the effects of corrosion on the pressure-retaining capability of buried carbon steel components. Buried components will be inspected when excavated during maintenance. An inspection will be performed within 10 years of entering the period of extended operation, unless an opportunistic inspection occurred within this ten-year period. This program will manage the aging effect of loss of material such that the intended function of the components will not be affected.3.3.2.2.9Loss of Material due to General, Pitting, Crevice, Microbiologically-Influenced Corrosion and Fouling1.Fouling is not an aging effect requiring management for the fuel oil system at VYNPS. Loss of material due to general, pitting, crevice, and MIC for carbon steel piping and components exposed to fuel oil is an aging effect requiring management at VYNPS and these components are managed by the diesel fuel monitoring program. This program includes sampling and monitoring of fuel oil quality to ensure they remain within the limits specified by the ASTM standards. Maintaining parameters within limits ensures that significant loss of material will not occur. Ultrasonic inspection of storage tank bottoms where water and contaminants accumulate will be performed to confirm the effectiveness of the diesel fuel monitoring program. In addition, operating experience at VYNPS has confirmed the effectiveness of this program in maintaining fuel oil quality within Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 179 of 488Aging Management Review Summarylimits such that loss of material will not affect the intended functions of these components.2.Loss of material due to general, pitting, crevice, MIC and fouling for carbon steel heat exchanger components exposed to lubricating oil are aging effects requiring management in the auxiliary systems at VYNPS, and is managed by the oil analysis program. This program includes periodic sampling and analysis of lubricating oil to maintain contaminants within acceptable limits, thereby preserving an environment that is not conducive to corrosion or fouling. Operating experience at VYNPS has confirmed the effectiveness of this program in maintaining contaminants within limits such that corrosion and fouling has not and will not affect the intended functions of these components.3.3.2.2.10Loss of Material due to Pitting and Crevice Corrosion1.Loss of material due to pitting and crevice corrosion could occur in BWR and PWR steel piping with elastomer lining or stainless steel cladding that are exposed to treated water and treated borated water if the cladding or lining is degraded. For the auxiliary systems at VYNPS no credit is taken for any elastomer linings or stainless steel cladding to prevent loss of material from the underlying carbon steel material such that the material is identified as carbon steel for the aging management review. This item is not applicable to VYNPS.2.In the auxiliary systems at VYNPS there are no aluminum components exposed to treated water. Loss of material due to pitting and crevice corrosion for stainless steel piping and components, and for stainless steel heat exchanger components exposed to treated water in the auxiliary systems at VYNPS is managed by the water chemistry control-BWR program. The effectiveness of the program will be confirmed by the one-time inspection program through an inspection of a representative sample of components crediting this program including susceptible locations such as areas of stagnant flow.3.Loss of material due to pitting and crevice corrosion for copper alloy components exposed to condensation (external) in the HVAC and other auxiliary systems is managed by the system walkdown , periodic surveillance and performance monitoring (PSPM), service water integrity and heat exchanger monitoring programs. The system walkdown program includes a periodic visual inspection. The PSPM, service water integrity and heat exchanger monitoring programs include other NDE techniques to manage loss of material of the components. These inspections will manage the aging effect of loss of material such that the intended function of the components will not be affected.4.Loss of material due to pitting and crevice corrosion for copper alloy components exposed to lubricating oil in auxiliary systems at VYNPS is managed by the oil analysis program which includes periodic sampling and analysis of lubricating oil to maintain contaminants within acceptable limits, thereby preserving an environment that is not conducive to corrosion. Operating experience at VYNPS has confirmed the effectiveness of this program in maintaining contaminants Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 180 of 488Aging Management Review Summarywithin limits such that corrosion has not and will not affect the intended functions of these components.5.Loss of material due to pitting and crevice corrosion could occur for HVAC aluminum piping, piping components, and piping elements and stainless steel ducting and components exposed to condensation. At VYNPS there are no aluminum components or stainless steel ducting exposed to condensation in the HVAC systems. However, this item can be applied to stainless steel components exposed to condensation, both internal and external, in other systems. The system walkdown and service water integrity programs will manage loss of material in stainless steel components exposed externally to condensation. The periodic surveillance and preventive maintenance program will manage loss of material in stainless steel components exposed internally or externally to condensation. These programs include a periodic visual inspection and the PSPM program includes other NDE techniques to manage loss of material of the components.6.Loss of material due to pitting and crevice corrosion could occur for copper alloy fire protection system piping, piping components, and piping elements exposed to internal condensation. At VYNPS there are no copper alloy components exposed to condensation in the Fire Protection systems. However, this item can be applied to copper alloy components exposed to internal condensation in other systems. The periodic surveillance and preventive maintenance program will manage loss of material in copper alloy components exposed internally to untreated air, which is equivalent to condensation, through the use of visual inspections or other NDE techniques. The instrument air quality program will manage loss of material in copper alloy components exposed internally to treated air. The instrument air quality program maintains humidity and particulates within acceptable limits, thereby preserving the environment of treated air that is not conducive to corrosion. This is equivalent to the management of loss of material in steel and stainless steel components addressed in Item Numbers 3.3.1-53 and 54 respectively.7.Loss of material due to pitting and crevice corrosion could occur for stainless steel piping, piping components, and piping elements exposed to soil. At VYNPS there are no stainless steel piping components exposed to soil in the auxiliary systems. However, loss of material due to pitting and crevice corrosion for stainless steel bolting buried in soil in the fire protection-water systems at VYNPS is managed by the buried piping inspection program. This program will include (a) preventive measures to mitigate corrosion and (b) inspections to manage the effects of corrosion on the buried stainless steel bolting. Buried components will be inspected when excavated during maintenance. An inspection will be performed within 10 years of entering the period of extended operation, unless an opportunistic inspection occurred within this ten-year period.8.Loss of material due to pitting and crevice corrosion for stainless steel piping and components of the standby liquid control system exposed to sodium pentaborate solution is managed at VYNPS by the water chemistry control-BWR program.
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 181 of 488Aging Management Review SummaryThe effectiveness of the water chemistry control-BWR program will be confirmed by the one-time inspection program through an inspection of a representative sample of components crediting this program including susceptible locations such as areas of stagnant flow.3.3.2.2.11Loss of Material due to Pitting, Crevice and Galvanic CorrosionLoss of material due to pitting and crevice, and galvanic corrosion for copper alloy piping and components exposed to treated water in the auxiliary and other systems at VYNPS is managed by the water chemistry control-BWR program. The effectiveness of the program will be confirmed by the one-time inspection program through an inspection of a representative sample of components crediting this program including susceptible locations such as areas of stagnant flow.3.3.2.2.12Loss of Material due to Pitting, Crevice, and Microbiologically-Influenced Corrosion1.Loss of material due to pitting, crevice, and MIC in stainless steel, aluminum and copper alloy piping, and components exposed to fuel oil is an aging effect requiring management at VYNPS and these components are managed by the diesel fuel monitoring program. This program includes sampling and monitoring of fuel oil quality to ensure they remain within the limits specified by the ASTM standards. Maintaining parameters within limits ensures that significant loss of material will not occur. Operating experience at VYNPS has confirmed the effectiveness of this program in maintaining fuel oil quality within limits such that loss of material will not affect the intended functions of these components.2.Loss of material due to pitting, crevice, and MIC in stainless steel piping and components exposed to lubricating oil is managed by the oil analysis program which includes periodic sampling and analysis of lubricating oil to maintain contaminants within acceptable limits, thereby preserving an environment that is not conducive to corrosion. Operating experience at VYNPS has confirmed the effectiveness of this program in maintaining contaminants within limits such that corrosion has not and will not affect the intended functions of these components.3.3.2.2.13Loss of Material due to WearLoss of material due to wear could occur in the elastomer seals and components exposed to air indoor uncontrolled (internal or external). Wear is the removal of surface layers due to relative motion between two surfaces. At VYNPS, in the auxiliary systems, this specific aging effect for elastomers is not applicable based on operating experience. Where the aging effects of change in material properties and cracking are identified for elastomer components, they are managed by the periodic surveillance and preventive maintenance program. This item is not applicable to VYNPS auxiliary systems.
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 182 of 488Aging Management Review Summary3.3.2.2.14Cracking due to Underclad CrackingCracking due to underclad cracking could occur for PWR steel charging pump casings with stainless steel cladding exposed to treated borated water. VYNPS is a BWR and has no charging pumps. This item is not applicable to VYNPS.3.3.2.2.15Quality Assurance for Aging Management of Nonsafety-Related ComponentsSee Appendix B Section B.0.3 for discussion of VYNPS quality assurance procedures and administrative controls for aging management programs.3.3.2.3Time-Limited Aging AnalysisThe only TLAA identified for auxiliary system components is metal fatigue. This is evaluated in Section 4.3.3.3.3ConclusionThe auxiliary system components that are subject to aging management review have been identified in accordance with the requirements of 10CFR54.21. The aging management programs selected to manage the effects of aging on auxiliary system components are identified in Section 3.3.2.1 and in the following tables. A description of these aging management programs is provided in Appendix B, along with the demonstration that the identified aging effects will be managed for the period of extended operation.Therefore, based on the demonstrations provided in Appendix B, the effects of aging associated with the auxiliary system components will be managed such that there is reasonable assurance that the intended functions will be maintained consistent with the current licensing basis during the period of extended operation.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 183 of 488 Table 3.3.1 Summary of Aging Management Programs for the Auxiliary Systems Evaluated in Chapter VII of NUREG-1801 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-1 Steel cranes -
| |
| structural girders
| |
| | |
| exposed to air -
| |
| | |
| indoor uncontrolled (external)
| |
| Cumulative fatigue damage TLAA to be evaluated for structural girders of
| |
| | |
| cranes. See the Standard
| |
| | |
| Review Plan, Section 4.7
| |
| | |
| for generic guidance for
| |
| | |
| meeting the requirements
| |
| | |
| of 10 CFR 54.21(c)(1). Yes, TLAA This line item was not used. Steel cranes are evaluated as structural
| |
| | |
| components in Section 3.5. 3.3.1-2 Steel and stainless steel piping, piping
| |
| | |
| components, piping
| |
| | |
| elements, and heat
| |
| | |
| exchanger
| |
| | |
| components
| |
| | |
| exposed to air -
| |
| | |
| indoor uncontrolled, treated borated
| |
| | |
| water or treated
| |
| | |
| water Cumulative fatigue damage TLAA, evaluated in accordance with 10 CFR
| |
| | |
| 54.21(c) Yes, TLAA Fatigue is a TLAA.
| |
| | |
| See Section 3.3.2.2.1 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 184 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-3 Stainless steel heat exchanger tubes
| |
| | |
| exposed to treated
| |
| | |
| water Reduction of heat transfer due to
| |
| | |
| fouling Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Consistent with NUREG-1801. The reduction of heat transfer in
| |
| | |
| stainless steel heat exchanger
| |
| | |
| tubes is managed by the water chemistry control - BWR program.
| |
| The one time inspection program will be used to verify the
| |
| | |
| effectiveness of the water
| |
| | |
| chemistry program.
| |
| | |
| See Section 3.3.2.2.2 3.3.1-4 Stainless steel piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to sodium
| |
| | |
| pentaborate solution
| |
| | |
| >60°C (>140°F)
| |
| Cracking due to stress corrosion
| |
| | |
| cracking Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Not applicable. The operating temperature of the standby liquid
| |
| | |
| control system is below the 140°F
| |
| | |
| threshold for cracking in stainless
| |
| | |
| steel.
| |
| | |
| See Section 3.3.2.2.3.1 3.3.1-5 Stainless steel and stainless clad steel
| |
| | |
| heat exchanger
| |
| | |
| components
| |
| | |
| exposed to treated
| |
| | |
| water >60°C
| |
| | |
| (>140°F) Cracking due to stress corrosion
| |
| | |
| cracking Plant specific Yes, plant specific Cracking in stainless steel heat exchanger tubes exposed to
| |
| | |
| treated water >140°F is managed
| |
| | |
| by the water chemistry control -
| |
| BWR program. The one time inspection program will be used to verify the effectiveness of the water
| |
| | |
| chemistry program.
| |
| | |
| See Section 3.3.2.2.3.2 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 185 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-6 Stainless steel diesel engine exhaust
| |
| | |
| piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to diesel
| |
| | |
| exhaust Cracking due to stress corrosion
| |
| | |
| cracking Plant specific Yes, plant specific Cracking of stainless steel diesel exhaust components will be
| |
| | |
| managed by the periodic surveillance and preventive
| |
| | |
| maintenance program.
| |
| | |
| See Section 3.3.2.2.3.3 3.3.1-7 PWR only 3.3.1-8 PWR only 3.3.1-9 PWR only 3.3.1-10 High-strength steel closure bolting
| |
| | |
| exposed to air with
| |
| | |
| steam or water
| |
| | |
| leakage. Cracking due to stress corrosion cracking, cyclic
| |
| | |
| loading Bolting Integrity The AMP is to be
| |
| | |
| augmented by
| |
| | |
| appropriate inspection to
| |
| | |
| detect cracking if the bolts
| |
| | |
| are not otherwise
| |
| | |
| replaced during
| |
| | |
| maintenance.
| |
| Yes, if the bolts are not replaced
| |
| | |
| during maintenance Not applicable. High strength steel bolting is not used in the auxiliary systems. 3.3.1-11 Elastomer seals and components
| |
| | |
| exposed to air -
| |
| | |
| indoor uncontrolled (internal/external)
| |
| Hardening and loss of strength due to
| |
| | |
| elastomer
| |
| | |
| degradation Plant specific Yes, plant specific The change in material properties of elastomer components will be
| |
| | |
| managed by the periodic surveillance and preventive
| |
| | |
| maintenance program.
| |
| | |
| See Section 3.3.2.2.5.1 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 186 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-12 Elastomer lining exposed to treated
| |
| | |
| water or treated
| |
| | |
| borated water Hardening and loss of strength due to
| |
| | |
| elastomer
| |
| | |
| degradation A plant-specific aging management program
| |
| | |
| that determines and
| |
| | |
| assesses the qualified life
| |
| | |
| of the linings in the
| |
| | |
| environment is to be
| |
| | |
| evaluated. Yes, plant specific Not applicable. There are no elastomer lined components
| |
| | |
| exposed to treated water in the
| |
| | |
| auxiliary systems.
| |
| | |
| See Section 3.3.2.2.5.2 3.3.1-13 Boral, boron steel spent fuel storage
| |
| | |
| racks neutron-
| |
| | |
| absorbing sheets
| |
| | |
| exposed to treated
| |
| | |
| water or treated
| |
| | |
| borated water Reduction of neutron-absorbing
| |
| | |
| capacity and loss of
| |
| | |
| material due to
| |
| | |
| general corrosion Plant specific Yes, plant specific The water chemistry control - BWR program manages the degradation
| |
| | |
| of boral. Reduction of neutron-
| |
| | |
| absorbing capacity is insignificant
| |
| | |
| and requires no aging
| |
| | |
| management.
| |
| | |
| See Section 3.3.2.2.6 3.3.1-14 Steel piping, piping component, and
| |
| | |
| piping elements
| |
| | |
| exposed to
| |
| | |
| lubricating oil Loss of material due to general, pitting, and crevice
| |
| | |
| corrosion Lubricating Oil Analysis and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated The oil analysis program manages loss of material in steel
| |
| | |
| components.
| |
| | |
| See Section 3.3.2.2.7.1 3.3.1-15 Steel reactor coolant pump oil collection
| |
| | |
| system piping, tubing, and valve
| |
| | |
| bodies exposed to
| |
| | |
| lubricating oil Loss of material due to general, pitting, and crevice
| |
| | |
| corrosion Lubricating Oil Analysis and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Not applicable. Reactor coolant pump oil collection components are
| |
| | |
| not required. VYNPS operates with
| |
| | |
| an inerted containment.
| |
| | |
| See Section 3.3.2.2.7.1 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 187 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-16 Steel reactor coolant pump oil collection
| |
| | |
| system tank exposed
| |
| | |
| to lubricating oil Loss of material due to general, pitting, and crevice
| |
| | |
| corrosion Lubricating Oil Analysis and One-Time Inspection
| |
| | |
| to evaluate the thickness
| |
| | |
| of the lower portion of the
| |
| | |
| tank Yes, detection of aging effects is to
| |
| | |
| be evaluated Not applicable. Reactor coolant pump oil collection components are
| |
| | |
| not required. VYNPS operates with
| |
| | |
| an inerted containment.
| |
| | |
| See Section 3.3.2.2.7.1 3.3.1-17 Steel piping, piping components, and
| |
| | |
| piping elements
| |
| | |
| exposed to treated
| |
| | |
| water Loss of material due to general, pitting, and crevice
| |
| | |
| corrosion Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Consistent with NUREG-1801. The loss of material in steel
| |
| | |
| components is managed by the
| |
| | |
| water chemistry control - BWR program. The one time inspection program will be used to verify the effectiveness of the water
| |
| | |
| chemistry program.
| |
| | |
| See Section 3.3.2.2.7.2 3.3.1-18 Stainless steel and steel diesel engine
| |
| | |
| exhaust piping, piping components, and piping elements
| |
| | |
| exposed to diesel
| |
| | |
| exhaust Loss of material/
| |
| general (steel only),
| |
| pitting and crevice
| |
| | |
| corrosion Plant specific Yes, plant specific The periodic surveillance and preventive maintenance and fire protection programs will manage loss of material in steel and
| |
| | |
| stainless steel components
| |
| | |
| exposed to diesel exhaust.
| |
| | |
| See Section 3.3.2.2.7.3 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 188 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-19 Steel (with or without coating or wrapping)
| |
| | |
| piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to soil Loss of material due to general, pitting, crevice, and
| |
| | |
| microbiologically
| |
| | |
| influenced corrosion Buried Piping and Tanks Surveillance
| |
| | |
| or
| |
| | |
| Buried Piping and Tanks
| |
| | |
| Inspection No
| |
| | |
| Yes, detection of
| |
| | |
| aging effects and
| |
| | |
| operating
| |
| | |
| experience are to
| |
| | |
| be further
| |
| | |
| evaluated Consistent with NUREG-1801. The loss of material of buried steel
| |
| | |
| components will be managed by
| |
| | |
| the buried piping inspection program.
| |
| | |
| See Section 3.3.2.2.8 3.3.1-20 Steel piping, piping components, piping
| |
| | |
| elements, and tanks
| |
| | |
| exposed to fuel oil Loss of material due to general, pitting, crevice, and
| |
| | |
| microbiologically
| |
| | |
| influenced
| |
| | |
| corrosion, and
| |
| | |
| fouling Fuel Oil Chemistry and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated The diesel fuel monitoring program manages loss of material in steel
| |
| | |
| components.
| |
| | |
| See Section 3.3.2.2.9.1 3.3.1-21 Steel heat exchanger
| |
| | |
| components
| |
| | |
| exposed to
| |
| | |
| lubricating oil Loss of material due to general, pitting, crevice, and
| |
| | |
| microbiologically
| |
| | |
| influenced
| |
| | |
| corrosion, and
| |
| | |
| fouling Lubricating Oil Analysis and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated The oil analysis program manages loss of material in steel heat
| |
| | |
| exchanger components.
| |
| | |
| See Section 3.3.2.2.9.2 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 189 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-22 Steel with elastomer lining or stainless
| |
| | |
| steel cladding piping, piping components, and piping elements
| |
| | |
| exposed to treated
| |
| | |
| water and treated
| |
| | |
| borated water Loss of material due to pitting and
| |
| | |
| crevice corrosion (only for steel after
| |
| | |
| lining/cladding
| |
| | |
| degradation)
| |
| Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Not applicable. No credit is taken for any elastomer linings or
| |
| | |
| stainless steel cladding to prevent
| |
| | |
| loss of material from the underlying
| |
| | |
| carbon steel material.
| |
| | |
| See Section 3.3.2.2.10.1 3.3.1-23 Stainless steel and steel with stainless
| |
| | |
| steel cladding heat
| |
| | |
| exchanger
| |
| | |
| components
| |
| | |
| exposed to treated
| |
| | |
| water Loss of material due to pitting and
| |
| | |
| crevice corrosion Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Consistent with NUREG-1801. The loss of material in stainless steel
| |
| | |
| heat exchanger components is
| |
| | |
| managed by the water chemistry control - BWR program. The one time inspection program will be used to verify the effectiveness of
| |
| | |
| the water chemistry program.
| |
| | |
| See Section 3.3.2.2.10.2 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 190 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-24 Stainless steel and aluminum piping, piping components, and piping elements
| |
| | |
| exposed to treated
| |
| | |
| water Loss of material due to pitting and
| |
| | |
| crevice corrosion Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Consistent with NUREG-1801. The loss of material in stainless steel
| |
| | |
| components is managed by the
| |
| | |
| water chemistry control - BWR program. The one time inspection program will be used to verify the
| |
| | |
| effectiveness of the water
| |
| | |
| chemistry program. There are no
| |
| | |
| aluminum piping components
| |
| | |
| exposed to treated water in the
| |
| | |
| auxiliary systems.
| |
| | |
| See Section 3.3.2.2.10.2 3.3.1-25 Copper alloy HVAC piping, piping
| |
| | |
| components, piping
| |
| | |
| elements exposed to
| |
| | |
| condensation (external)
| |
| Loss of material due to pitting and
| |
| | |
| crevice corrosion A plant-specific aging management program is
| |
| | |
| to be evaluated. Yes, plant specific The system walkdown, periodic surveillance and preventive
| |
| | |
| maintenance, service water
| |
| | |
| integrity and heat exchanger monitoring programs will manage loss of material in copper alloy
| |
| | |
| components.
| |
| | |
| See Section 3.3.2.2.10.3 3.3.1-26 Copper alloy piping, piping components, and piping elements
| |
| | |
| exposed to
| |
| | |
| lubricating oil Loss of material due to pitting and
| |
| | |
| crevice corrosion Lubricating Oil Analysis and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated The oil analysis program manages loss of material in copper alloy
| |
| | |
| components.
| |
| | |
| See Section 3.3.2.2.10.4 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 191 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-27 Stainless steel HVAC ducting and
| |
| | |
| aluminum HVAC
| |
| | |
| piping, piping
| |
| | |
| components and
| |
| | |
| piping elements
| |
| | |
| exposed to
| |
| | |
| condensation Loss of material due to pitting and
| |
| | |
| crevice corrosion A plant-specific aging management program is
| |
| | |
| to be evaluated. Yes, plant specific The system walkdown, periodic surveillance and preventive
| |
| | |
| maintenance and service water integrity programs manage loss of material in stainless steel
| |
| | |
| components. There are no
| |
| | |
| aluminum pressure boundary
| |
| | |
| components exposed to
| |
| | |
| condensation in the auxiliary systems.
| |
| | |
| See Section 3.3.2.2.10.5 3.3.1-28 Copper alloy fire protection piping, piping components, and piping elements
| |
| | |
| exposed to
| |
| | |
| condensation (internal)
| |
| Loss of material due to pitting and
| |
| | |
| crevice corrosion A plant-specific aging management program is
| |
| | |
| to be evaluated. Yes, plant specific The periodic surveillance and preventive maintenance and instrument air quality programs will manage loss of material in copper
| |
| | |
| alloy components.
| |
| | |
| See Section 3.3.2.2.10.6 3.3.1-29 Stainless steel piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to soil Loss of material due to pitting and
| |
| | |
| crevice corrosion A plant-specific aging management program is
| |
| | |
| to be evaluated. Yes, plant specific The buried piping inspection program manages loss of material
| |
| | |
| in stainless steel components.
| |
| | |
| See Section 3.3.2.2.10.7 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 192 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-30 Stainless steel piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to sodium
| |
| | |
| pentaborate solution Loss of material due to pitting and
| |
| | |
| crevice corrosion Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Consistent with NUREG-1801. The loss of material in stainless steel
| |
| | |
| components is managed by the
| |
| | |
| water chemistry control - BWR program. The one time inspection program will be used to verify the
| |
| | |
| effectiveness of the water
| |
| | |
| chemistry program.
| |
| | |
| See Section 3.3.2.2.10.8 3.3.1-31 Copper alloy piping, piping components, and piping elements
| |
| | |
| exposed to treated
| |
| | |
| water Loss of material due to pitting, crevice, and
| |
| | |
| galvanic corrosion Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Consistent with NUREG-1801. The loss of material in copper alloy
| |
| | |
| components exposed to treated
| |
| | |
| water is managed by the water chemistry control - BWR program.
| |
| The one time inspection program will be used to verify the
| |
| | |
| effectiveness of the water
| |
| | |
| chemistry program. The
| |
| | |
| components to which this NUREG-
| |
| | |
| 1801 line item applies are in the
| |
| | |
| high pressure coolant injection and
| |
| | |
| reactor core isolation cooling
| |
| | |
| systems in Tables 3.2.2-4 and
| |
| | |
| 3.2.2-5, and components in scope
| |
| | |
| under criterion 10CFR54.4(a)(2),
| |
| listed in series 3.3.2-13-xx tables.
| |
| | |
| See Section 3.3.2.2.11 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 193 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-32 Stainless steel, aluminum and
| |
| | |
| copper alloy piping, piping components, and piping elements
| |
| | |
| exposed to fuel oil Loss of material due to pitting, crevice, and
| |
| | |
| microbiologically
| |
| | |
| influenced corrosion Fuel Oil Chemistry and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated The diesel fuel monitoring program manages loss of material in
| |
| | |
| stainless steel, aluminum and
| |
| | |
| copper alloy components.
| |
| | |
| See Section 3.3.2.2.12.1 3.3.1-33 Stainless steel piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to
| |
| | |
| lubricating oil Loss of material due to pitting, crevice, and
| |
| | |
| microbiologically
| |
| | |
| influenced corrosion Lubricating Oil Analysis and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated The oil analysis program manages loss of material in stainless steel
| |
| | |
| components.
| |
| | |
| See Section 3.3.2.2.12.2 3.3.1-34 Elastomer seals and components
| |
| | |
| exposed to air -
| |
| | |
| indoor uncontrolled (internal or external)
| |
| Loss of material due to Wear Plant specific Yes, plant specific Not applicable. There are no elastomer components with loss of
| |
| | |
| material due to wear as an
| |
| | |
| applicable aging effect.
| |
| | |
| See Section 3.3.2.2.13 3.3.1-35 PWR only 3.3.1-36 Boraflex spent fuel storage racks
| |
| | |
| neutron-absorbing
| |
| | |
| sheets exposed to
| |
| | |
| treated water Reduction of neutron-absorbing
| |
| | |
| capacity due to
| |
| | |
| boraflex degradation Boraflex Monitoring No Not applicable. Boraflex is not used in the VYNPS spent fuel
| |
| | |
| storage racks.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 194 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-37 Stainless steel piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to treated
| |
| | |
| water >60°C
| |
| | |
| (>140°F) Cracking due to stress corrosion
| |
| : cracking, intergranular stress
| |
| | |
| corrosion cracking BWR Reactor Water Cleanup System No Cracking of stainless steel components of the reactor water
| |
| | |
| cleanup system is managed by the
| |
| | |
| water chemistry control - BWR program. The one time inspection program will be used to verify the
| |
| | |
| effectiveness of the water
| |
| | |
| chemistry program. The only
| |
| | |
| components to which this NUREG-
| |
| | |
| 1801 line item applies are included
| |
| | |
| in scope only under criterion
| |
| | |
| 10CFR54.4(a)(2) and listed in
| |
| | |
| series 3.3.2-13-xx tables.
| |
| | |
| The BWR reactor water cleanup
| |
| | |
| system program is not credited for
| |
| | |
| license renewal. NUREG-1801
| |
| | |
| states that no IGSCC inspection is
| |
| | |
| recommended for plants that have
| |
| | |
| piping made of material that is
| |
| | |
| resistant to IGSCC, and that have
| |
| | |
| satisfactorily completed all actions
| |
| | |
| requested in NRC GL 89-10. Since
| |
| | |
| VYNPS satisfies these criteria, the
| |
| | |
| water chemistry control - BWR
| |
| | |
| program is used in lieu of the
| |
| | |
| reactor water cleanup system
| |
| | |
| program to manage cracking. As
| |
| | |
| described in line 3.3.1-38, the one-
| |
| | |
| time inspection program will be
| |
| | |
| used to verify the effectiveness of
| |
| | |
| the water chemistry program.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 195 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-38 Stainless steel piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to treated
| |
| | |
| water >60°C
| |
| | |
| (>140°F) Cracking due to stress corrosion
| |
| | |
| cracking BWR Stress Corrosion Cracking and Water
| |
| | |
| Chemistry No The water chemistry control - BWR program manages cracking of
| |
| | |
| stainless steel components. None
| |
| | |
| of the auxiliary system components
| |
| | |
| are within the scope of the BWR stress corrosion cracking program (all relevant components are
| |
| | |
| included in the reactor vessel, internals and reactor coolant systems). The one time inspection program will be used to verify the
| |
| | |
| effectiveness of the water
| |
| | |
| chemistry program. 3.3.1-39 Stainless steel BWR spent fuel storage racks exposed to
| |
| | |
| treated water >60°C
| |
| | |
| (>140°F) Cracking due to stress corrosion
| |
| | |
| cracking Water Chemistry No Not applicable. There are no stainless steel spent fuel storage
| |
| | |
| components with intended
| |
| | |
| functions exposed to treated water
| |
| | |
| >60°C (>140°F). 3.3.1-40 Steel tanks in diesel fuel oil system
| |
| | |
| exposed to air -
| |
| | |
| outdoor (external)
| |
| Loss of material due to general, pitting, and crevice
| |
| | |
| corrosion Aboveground Steel Tanks No The system walkdown program manages loss of material in steel
| |
| | |
| tanks of the diesel fuel oil system
| |
| | |
| exposed to air - outdoor (external)
| |
| | |
| through visual inspections. 3.3.1-41 High-strength steel closure bolting
| |
| | |
| exposed to air with
| |
| | |
| steam or water
| |
| | |
| leakage Cracking due to cyclic loading, stress corrosion
| |
| | |
| cracking Bolting Integrity No Not applicable. High-strength steel closure bolting is not used in the
| |
| | |
| auxiliary systems.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 196 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-42 Steel closure bolting exposed to air with
| |
| | |
| steam or water
| |
| | |
| leakage Loss of material due to general
| |
| | |
| corrosion Bolting Integrity No This line item was not used. Loss of material of steel closure bolting
| |
| | |
| was addressed by other items
| |
| | |
| including 3.3.1-43, 55 and 58. 3.3.1-43 Steel bolting and closure bolting
| |
| | |
| exposed to air -
| |
| | |
| indoor uncontrolled (external) or air -
| |
| | |
| outdoor (External)
| |
| Loss of material due to general, pitting, and crevice
| |
| | |
| corrosion Bolting Integrity No The system walkdown program manages the loss of material for
| |
| | |
| steel bolting through the use of
| |
| | |
| visual inspections that are
| |
| | |
| performed at least once per
| |
| | |
| refueling cycle. 3.3.1-44 Steel compressed air system closure
| |
| | |
| bolting exposed to
| |
| | |
| condensation Loss of material due to general, pitting, and crevice
| |
| | |
| corrosion Bolting Integrity No This line item was not used. Loss of material of steel closure bolting
| |
| | |
| was addressed by other items
| |
| | |
| including 3.3.1-43, 55 and 58. 3.3.1-45 Steel closure bolting exposed to air -
| |
| | |
| indoor uncontrolled (external)
| |
| Loss of preload due to thermal effects, gasket creep, and
| |
| | |
| self-loosening Bolting Integrity No Not applicable. Loss of preload is a design driven effect and not an
| |
| | |
| aging effect requiring management.
| |
| | |
| Bolting at VYNPS is standard grade
| |
| | |
| B7 carbon steel, or similar material, except in rare specialized
| |
| | |
| applications such as where
| |
| | |
| stainless steel bolting is utilized.
| |
| | |
| Loss of preload due to stress
| |
| | |
| relaxation (creep) would only be a
| |
| | |
| concern in very high temperature
| |
| | |
| applications (> 700°F) as stated in
| |
| | |
| the ASME Code, Section II, Part D, Table 4. No VYNPS bolting
| |
| | |
| operates at >700°F. Therefore, loss VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 197 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion of preload due to stress relaxation (creep) is not an applicable aging
| |
| | |
| effect for auxiliary systems. Other
| |
| | |
| issues that may result in pressure
| |
| | |
| boundary joint leakage are
| |
| | |
| improper design or maintenance
| |
| | |
| issues. Improper bolting
| |
| | |
| application (design) and
| |
| | |
| maintenance issues are current
| |
| | |
| plant operational concerns and not
| |
| | |
| related to aging effects or
| |
| | |
| mechanisms that require
| |
| | |
| management during the period of
| |
| | |
| extended operation. To address
| |
| | |
| these bolting operational concerns, VYNPS has taken actions to
| |
| | |
| address NUREG-1339, "Resolution to Generic Safety Issue
| |
| | |
| 29: Bolting Degradation or Failure
| |
| | |
| in Nuclear Power Plants." These
| |
| | |
| actions include implementation of
| |
| | |
| good bolting practices in
| |
| | |
| accordance with EPRI NP-5067, Good Bolting Practices. Proper
| |
| | |
| joint preparation and make-up in
| |
| | |
| accordance with industry standards
| |
| | |
| is expected to preclude loss of
| |
| | |
| preload. This has been confirmed
| |
| | |
| by operating experience at VYNPS.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 198 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-46 Stainless steel and stainless clad steel
| |
| | |
| piping, piping
| |
| | |
| components, piping
| |
| | |
| elements, and heat
| |
| | |
| exchanger
| |
| | |
| components
| |
| | |
| exposed to closed
| |
| | |
| cycle cooling water
| |
| | |
| >60°C (>140°F)
| |
| Cracking due to stress corrosion
| |
| | |
| cracking Closed-Cycle Cooling Water System No Consistent with NUREG-1801. The water chemistry control - closed
| |
| | |
| cooling water program manages cracking for stainless steel
| |
| | |
| components. 3.3.1-47 Steel piping, piping components, piping
| |
| | |
| elements, tanks, and
| |
| | |
| heat exchanger
| |
| | |
| components
| |
| | |
| exposed to closed
| |
| | |
| cycle cooling water Loss of material due to general, pitting, and crevice
| |
| | |
| corrosion Closed-Cycle Cooling Water System No Consistent with NUREG-1801 for most auxiliary systems. The water chemistry control - closed cooling
| |
| | |
| water program manages loss of material for steel components. For
| |
| | |
| steel components of the house
| |
| | |
| heating boiler and stator cooling systems, the water chemistry control - auxiliary systems program manages loss of material. 3.3.1-48 Steel piping, piping components, piping
| |
| | |
| elements, tanks, and
| |
| | |
| heat exchanger
| |
| | |
| components
| |
| | |
| exposed to closed
| |
| | |
| cycle cooling water Loss of material due to general, pitting, crevice, and
| |
| | |
| galvanic corrosion Closed-Cycle Cooling Water System No Consistent with NUREG-1801. The water chemistry control - closed
| |
| | |
| cooling water program manages loss of material for steel heat
| |
| | |
| exchanger components.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 199 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-49 Stainless steel; steel with stainless steel
| |
| | |
| cladding heat
| |
| | |
| exchanger
| |
| | |
| components
| |
| | |
| exposed to closed
| |
| | |
| cycle cooling water Loss of material due to microbiologically
| |
| | |
| influenced corrosion Closed-Cycle Cooling Water System No Consistent with NUREG-1801. The water chemistry control - closed
| |
| | |
| cooling water program manages loss of material for stainless steel
| |
| | |
| heat exchanger components. 3.3.1-50 Stainless steel piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to closed
| |
| | |
| cycle cooling water Loss of material due to pitting and
| |
| | |
| crevice corrosion Closed-Cycle Cooling Water System No Consistent with NUREG-1801 for most auxiliary systems. The water chemistry control - closed cooling
| |
| | |
| water program manages loss of material for stainless steel
| |
| | |
| components. For stainless steel
| |
| | |
| components of the demineralized water system, the water chemistry control - auxiliary systems program manages loss of material. 3.3.1-51 Copper alloy piping, piping components, piping elements, and
| |
| | |
| heat exchanger
| |
| | |
| components
| |
| | |
| exposed to closed
| |
| | |
| cycle cooling water Loss of material due to pitting, crevice, and
| |
| | |
| galvanic corrosion Closed-Cycle Cooling Water System No Consistent with NUREG-1801 for most auxiliary systems. The water chemistry control - closed cooling
| |
| | |
| water program manages loss of material for copper alloy
| |
| | |
| components. For copper alloy
| |
| | |
| components of the house heating
| |
| | |
| boiler system, demineralized water
| |
| | |
| system, and portions of the HVAC
| |
| | |
| system, the water chemistry control
| |
| - auxiliary systems program manages loss of material.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 200 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-52 Steel, stainless steel, and copper alloy
| |
| | |
| heat exchanger
| |
| | |
| tubes exposed to
| |
| | |
| closed cycle cooling
| |
| | |
| water Reduction of heat transfer due to
| |
| | |
| fouling Closed-Cycle Cooling Water System No Consistent with NUREG-1801. The water chemistry control - closed
| |
| | |
| cooling water program manages reduction of heat transfer for
| |
| | |
| copper alloy heat exchanger tubes
| |
| | |
| exposed to closed cycle cooling
| |
| | |
| water. The auxiliary systems have
| |
| | |
| no steel or stainless steel heat
| |
| | |
| exchanger tubes exposed to closed
| |
| | |
| cycle cooling water with a heat
| |
| | |
| transfer intended function. 3.3.1-53 Steel compressed air system piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to
| |
| | |
| condensation (internal)
| |
| Loss of material due to general and
| |
| | |
| pitting corrosion Compressed Air Monitoring No The instrument air quality program manages loss of material for
| |
| | |
| carbon steel components exposed
| |
| | |
| to treated air. 3.3.1-54 Stainless steel compressed air
| |
| | |
| system piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to internal
| |
| | |
| condensation Loss of material due to pitting and
| |
| | |
| crevice corrosion Compressed Air Monitoring No The instrument air quality program manages loss of material for
| |
| | |
| stainless steel components
| |
| | |
| exposed to treated air.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 201 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-55 Steel ducting closure bolting exposed to
| |
| | |
| air - indoor
| |
| | |
| uncontrolled (external)
| |
| Loss of material due to general
| |
| | |
| corrosion External Surfaces Monitoring No Consistent with NUREG-1801. The system walkdown program manages loss of material for steel
| |
| | |
| closure bolting in the HVAC system. 3.3.1-56 Steel HVAC ducting and components
| |
| | |
| external surfaces
| |
| | |
| exposed to air -
| |
| | |
| indoor uncontrolled (external)
| |
| Loss of material due to general
| |
| | |
| corrosion External Surfaces Monitoring No Consistent with NUREG-1801. The system walkdown program manages loss of material for
| |
| | |
| external surfaces of steel
| |
| | |
| components. 3.3.1-57 Steel piping and components external
| |
| | |
| surfaces exposed to
| |
| | |
| air - indoor
| |
| | |
| uncontrolled (External)
| |
| Loss of material due to general
| |
| | |
| corrosion External Surfaces Monitoring No Consistent with NUREG-1801. The system walkdown program manages loss of material for
| |
| | |
| external surfaces of steel
| |
| | |
| components. 3.3.1-58 Steel external surfaces exposed to
| |
| | |
| air - indoor
| |
| | |
| uncontrolled (external), air -
| |
| | |
| outdoor (external),
| |
| and condensation (external)
| |
| Loss of material due to general
| |
| | |
| corrosion External Surfaces Monitoring No Consistent with NUREG-1801. The system walkdown program manages loss of material for
| |
| | |
| external surfaces of steel
| |
| | |
| components.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 202 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-59 Steel heat exchanger
| |
| | |
| components
| |
| | |
| exposed to air -
| |
| | |
| indoor uncontrolled (external) or air -
| |
| | |
| outdoor (external)
| |
| Loss of material due to general, pitting, and crevice
| |
| | |
| corrosion External Surfaces Monitoring No Consistent with NUREG-1801. The system walkdown program manages loss of material for
| |
| | |
| external surfaces of steel heat
| |
| | |
| exchanger components. 3.3.1-60 Steel piping, piping components, and
| |
| | |
| piping elements
| |
| | |
| exposed to air -
| |
| | |
| outdoor (external)
| |
| Loss of material due to general, pitting, and crevice
| |
| | |
| corrosion External Surfaces Monitoring No Consistent with NUREG-1801. The system walkdown program manages loss of material for
| |
| | |
| external surfaces of steel
| |
| | |
| components. 3.3.1-61 Elastomer fire barrier penetration seals
| |
| | |
| exposed to air -
| |
| | |
| outdoor or air -
| |
| | |
| indoor uncontrolled Increased
| |
| : hardness, shrinkage and loss
| |
| | |
| of strength due to
| |
| | |
| weathering Fire Protection No This line item was not used in the auxiliary systems tables. Fire
| |
| | |
| barrier seals are evaluated as
| |
| | |
| structural components in Section
| |
| | |
| ===3.5. Cracking===
| |
| and the change in
| |
| | |
| material properties of elastomer
| |
| | |
| seals are managed by the fire protection program. 3.3.1-62 Aluminum piping, piping components, and piping elements
| |
| | |
| exposed to raw
| |
| | |
| water Loss of material due to pitting and
| |
| | |
| crevice corrosion Fire Protection No Not applicable. There are no aluminum components with
| |
| | |
| intended functions exposed to raw
| |
| | |
| water in the auxiliary systems.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 203 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-63 Steel fire rated doors exposed to air -
| |
| | |
| outdoor or air -
| |
| | |
| indoor uncontrolled Loss of material due to Wear Fire Protection No This line item was not used in the auxiliary systems tables. Steel fire
| |
| | |
| doors are evaluated as structural
| |
| | |
| components in Section 3.5. The
| |
| | |
| loss of material for fire doors is
| |
| | |
| managed by the fire protection program. 3.3.1-64 Steel piping, piping components, and
| |
| | |
| piping elements
| |
| | |
| exposed to fuel oil Loss of material due to general, pitting, and crevice
| |
| | |
| corrosion Fire Protection and Fuel Oil Chemistry No This line item was not used. Loss of material of steel components
| |
| | |
| exposed to fuel oil was addressed
| |
| | |
| by other items including 3.3.1-20
| |
| | |
| and 32. 3.3.1-65 Reinforced concrete structural fire
| |
| | |
| barriers - walls, ceilings and floors
| |
| | |
| exposed to air -
| |
| | |
| indoor uncontrolled Concrete cracking and spalling due to
| |
| | |
| aggressive
| |
| | |
| chemical attack, and reaction with
| |
| | |
| aggregates Fire Protection and Structures Monitoring
| |
| | |
| Program No This line item was not used.
| |
| Reinforced concrete structural fire
| |
| | |
| barriers are evaluated as structural
| |
| | |
| components in Section 3.5. 3.3.1-66 Reinforced concrete structural fire
| |
| | |
| barriers - walls, ceilings and floors
| |
| | |
| exposed to air -
| |
| | |
| outdoor Concrete cracking and spalling due to
| |
| | |
| freeze thaw, aggressive
| |
| | |
| chemical attack, and reaction with
| |
| | |
| aggregates Fire Protection and Structures Monitoring
| |
| | |
| Program No This line item was not used.
| |
| Reinforced concrete structural fire
| |
| | |
| barriers are evaluated as structural
| |
| | |
| components in Section 3.5.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 204 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-67 Reinforced concrete structural fire
| |
| | |
| barriers - walls, ceilings and floors
| |
| | |
| exposed to air -
| |
| | |
| outdoor or air -
| |
| | |
| indoor uncontrolled Loss of material due to corrosion of
| |
| | |
| embedded steel Fire Protection and Structures Monitoring
| |
| | |
| Program No This line item was not used.
| |
| Reinforced concrete structural fire
| |
| | |
| barriers are evaluated as structural
| |
| | |
| components in Section 3.5. 3.3.1-68 Steel piping, piping components, and
| |
| | |
| piping elements
| |
| | |
| exposed to raw
| |
| | |
| water Loss of material due to general, pitting, crevice, and
| |
| | |
| microbiologically
| |
| | |
| influenced
| |
| | |
| corrosion, and
| |
| | |
| fouling Fire Water System No Consistent with NUREG-1801 for fire protection system components.
| |
| | |
| The loss of material in steel
| |
| | |
| components exposed to raw or
| |
| | |
| untreated water is managed by the fire water system program. The periodic surveillance and
| |
| | |
| preventive maintenance and one-time inspection programs manage loss of material for some
| |
| | |
| components in scope under
| |
| | |
| criterion 10CFR54.4(a)(2) and
| |
| | |
| listed in series 3.3.2-13-xx tables. 3.3.1-69 Stainless steel piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to raw
| |
| | |
| water Loss of material due to pitting and
| |
| | |
| crevice corrosion, and fouling Fire Water System No The loss of material in stainless steel components exposed to raw
| |
| | |
| water is managed by the fire water system, fire protection, and one-time inspection programs.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 205 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-70 Copper alloy piping, piping components, and piping elements
| |
| | |
| exposed to raw
| |
| | |
| water Loss of material due to pitting, crevice, and
| |
| | |
| microbiologically
| |
| | |
| influenced
| |
| | |
| corrosion, and
| |
| | |
| fouling Fire Water System No The loss of material in copper alloy components exposed to raw water
| |
| | |
| is managed by the fire water system, fire protection, and one-time inspection programs. 3.3.1-71 Steel piping, piping components, and
| |
| | |
| piping elements
| |
| | |
| exposed to moist air
| |
| | |
| or condensation (Internal)
| |
| Loss of material due to general, pitting, and crevice
| |
| | |
| corrosion Inspection of Internal Surfaces in Miscellaneous
| |
| | |
| Piping and Ducting
| |
| | |
| Components No The loss of material for steel components exposed to moist air or
| |
| | |
| condensation is managed by the
| |
| | |
| periodic surveillance and
| |
| | |
| preventive maintenance program using visual inspections or other
| |
| | |
| NDE techniques. 3.3.1-72 Steel HVAC ducting and components
| |
| | |
| internal surfaces
| |
| | |
| exposed to
| |
| | |
| condensation (Internal)
| |
| Loss of material due to general, pitting, crevice, and (for drip pans and
| |
| | |
| drain lines)
| |
| | |
| microbiologically
| |
| | |
| influenced corrosion Inspection of Internal Surfaces in Miscellaneous
| |
| | |
| Piping and Ducting
| |
| | |
| Components No Loss of material of steel component internal surfaces exposed to
| |
| | |
| condensation is managed by the
| |
| | |
| periodic surveillance and
| |
| | |
| preventive maintenance program using visual inspections or other
| |
| | |
| NDE techniques.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 206 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-73 Steel crane structural girders in
| |
| | |
| load handling system
| |
| | |
| exposed to air-
| |
| | |
| indoor uncontrolled (external)
| |
| Loss of material due to general
| |
| | |
| corrosion Inspection of Overhead Heavy Load and Light
| |
| | |
| Load (Related to
| |
| | |
| Refueling) Handling Systems No This line item was not used in the auxiliary systems tables. Steel
| |
| | |
| crane structural girders are
| |
| | |
| evaluated as structural components
| |
| | |
| in Section 3.5. Loss of material for
| |
| | |
| steel crane structural components
| |
| | |
| is managed by the periodic surveillance and preventive
| |
| | |
| maintenance and structures monitoring programs. 3.3.1-74 Steel cranes - rails exposed to air -
| |
| | |
| indoor uncontrolled (external)
| |
| Loss of material due to Wear Inspection of Overhead Heavy Load and Light
| |
| | |
| Load (Related to
| |
| | |
| Refueling) Handling Systems No This line item was not used. Steel crane rails are evaluated as
| |
| | |
| structural components in Section
| |
| | |
| 3.5. 3.3.1-75 Elastomer seals and components
| |
| | |
| exposed to raw
| |
| | |
| water Hardening and loss of strength due to
| |
| | |
| elastomer
| |
| | |
| degradation; loss of
| |
| | |
| material due to
| |
| | |
| erosion Open-Cycle Cooling Water System No Not applicable. There are no elastomeric components exposed
| |
| | |
| to raw or untreated water in the
| |
| | |
| auxiliary systems that require aging
| |
| | |
| management.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 207 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-76 Steel piping, piping components, and
| |
| | |
| piping elements (without lining/coating or with
| |
| | |
| degraded lining/coating)
| |
| | |
| exposed to raw
| |
| | |
| water Loss of material due to general, pitting, crevice, and
| |
| | |
| microbiologically
| |
| | |
| influenced
| |
| | |
| corrosion, fouling, and lining/coating
| |
| | |
| degradation Open-Cycle Cooling Water System No Consistent with NUREG-1801. The service water integrity program manages loss of material in steel
| |
| | |
| components. 3.3.1-77 Steel heat exchanger
| |
| | |
| components
| |
| | |
| exposed to raw
| |
| | |
| water Loss of material due to general, pitting, crevice, galvanic, and
| |
| | |
| microbiologically
| |
| | |
| influenced
| |
| | |
| corrosion, and
| |
| | |
| fouling Open-Cycle Cooling Water System No Consistent with NUREG-1801 for most auxiliary systems. The
| |
| | |
| service water integrity program manages loss of material for steel
| |
| | |
| heat exchanger components. For
| |
| | |
| steel heat exchanger tubes of the
| |
| | |
| reactor building closed cooling water system, the heat exchanger monitoring program manages loss of material. 3.3.1-78 Stainless steel, nickel alloy, and
| |
| | |
| copper alloy piping, piping components, and piping elements
| |
| | |
| exposed to raw
| |
| | |
| water Loss of material due to pitting and
| |
| | |
| crevice corrosion Open-Cycle Cooling Water System No This line was not used. There are no nickel alloy components
| |
| | |
| exposed to raw water in the
| |
| | |
| auxiliary systems. Stainless steel
| |
| | |
| and copper alloy components
| |
| | |
| exposed to raw water are
| |
| | |
| addressed in other items including
| |
| | |
| 3.3.1-79 and 81.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 208 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-79 Stainless steel piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to raw
| |
| | |
| water Loss of material due to pitting and
| |
| | |
| crevice corrosion, and fouling Open-Cycle Cooling Water System No Consistent with NUREG-1801. The service water integrity program manages loss of material in
| |
| | |
| stainless steel components. 3.3.1-80 Stainless steel and copper alloy piping, piping components, and piping elements
| |
| | |
| exposed to raw
| |
| | |
| water Loss of material due to pitting, crevice, and
| |
| | |
| microbiologically
| |
| | |
| influenced corrosion Open-Cycle Cooling Water System No Not applicable. This line applies to EDG system components. At
| |
| | |
| VYNPS, these components are not
| |
| | |
| exposed to raw water (heat
| |
| | |
| exchanger components exposed to
| |
| | |
| raw water are addressed in line
| |
| | |
| 3.3.1-82). 3.3.1-81 Copper alloy piping, piping components, and piping elements, exposed to raw
| |
| | |
| water Loss of material due to pitting, crevice, and
| |
| | |
| microbiologically
| |
| | |
| influenced
| |
| | |
| corrosion, and
| |
| | |
| fouling Open-Cycle Cooling Water System No Consistent with NUREG-1801. The service water integrity program manages loss of material in copper
| |
| | |
| alloy components. 3.3.1-82 Copper alloy heat exchanger
| |
| | |
| components
| |
| | |
| exposed to raw
| |
| | |
| water Loss of material due to pitting, crevice, galvanic, and microbiologically
| |
| | |
| influenced
| |
| | |
| corrosion, and
| |
| | |
| fouling Open-Cycle Cooling Water System No Consistent with NUREG-1801. The service water integrity program manages loss of material in copper
| |
| | |
| alloy heat exchanger components.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 209 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-83 Stainless steel and copper alloy heat
| |
| | |
| exchanger tubes
| |
| | |
| exposed to raw
| |
| | |
| water Reduction of heat transfer due to
| |
| | |
| fouling Open-Cycle Cooling Water System No Consistent with NUREG-1801 for most systems. The service water integrity program manages reduction of heat transfer in
| |
| | |
| stainless steel and copper alloy
| |
| | |
| heat exchanger tubes. For the fire
| |
| | |
| protection system, the fire protection program manages reduction of heat transfer in copper
| |
| | |
| alloy heat exchanger tubes. 3.3.1-84 Copper alloy >15%
| |
| Zn piping, piping
| |
| | |
| components, piping
| |
| | |
| elements, and heat
| |
| | |
| exchanger
| |
| | |
| components
| |
| | |
| exposed to raw
| |
| | |
| water, treated water, or closed cycle
| |
| | |
| cooling water Loss of material due to selective
| |
| | |
| leaching Selective Leaching of Materials No Consistent with NUREG-1801. The selective leaching program will manage loss of material in copper
| |
| | |
| alloy >15% Zn components
| |
| | |
| exposed to all types of water. 3.3.1-85 Gray cast iron piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to soil, raw
| |
| | |
| water, treated water, or closed-cycle
| |
| | |
| cooling water Loss of material due to selective
| |
| | |
| leaching Selective Leaching of Materials No Consistent with NUREG-1801. The selective leaching program will manage loss of material in gray
| |
| | |
| cast iron components exposed to
| |
| | |
| soil and all types of water.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 210 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-86 Structural steel (new fuel storage rack
| |
| | |
| assembly) exposed
| |
| | |
| to air - indoor
| |
| | |
| uncontrolled (external)
| |
| Loss of material due to general, pitting, and crevice
| |
| | |
| corrosion Structures Monitoring Program No This line item was not used.
| |
| Structural steel of the new fuel
| |
| | |
| storage rack assembly is evaluated
| |
| | |
| as a structural component in
| |
| | |
| Section 3.5. 3.3.1-87 PWR only 3.3.1-88 PWR only 3.3.1-89 PWR only 3.3.1-90 PWR only 3.3.1-91 PWR only 3.3.1-92 Galvanized steel piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to air -
| |
| | |
| indoor uncontrolled None None NA - No AEM or AMP Not applicable. Galvanized steel surfaces are evaluated as steel for
| |
| | |
| the auxiliary systems. 3.3.1-93 Glass piping elements exposed to
| |
| | |
| air, air - indoor
| |
| | |
| uncontrolled (external), fuel oil, lubricating oil, raw
| |
| | |
| water, treated water, and treated borated
| |
| | |
| water None None NA - No AEM or AMP Consistent with NUREG-1801.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 211 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-94 Stainless steel and nickel alloy piping, piping components, and piping elements
| |
| | |
| exposed to air -
| |
| | |
| indoor uncontrolled (external) None None NA - No AEM or AMP Consistent with NUREG-1801. 3.3.1-95 Steel and aluminum piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to air -
| |
| | |
| indoor controlled (external) None None NA - No AEM or AMP Not applicable. There are no components exposed to controlled
| |
| | |
| indoor air at VYNPS. 3.3.1-96 Steel and stainless steel piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements in
| |
| | |
| concrete None None NA - No AEM or AMP Consistent with NUREG-1801. 3.3.1-97 Steel, stainless steel, aluminum, and
| |
| | |
| copper alloy piping, piping components, and piping elements
| |
| | |
| exposed to gas None None NA - No AEM or AMP Consistent with NUREG-1801.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 212 of 488 Table 3.3.1: Auxiliary Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.3.1-98 Steel, stainless steel, and copper alloy
| |
| | |
| piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to dried air None None NA - No AEM or AMP Not applicable. Dried (treated) air is maintained as an environment as
| |
| | |
| a result of the instrument air quality
| |
| | |
| program, so aging effects may
| |
| | |
| occur without that program. 3.3.1-99 PWR only
| |
| | |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 213 of 488 Notes for Tables 3.3.2-1 through 3.3.2-13 Generic notes A. Consistent with NUREG-1801 item for component, materi al, environment, aging effect and aging management program.
| |
| AMP is consistent with NUREG-1801 AMP. B. Consistent with NUREG-1801 item for component, materi al, environment, aging effect and aging management program.
| |
| AMP has exceptions to NUREG-1801 AMP. C. Component is different, but consistent with NUREG-1801 item for material, environment, aging effect and aging management program. AMP is consistent with NUREG-1801 AMP. D. Component is different, but consistent with NUREG-1801 item for material, environment, aging effect and aging management program. AMP has exceptions to NUREG-1801 AMP. E. Consistent with NUREG-1801 material, environment, and agi ng effect but a different aging management program is credited. F. Material not in NUREG-1801 for this component.
| |
| G. Environment not in NUREG-1801 for this component and material.
| |
| H. Aging effect not in NUREG-1801 for this component, material and environment combination.
| |
| I. Aging effect in NUREG-1801 for this component, material and environment combination is not applicable.
| |
| J. Neither the component nor the material and environment combination is evaluated in NUREG-1801.
| |
| Plant-specific notes 301. This treated water environment is the equivalent of the NUREG-1801 defined closed cycle cooling water. 302. The untreated air environment is the equivalent of the NUREG-1801 defined condensation.
| |
| 303. The treated water in the SBO diesel generator sight glass may be slightly greater than 140°F but will not lead to degradat ion of the glass. 304. This treated water environment is fire diesel engine jacket cooling water.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 214 of 488 305. This treated water or steam environment is from the house heat ing boiler system. The system water is similar to closed cooling water, but monitored by the water chemistry control - aux iliary systems program. 306. This treated water environment does not directly match any NUREG-1801 defined environment. However, for the purposes of evaluating selective leaching, comparison to NUREG-1801 treat ed water or closed cycle cooling water is acceptable since selective leaching is applicable to all water types.
| |
| | |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 215 of 488 Table 3.3.2-1 Standby Liquid Control System Summary of Aging Management Table 3.3.2-1: Standby Liquid Control System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Gauge Pressure boundary Glass Air - indoor (ext) None None VII.J-8 (AP-14) 3.3.1-93 A Gauge Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Gauge Pressure boundary Carbon steel Lube oil (int) Loss of materialOil Analysis VII.C1-17 (AP-30) 3.3.1-14 E Gauge Pressure boundary Glass Lube oil (int) None None VII.J-10 (AP-15) 3.3.1-93 A Heater Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Heater Pressure boundary Stainless steel Sodium pentaborate
| |
| | |
| solution (int) Loss of materialWater chemistry control - BWR VII.E2-1 (AP-73) 3.3.1-30 A Piping Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Piping Pressure boundary Stainless steel Sodium pentaborate
| |
| | |
| solution (int) Loss of materialWater chemistry control - BWR VII.E2-1 (AP-73) 3.3.1-30 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 216 of 488 Table 3.3.2-1: Standby Liquid Control System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Pump casing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Pump casing Pressure boundary Stainless steel Sodium pentaborate
| |
| | |
| solution (int) Loss of materialWater chemistry control - BWR VII.E2-1 (AP-73) 3.3.1-30 A Tank Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tank Pressure boundary Stainless steel Concrete (ext) None None VII.J-17 (AP-19) 3.3.1-96 A Tank Pressure boundary Stainless steel Sodium pentaborate
| |
| | |
| solution (int) Loss of materialWater chemistry control - BWR VII.E2-1 (AP-73) 3.3.1-30 A Thermowell Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Thermowell Pressure boundary Stainless steel Sodium pentaborate
| |
| | |
| solution (int) Loss of materialWater chemistry control - BWR VII.E2-1 (AP-73) 3.3.1-30 A Tubing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tubing Pressure boundary Stainless steel Sodium pentaborate
| |
| | |
| solution (int) Loss of materialWater chemistry control - BWR VII.E2-1 (AP-73) 3.3.1-30 A Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 217 of 488 Table 3.3.2-1: Standby Liquid Control System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Stainless steel Sodium pentaborate
| |
| | |
| solution (int) Loss of materialWater chemistry control - BWR VII.E2-1 (AP-73) 3.3.1-30 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 218 of 488 Table 3.3.2-2 Service Water System Summary of Aging Management Table 3.3.2-2: Service Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-1 (AP-28) 3.3.1-43 E Bolting Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Bolting Pressure boundary Carbon steel Raw water (ext) Loss of materialService water integrity VII.C1-19 (A-38) 3.3.1-76 D Bolting Pressure boundary Stainless steel Condensation (ext) Loss of materialSystem walkdown VII.F1-1 (A-09) 3.3.1-27 E Bolting Pressure boundary Stainless steel Raw water (ext) Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 D Coil Heat transfer Copper alloy
| |
| >15% Zn Lube oil (ext) Fouling Oil analysis V.D2-9 (EP-47) 3.2.1-9 E Coil Heat transfer Copper alloy
| |
| >15% Zn Raw water (int) Fouling Service water integrity VII.C1-6 (A-72) 3.3.1-83 B Coil Pressure boundary Copper alloy
| |
| >15% Zn Lube oil (ext) Loss of materialOil analysis VII.C1-8 (AP-47) 3.3.1-26 E Coil Pressure boundary Copper alloy
| |
| >15% Zn Raw water (int) Loss of materialSelective leaching VII.C1-4 (A-66) 3.3.1-84 A Coil Pressure boundary Copper alloy
| |
| >15% Zn Raw water (int) Loss of materialService water integrity VII.C1-3 (A-65) 3.3.1-82 B VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 219 of 488 Table 3.3.2-2: Service Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Expansion joint Pressure boundary Stainless steel Condensation (ext) Loss of materialSystem walkdown VII.F1-1 (A-09) 3.3.1-27 E Expansion joint Pressure boundary Stainless steel Raw water (int) Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 B Fan housing SSR Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Fan housing SSR Carbon steel Condensation (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.F1-3 (A-08) 3.3.1-72 E Heat exchanger (bonnet) Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Heat exchanger (bonnet) Pressure boundary Carbon steel Raw water (int) Loss of materialService water integrity VII.C1-5 (A-64) 3.3.1-77 B Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| <15% Zn Condensation (ext) Loss of materialService water integrity VII.F1-16 (A-46) 3.3.1-25 E Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| <15% Zn Condensation (ext) Loss of material-wear Service water integrity H Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| <15% Zn Raw water (int) Loss of materialService water integrity VII.C1-3 (A-65) 3.3.1-82 B VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 220 of 488 Table 3.3.2-2: Service Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Heat exchanger (tubes) Pressure boundary Stainless steel Raw water (int) Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 D Heat exchanger (tubes) Pressure boundary Stainless steel Treated water (ext) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.E3-1 (A-67) 3.3.1-49 D Heat exchanger (tubes) Pressure boundary Stainless steel Treated water (ext) Loss of material-wear Service water integrity H Heat exchanger (tubesheets) Pressure boundary Carbon steel Raw water (ext) Loss of materialService water integrity VII.C1-5 (A-64) 3.3.1-77 B Heat exchanger (tubesheets) Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.C2-1 (A-63) 3.3.1-48 D Indicator Pressure boundary Stainless steel Condensation (ext) Loss of materialSystem walkdown VII.F1-1 (A-09) 3.3.1-27 E Indicator Pressure boundary Stainless steel Raw water (int) Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 B Orifice Pressure boundary Stainless steel Condensation (ext) Loss of materialSystem walkdown VII.F1-1 (A-09) 3.3.1-27 E Orifice Pressure boundary Stainless steel Raw water (int) Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 B Orifice Pressure boundary Flow control Stainless steel Condensation (ext) Loss of materialSystem walkdown VII.F1-1 (A-09) 3.3.1-27 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 221 of 488 Table 3.3.2-2: Service Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Orifice Pressure boundary Flow control Stainless steel Raw water (int) Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 B Piping Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Piping Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Piping Pressure boundary Carbon steel Raw water (int) Loss of materialService water integrity VII.C1-19 (A-38) 3.3.1-76 B Piping Pressure boundary Carbon steel Soil (ext) Loss of materialBuried piping inspection VII.C1-18 (A-01) 3.3.1-19 B Piping Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Piping Pressure boundary Copper alloy
| |
| <15% Zn Condensation (ext) Loss of materialSystem walkdown VII.F1-16 (A-46) 3.3.1-25 E Piping Pressure boundary Copper alloy
| |
| <15% Zn Lube oil (int) Loss of materialOil analysis VII.C1-8 (AP-47) 3.3.1-26 E Piping Pressure boundary Copper alloy
| |
| <15% Zn Raw water (int) Loss of materialService water integrity VII.C1-9 (A-44) 3.3.1-81 B Piping Pressure boundary Stainless steel Condensation (ext) Loss of materialSystem walkdown VII.F1-1 (A-09) 3.3.1-27 E Piping Pressure boundary Stainless steel Raw water (int) Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 B Pump casing Pressure boundary Carbon steel Raw water (ext) Loss of materialService water integrity VII.C1-19 (A-38) 3.3.1-76 B VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 222 of 488 Table 3.3.2-2: Service Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Pump casing Pressure boundary Carbon steel Raw water (int) Loss of materialService water integrity VII.C1-19 (A-38) 3.3.1-76 B Strainer Filtration Stainless steel Raw water (ext) Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 B Strainer Filtration Stainless steel Raw water (int) Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 B Strainer housing Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Strainer housing Pressure boundary Carbon steel Raw water (int) Loss of materialService water integrity VII.C1-19 (A-38) 3.3.1-76 B Suction barrel Pressure boundary Stainless steel Condensation (ext) Loss of materialService water integrity VII.F1-1 (A-09) 3.3.1-27 E Suction barrel Pressure boundary Stainless steel Raw water (int) Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 B Thermowell Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Thermowell Pressure boundary Carbon steel Raw water (int) Loss of materialService water integrity VII.C1-19 (A-38) 3.3.1-76 B Thermowell Pressure boundary Stainless steel Condensation (ext) Loss of materialSystem walkdown VII.F1-1 (A-09) 3.3.1-27 E Thermowell Pressure boundary Stainless steel Raw water (int) Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 B Tubing Pressure boundary Copper alloy
| |
| <15% Zn Condensation (ext) Loss of materialSystem walkdown VII.F1-16 (A-46) 3.3.1-25 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 223 of 488 Table 3.3.2-2: Service Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Tubing Pressure boundary Copper alloy
| |
| <15% Zn Raw water (int) Loss of materialService water integrity VII.C1-9 (A-44) 3.3.1-81 B Tubing Pressure boundary Stainless steel Condensation (ext) Loss of materialSystem walkdown VII.F1-1 (A-09) 3.3.1-27 E Tubing Pressure boundary Stainless steel Raw water (int) Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 B Valve body Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Valve body Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Valve body Pressure boundary Carbon steel Raw water (int) Loss of materialService water integrity VII.C1-19 (A-38) 3.3.1-76 B Valve body Pressure boundary Copper alloy
| |
| <15% Zn Condensation (ext) Loss of materialSystem walkdown VII.F1-16 (A-46) 3.3.1-25 E Valve body Pressure boundary Copper alloy
| |
| <15% Zn Raw water (int) Loss of materialService water integrity VII.C1-9 (A-44) 3.3.1-81 B Valve body Pressure boundary Copper alloy
| |
| >15% Zn Condensation (ext) Loss of materialSystem walkdown VII.F1-16 (A-46) 3.3.1-25 E Valve body Pressure boundary Copper alloy
| |
| >15% Zn Raw water (int) Loss of materialSelective leaching VII.C1-10 (A-47) 3.3.1-84 A Valve body Pressure boundary Copper alloy
| |
| >15% Zn Raw water (int) Loss of materialService water integrity VII.C1-9 (A-44) 3.3.1-81 B Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 224 of 488 Table 3.3.2-2: Service Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Stainless steel Air - indoor (int) None None G Valve body Pressure boundary Stainless steel Air - outdoor (ext) Loss of materialSystem walkdown G Valve body Pressure boundary Stainless steel Condensation (ext) Loss of materialSystem walkdown VII.F1-1 (A-09) 3.3.1-27 E Valve body Pressure boundary Stainless steel Lube oil (int) Loss of materialOil analysis VII.C1-14 (AP-59) 3.3.1-33 E Valve body Pressure boundary Stainless steel Raw water (int) Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 B VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 225 of 488 Table 3.3.2-3 Reactor Building Closed Cooling Water System Summary of Aging Management Table 3.3.2-3: Reactor Building Closed Cooling Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-1 (AP-28) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Flow switch housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Flow switch housing Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.C2-14 (A-25) 3.3.1-47 B Heat exchanger (housing) SSR Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Heat exchanger (housing) SSR Carbon steel Air - indoor (int) Loss of materialSystem walkdown V.D2-16 (E-29) 3.2.1-32 E Heat exchanger (tubes) Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.C2-1 (A-63) 3.3.1-48 B Heat exchanger (tubes) Pressure boundary Carbon steel Untreated water (ext) Loss of materialHeat exchanger monitoring VII.C1-5 (A-64) 3.3.1-77 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 226 of 488 Table 3.3.2-3: Reactor Building Closed Cooling Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Heat exchanger (tubes) Pressure boundary Carbon steel Untreated water (ext) Loss of material-wear Heat exchanger monitoring H Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| >15% Zn Condensation (ext) Loss of materialHeat exchanger monitoring VII.F1-16 (A-46) 3.3.1-25 E Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| >15% Zn Condensation (ext) Loss of material-wear Heat exchanger monitoring H Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| >15% Zn Lube oil (ext) Loss of materialOil analysis VII.C2-5 (AP-47) 3.3.1-26 E Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| >15% Zn Lube oil (ext) Loss of material-wear Heat exchanger monitoring H Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| >15% Zn Treated water (int) Loss of materialSelective leaching VII.C2-6 (AP-43) 3.3.1-84 C, 301 Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| >15% Zn Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.F1-8 (AP-34) 3.3.1-51 D Heat exchanger (tubes) Pressure boundary Stainless steel Air - indoor (ext) Loss of material-wear Heat exchanger monitoring H Heat exchanger (tubes) Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.E3-1 (A-67) 3.3.1-49 D VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 227 of 488 Table 3.3.2-3: Reactor Building Closed Cooling Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Heat exchanger (tubes) Pressure boundary Stainless steel Treated water
| |
| >140°F (ext) Cracking Water chemistry control - BWR VII.E3-3 (A-71) 3.3.1-5 E Heat exchanger (tubes) Pressure boundary Stainless steel Treated water
| |
| >140°F (ext) Loss of materialWater chemistry control - BWR VII.A4-2 (A-70) 3.3.1-23 C Heat exchanger (tubes) Pressure boundary Stainless steel Treated water
| |
| >140°F (ext)
| |
| Loss of material-wear Heat exchanger monitoring H Heat exchanger (tubes) Pressure boundary Stainless steel Treated water
| |
| >140°F (int) Cracking Water chemistry control - closed
| |
| | |
| cooling water VII.C2-11 (AP-60) 3.3.1-46 B Heat exchanger (tubes) Pressure boundary Stainless steel Treated water
| |
| >140°F (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.E3-1 (A-67) 3.3.1-49 D Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.C2-14 (A-25) 3.3.1-47 B Thermowell Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Thermowell Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.C2-14 (A-25) 3.3.1-47 B Thermowell Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 228 of 488 Table 3.3.2-3: Reactor Building Closed Cooling Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Thermowell Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.C2-10 (A-52) 3.3.1-50 B Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.C2-14 (A-25) 3.3.1-47 B VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 229 of 488 Table 3.3.2-4 Emergency Diesel Generator Summary of Aging Management Table 3.3.2-4: Emergency Diesel Generator Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-1 (AP-28) 3.3.1-43 E Expansion joint Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Expansion joint Pressure boundary Carbon steel Exhaust gas (int) Cracking-fatigue Metal fatigue TLAA H Expansion joint Pressure boundary Carbon steel Exhaust gas (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.H2-2 (A-27) 3.3.1-18 E Expansion joint Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Expansion joint Pressure boundary Stainless steel Exhaust gas (int) Cracking Periodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.H2-1 (AP-33) 3.3.1-6 E Expansion joint Pressure boundary Stainless steel Exhaust gas (int) Cracking-fatigue Metal fatigue TLAA H VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 230 of 488 Table 3.3.2-4: Emergency Diesel Generator Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Expansion joint Pressure boundary Stainless steel Exhaust gas (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.H2-2 (A-27) 3.3.1-18 E Filter housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Filter housing Pressure boundary Carbon steel Air - indoor (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance V.D2-16 (E-29) 3.2.1-32 E Filter housing Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.H2-20 (AP-30) 3.3.1-14 E Filter housing Pressure boundary Carbon steel Air - untreated (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.H2-21 (A-23) 3.3.1-71 E Heat exchanger (bonnet) Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.H2-3 (AP-41) 3.3.1-59 A Heat exchanger (bonnet) Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.C2-1 (A-63) 3.3.1-48 D Heat exchanger (fins) Heat transfer Aluminum Air - indoor (ext) Fouling Periodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance H VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 231 of 488 Table 3.3.2-4: Emergency Diesel Generator Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Heat exchanger (shell) Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.H2-3 (AP-41) 3.3.1-59 A Heat exchanger (shell) Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.H2-5 (AP-39) 3.3.1-21 E Heat exchanger (shell) Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.C2-1 (A-63) 3.3.1-48 D Heat exchanger (shell) Pressure boundary Carbon steel Treated water
| |
| >140°F (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.C2-1 (A-63) 3.3.1-48 D Heat exchanger (shell) Pressure boundary Gray cast iron Air - indoor (ext) Loss of materialSystem walkdown VII.H2-3 (AP-41) 3.3.1-59 A Heat exchanger (shell) Pressure boundary Gray cast iron Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.C2-1 (A-63) 3.3.1-48 D Heat exchanger (shell) Pressure boundary Gray cast iron Treated water (int) Loss of materialSelective leaching VII.C2-8 (A-50) 3.3.1-85 C Heat exchanger (tubes) Heat transfer Copper alloy
| |
| <15% Zn Air - indoor (ext) Fouling Periodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance H VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 232 of 488 Table 3.3.2-4: Emergency Diesel Generator Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Heat exchanger (tubes) Heat transfer Copper alloy
| |
| <15% Zn Treated water (int) Fouling Water chemistry control - closed
| |
| | |
| cooling water VII.C2-2 (AP-80) 3.3.1-52 D Heat exchanger (tubes) Heat transfer Copper alloy>15% Zn (inhibited) Lube oil (ext) Fouling Oil analysis V.D2-9 (EP-47) 3.2.1-9 E Heat exchanger (tubes) Heat transfer Copper alloy>15% Zn (inhibited) Raw water (int) Fouling Service water integrity VII.C1-6 (A-72) 3.3.1-83 D Heat exchanger (tubes) Heat transfer Copper alloy>15% Zn (inhibited)
| |
| Treated water (ext) Fouling Water chemistry control - closed
| |
| | |
| cooling water VII.C2-2 (AP-80) 3.3.1-52 D Heat exchanger (tubes) Heat transfer Copper alloy>15% Zn (inhibited)
| |
| Treated water
| |
| >140°F (ext) Fouling Water chemistry control - closed
| |
| | |
| cooling water VII.C2-2 (AP-80) 3.3.1-52 D Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) Loss of material-wear Periodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance H Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| <15% Zn Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.F1-8 (AP-34) 3.3.1-51 D VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 233 of 488 Table 3.3.2-4: Emergency Diesel Generator Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Heat exchanger (tubes) Pressure boundary Copper alloy>15% Zn (inhibited) Lube oil (ext) Loss of materialOil analysis VII.H2-10 (AP-47) 3.3.1-26 E Heat exchanger (tubes) Pressure boundary Copper alloy>15% Zn (inhibited) Lube oil (ext) Loss of material-wear Service water integrity H Heat exchanger (tubes) Pressure boundary Copper alloy>15% Zn (inhibited) Raw water (int) Loss of materialService water integrity VII.C1-3 (A-65) 3.3.1-82 D Heat exchanger (tubes) Pressure boundary Copper alloy>15% Zn (inhibited)
| |
| Treated water (ext) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.F1-8 (AP-34) 3.3.1-51 D Heat exchanger (tubes) Pressure boundary Copper alloy>15% Zn (inhibited)
| |
| Treated water (ext) Loss of material-wear Service water integrity H Heat exchanger (tubes) Pressure boundary Copper alloy>15% Zn (inhibited)
| |
| Treated water
| |
| >140°F (ext) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.F1-8 (AP-34) 3.3.1-51 D Heat exchanger (tubes) Pressure boundary Copper alloy>15% Zn (inhibited)
| |
| Treated water
| |
| >140°F (ext)
| |
| Loss of material-wear Service water integrity H Heat exchanger (tubesheets) Pressure boundary Copper alloy
| |
| >15% Zn Lube oil (int) Loss of materialOil analysis VII.H2-10 (AP-47) 3.3.1-26 E Heat exchanger (tubesheets) Pressure boundary Copper alloy
| |
| >15% Zn Raw water (ext) Loss of materialService water integrity VII.C1-3 (A-65) 3.3.1-82 D VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 234 of 488 Table 3.3.2-4: Emergency Diesel Generator Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Heat exchanger (tubesheets) Pressure boundary Copper alloy
| |
| >15% Zn Raw water (ext) Loss of materialSelective leaching VII.C1-4 (A-66) 3.3.1-84 C Heat exchanger (tubesheets) Pressure boundary Copper alloy
| |
| >15% Zn Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.F1-8 (AP-34) 3.3.1-51 D Heat exchanger (tubesheets) Pressure boundary Copper alloy
| |
| >15% Zn Treated water (int) Loss of materialSelective leaching VII.H2-12 (AP-43) 3.3.1-84 C, 301 Heat exchanger (tubesheets) Pressure boundary Copper alloy
| |
| >15% Zn Treated water
| |
| >140°F (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.F1-8 (AP-34) 3.3.1-51 D Heat exchanger (tubesheets) Pressure boundary Copper alloy
| |
| >15% Zn Treated water
| |
| >140°F (int) Loss of materialSelective leaching VII.H2-12 (AP-43) 3.3.1-84 C, 301 Heater housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Heater housing Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.H2-20 (AP-30) 3.3.1-14 E Heater housing Pressure boundary Carbon steel Treated water
| |
| >140°F (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.H2-23 (A-25) 3.3.1-47 B Orifice Pressure boundary Flow control Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 235 of 488 Table 3.3.2-4: Emergency Diesel Generator Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Orifice Pressure boundary Flow control Carbon steel Treated water
| |
| >140°F (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.H2-23 (A-25) 3.3.1-47 B Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Air - indoor (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance V.D2-16 (E-29) 3.2.1-32 E Piping Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Piping Pressure boundary Carbon steel Exhaust gas (int) Cracking-fatigue Metal fatigue TLAA H Piping Pressure boundary Carbon steel Exhaust gas (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.H2-2 (A-27) 3.3.1-18 E Piping Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.H2-20 (AP-30) 3.3.1-14 E Piping Pressure boundary Carbon steel Treated water
| |
| >140°F (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.H2-23 (A-25) 3.3.1-47 B Piping Pressure boundary Carbon steel Air - untreated (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.H2-21 (A-23) 3.3.1-71 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 236 of 488 Table 3.3.2-4: Emergency Diesel Generator Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Piping Pressure boundary Stainless steel Air - untreated (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.F1-1 (A-09) 3.3.1-27 E, 302 Pump casing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Pump casing Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.H2-20 (AP-30) 3.3.1-14 E Pump casing Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.H2-23 (A-25) 3.3.1-47 B Pump casing Pressure boundary Carbon steel Treated water
| |
| >140°F (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.H2-23 (A-25) 3.3.1-47 B Sight glass Pressure boundary Glass Air - indoor (ext) None None VII.J-8 (AP-14) 3.3.1-93 A Sight glass Pressure boundary Glass Lube oil (int) None None VII.J-10 (AP-15) 3.3.1-93 A Sight glass Pressure boundary Glass Treated water
| |
| >140°F (int) None None VII.J-13 (AP-51) 3.3.1-93 A, 303 Silencer Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Silencer Pressure boundary Carbon steel Exhaust gas (int) Cracking-fatigue Metal fatigue TLAA H VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 237 of 488 Table 3.3.2-4: Emergency Diesel Generator Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Silencer Pressure boundary Carbon steel Exhaust gas (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.H2-2 (A-27) 3.3.1-18 E Strainer Filtration Stainless steel Air - outdoor (ext) Loss of materialSystem walkdown G Strainer Filtration Stainless steel Air - outdoor (int) Loss of materialSystem walkdown G Strainer Filtration Stainless steel Lube oil (ext) Cracking Oil analysis H Strainer Filtration Stainless steel Lube oil (ext) Loss of materialOil analysis VII.H2-17 (AP-59) 3.3.1-33 E Strainer Filtration Stainless steel Lube oil (int) Cracking Oil analysis H Strainer Filtration Stainless steel Lube oil (int) Loss of materialOil analysis VII.H2-17 (AP-59) 3.3.1-33 E Strainer housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Strainer housing Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.H2-20 (AP-30) 3.3.1-14 E Tank Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Tank Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.H2-20 (AP-30) 3.3.1-14 E Tank Pressure boundary Carbon steel Treated water
| |
| >140°F (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.H2-23 (A-25) 3.3.1-47 B VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 238 of 488 Table 3.3.2-4: Emergency Diesel Generator Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Tank Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tank Pressure boundary Stainless steel Air - untreated (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.F1-1 (A-09) 3.3.1-27 E, 302 Thermowell Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Thermowell Pressure boundary Copper alloy
| |
| >15% Zn Lube oil (int) Loss of materialOil analysis VII.H2-10 (AP-47) 3.3.1-26 E Thermowell Pressure boundary Copper alloy
| |
| >15% Zn Treated water
| |
| >140°F (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.H2-8 (AP-12) 3.3.1-51 B Thermowell Pressure boundary Copper alloy
| |
| >15% Zn Treated water
| |
| >140°F (int) Loss of materialSelective leaching VII.H2-12 (AP-43) 3.3.1-84 A, 301 Tubing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Tubing Pressure boundary Carbon steel Treated water
| |
| >140°F (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.H2-23 (A-25) 3.3.1-47 B Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Lube oil (int) Loss of materialOil analysis VII.H2-10 (AP-47) 3.3.1-26 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 239 of 488 Table 3.3.2-4: Emergency Diesel Generator Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Tubing Pressure boundary Copper alloy
| |
| <15% Zn Treated water
| |
| >140°F (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.H2-8 (AP-12) 3.3.1-51 B Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - untreated (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.G-9 (AP-78) 3.3.1-28 E, 302 Turbocharger Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Turbocharger Pressure boundary Carbon steel Exhaust gas (int) Cracking-fatigue Metal fatigue TLAA H Turbocharger Pressure boundary Carbon steel Exhaust gas (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.H2-2 (A-27) 3.3.1-18 E Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.H2-20 (AP-30) 3.3.1-14 E Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.H2-23 (A-25) 3.3.1-47 B Valve body Pressure boundary Carbon steel Air - untreated (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.H2-21 (A-23) 3.3.1-71 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 240 of 488 Table 3.3.2-4: Emergency Diesel Generator Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Valve body Pressure boundary Copper alloy
| |
| >15% Zn Lube oil (int) Loss of materialOil analysis VII.H2-10 (AP-47) 3.3.1-26 E Valve body Pressure boundary Copper alloy
| |
| >15% Zn Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.H2-8 (AP-12) 3.3.1-51 B Valve body Pressure boundary Copper alloy
| |
| >15% Zn Treated water (int) Loss of materialSelective leaching VII.H2-12 (AP-43) 3.3.1-84 A, 301 Valve body Pressure boundary Copper alloy
| |
| >15% Zn Treated water
| |
| >140°F (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.H2-8 (AP-12) 3.3.1-51 B Valve body Pressure boundary Copper alloy
| |
| >15% Zn Treated water
| |
| >140°F (int) Loss of materialSelective leaching VII.H2-12 (AP-43) 3.3.1-84 A, 301 Valve body Pressure boundary Copper alloy
| |
| >15% Zn Air - untreated (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.G-9 (AP-78) 3.3.1-28 E, 302 Valve body Pressure boundary Gray cast iron Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Gray cast iron Lube oil (int) Loss of materialOil analysis VII.H2-20 (AP-30) 3.3.1-14 E Valve body Pressure boundary Gray cast iron Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.H2-23 (A-25) 3.3.1-47 B VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 241 of 488 Table 3.3.2-4: Emergency Diesel Generator Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Gray cast iron Treated water (int) Loss of materialSelective leaching VII.C2-8 (A-50) 3.3.1-85 C Valve body Pressure boundary Gray cast iron Treated water
| |
| >140°F (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.H2-23 (A-25) 3.3.1-47 B Valve body Pressure boundary Gray cast iron Treated water
| |
| >140°F (int) Loss of materialSelective leaching VII.C2-8 (A-50) 3.3.1-85 C Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Valve body Pressure boundary Stainless steel Lube oil (int) Loss of materialOil analysis VII.H2-17 (AP-59) 3.3.1-33 E Valve body Pressure boundary Stainless steel Treated water
| |
| >140°F (int) Cracking Water chemistry control - closed
| |
| | |
| cooling water VII.C2-11 (AP-60) 3.3.1-46 D Valve body Pressure boundary Stainless steel Treated water
| |
| >140°F (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.C2-10 (A-52) 3.3.1-50 D Valve body Pressure boundary Stainless steel Air - untreated (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.F1-1 (A-09) 3.3.1-27 E, 302 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 242 of 488 Table 3.3.2-5 Fuel Pool Cooling Systems Summary of Aging Management Evaluation Table 3.3.2-5: Fuel Pool Cooling Systems Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Heat exchanger (shell) Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Heat exchanger (shell) Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.A4-2 (A-70) 3.3.1-23 A Heat exchanger (tubes) Heat transfer Stainless steel Raw water (int) Fouling Service water integrity VII.C1-7 (AP-61) 3.3.1-83 D Heat exchanger (tubes) Heat transfer Stainless steel Treated water (ext) Fouling Water chemistry control - BWR VII.A4-4 (AP-62) 3.3.1-3 A Heat exchanger (tubes) Pressure boundary Stainless steel Raw water (int) Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 D Heat exchanger (tubes) Pressure boundary Stainless steel Treated water (ext) Loss of materialWater chemistry control - BWR VII.A4-2 (A-70) 3.3.1-23 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 243 of 488 Table 3.3.2-5: Fuel Pool Cooling Systems Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Neutron absorber (boral) Neutron absorption Aluminum/boron carbide Treated water (ext) Cracking Water chemistry control - BWR H Neutron absorber (boral) Neutron absorption Aluminum/boron carbide Treated water (ext) Loss of materialWater chemistry control - BWR VII.A2-3 (A-89) 3.3.1-13 E Orifice Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Orifice Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.A4-11 (A-58) 3.3.1-24 A Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Piping Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Piping Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.A4-11 (A-58) 3.3.1-24 A Pump casing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Pump casing Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.A4-11 (A-58) 3.3.1-24 A Thermowell Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Thermowell Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.A4-11 (A-58) 3.3.1-24 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 244 of 488 Table 3.3.2-5: Fuel Pool Cooling Systems Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Tubing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tubing Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.A4-11 (A-58) 3.3.1-24 A Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Valve body Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.A4-11 (A-58) 3.3.1-24 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 245 of 488 Table 3.3.2-6 Fuel Oil System Summary of Aging Management Table 3.3.2-6: Fuel Oil System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-1 (AP-28) 3.3.1-43 E Filter housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Filter housing Pressure boundary Carbon steel Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H1-10 (A-30) 3.3.1-20 E Flame arrestor Flow control Aluminum Air - outdoor (ext) None None G Flame arrestor Flow control Aluminum Air - outdoor (int) None None G Flex hose Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Flex hose Pressure boundary Copper alloy
| |
| >15% Zn Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H1-3 (AP-44) 3.3.1-32 E Flex hose Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Flex hose Pressure boundary Stainless steel Fuel oil (int) Cracking Diesel fuel monitoring H VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 246 of 488 Table 3.3.2-6: Fuel Oil System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Flex hose Pressure boundary Stainless steel Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H1-6 (AP-54) 3.3.1-32 E Injector housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Injector housing Pressure boundary Carbon steel Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H1-10 (A-30) 3.3.1-20 E Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.H1-8 (A-24) 3.3.1-60 A Piping Pressure boundary Carbon steel Air - outdoor (int) Loss of materialSystem walkdown VIII.B1-6 (SP-59) 3.4.1-30 E Piping Pressure boundary Carbon steel Fuel oil (ext) Loss of materialDiesel fuel monitoring VII.H1-10 (A-30) 3.3.1-20 E Piping Pressure boundary Carbon steel Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H1-10 (A-30) 3.3.1-20 E Piping Pressure boundary Carbon steel Soil (ext) Loss of materialBuried piping inspection VII.H1-9 (A-01) 3.3.1-19 B Piping Pressure boundary Fiberglass Fuel oil (int) None None F Piping Pressure boundary Fiberglass Soil (ext) None None F Pump casing Pressure boundary Aluminum Air - indoor (ext) None None V.F-2 (EP-3) 3.2.1-50 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 247 of 488 Table 3.3.2-6: Fuel Oil System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Pump casing Pressure boundary Aluminum Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H1-1 (AP-35) 3.3.1-32 E Pump casing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Pump casing Pressure boundary Carbon steel Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H1-10 (A-30) 3.3.1-20 E Sight glass Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Sight glass Pressure boundary Copper alloy
| |
| >15% Zn Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H1-3 (AP-44) 3.3.1-32 E Sight glass Pressure boundary Glass Air - indoor (ext) None None VII.J-8 (AP-14) 3.3.1-93 A Sight glass Pressure boundary Glass Fuel oil (int) None None VII.J-9 (AP-49) 3.3.1-93 A Strainer housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Strainer housing Pressure boundary Carbon steel Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H1-10 (A-30) 3.3.1-20 E Tank Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Tank Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.H1-11 (A-95) 3.3.1-40 E Tank Pressure boundary Carbon steel Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H1-10 (A-30) 3.3.1-20 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 248 of 488 Table 3.3.2-6: Fuel Oil System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Tank Pressure boundary Carbon steel Concrete (ext) Loss of materialDiesel fuel monitoring G Tank Pressure boundary Fiberglass Fuel oil (int) None None F Tank Pressure boundary Fiberglass Interstitial fluid (brine) (ext) None None F Tank Pressure boundary Fiberglass Interstitial fluid (brine) (int) None None F Tank Pressure boundary Fiberglass Soil (ext) None None F Thermowell Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Thermowell Pressure boundary Stainless steel Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H1-6 (AP-54) 3.3.1-32 E Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H1-3 (AP-44) 3.3.1-32 E Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.H1-8 (A-24) 3.3.1-60 A Valve body Pressure boundary Carbon steel Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H1-10 (A-30) 3.3.1-20 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 249 of 488 Table 3.3.2-6: Fuel Oil System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Valve body Pressure boundary Copper alloy
| |
| >15% Zn Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H1-3 (AP-44) 3.3.1-32 E Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Valve body Pressure boundary Stainless steel Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H1-6 (AP-54) 3.3.1-32 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 250 of 488 Table 3.3.2-7 Instrument Air System Summary of Aging Management Table 3.3.2-7: Instrument Air System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.D-3 (A-80) 3.3.1-57 A Piping Pressure boundary Carbon steel Treated air (int) Loss of materialInstrument air quality VII.D-2 (A-26) 3.3.1-53 E Piping Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Piping Pressure boundary Stainless steel Treated air (int) Loss of materialInstrument air quality VII.D-4 (AP-81) 3.3.1-54 E Tank Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.D-3 (A-80) 3.3.1-57 A Tank Pressure boundary Carbon steel Nitrogen (int) None None VII.J-23 (AP-6) 3.3.1-97 A Tank Pressure boundary Carbon steel Treated air (int) Loss of materialInstrument air quality VII.D-2 (A-26) 3.3.1-53 E Tank Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 251 of 488 Table 3.3.2-7: Instrument Air System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Tank Pressure boundary Stainless steel Treated air (int) Loss of materialInstrument air quality VII.D-4 (AP-81) 3.3.1-54 E Tubing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.D-3 (A-80) 3.3.1-57 A Tubing Pressure boundary Carbon steel Treated air (int) Loss of materialInstrument air quality VII.D-2 (A-26) 3.3.1-53 E Tubing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tubing Pressure boundary Stainless steel Treated air (int) Loss of materialInstrument air quality VII.D-4 (AP-81) 3.3.1-54 E Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.D-3 (A-80) 3.3.1-57 A Valve body Pressure boundary Carbon steel Treated air (int) Loss of materialInstrument air quality VII.D-2 (A-26) 3.3.1-53 E Valve body Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Valve body Pressure boundary Copper alloy
| |
| >15% Zn Treated air (int) Loss of materialInstrument air quality VII.G-9 (AP-78) 3.3.1-28 E Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Valve body Pressure boundary Stainless steel Treated air (int) Loss of materialInstrument air quality VII.D-4 (AP-81) 3.3.1-54 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 252 of 488 Table 3.3.2-8 Fire Protection-Water System Summary of Aging Management Evaluation Table 3.3.2-8: Fire Protection Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-1 (AP-28) 3.3.1-43 E Bolting Pressure boundary Carbon steel Soil (ext) Loss of materialBuried piping inspection VII.G-25 (A-01) 3.3.1-19 B Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Bolting Pressure boundary Stainless steel Air - outdoor (ext) Loss of materialSystem walkdown G Bolting Pressure boundary Stainless steel Soil (ext) Loss of materialBuried piping inspection VII.G-20 (AP-56) 3.3.1-29 E Expansion joint Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Expansion joint Pressure boundary Stainless steel Exhaust gas (int) Cracking-fatigue Fire protection program H Expansion joint Pressure boundary Stainless steel Exhaust gas (int) Loss of materialFire protection program VII.H2-2 (A-27) 3.3.1-18 E Filter Filtration Stainless steel Raw water (ext) Loss of materialFire protection program VII.G-19 (A-55) 3.3.1-69 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 253 of 488 Table 3.3.2-8: Fire Protection Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Filter Filtration Stainless steel Raw water (int) Loss of materialFire protection program VII.G-19 (A-55) 3.3.1-69 E Filter housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Filter housing Pressure boundary Carbon steel Air - indoor (int) Loss of materialFire protection program V.D2-16 (E-29) 3.2.1-32 E Filter housing Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.G-22 (AP-30) 3.3.1-14 E Filter housing Pressure boundary Carbon steel Treated water
| |
| >140°F (int) Loss of materialFire protection program G, 304Filter housing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Filter housing Pressure boundary Stainless steel Raw water (int) Loss of materialFire protection program VII.G-19 (A-55) 3.3.1-69 E Flow nozzle Pressure boundary &
| |
| | |
| flow control Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Flow nozzle Pressure boundary &
| |
| | |
| flow control Carbon steel Fire protection foam (int) Loss of materialFire water system program G Flow nozzle Pressure boundary &
| |
| | |
| flow control Carbon steel Raw water (int) Loss of materialFire water system program VII.G-24 (A-33) 3.3.1-68 B Flow nozzle Pressure boundary &
| |
| | |
| flow control Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 254 of 488 Table 3.3.2-8: Fire Protection Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Flow nozzle Pressure boundary &
| |
| | |
| flow control Copper alloy
| |
| >15% Zn Fire protection foam (int) Loss of materialFire water system program G Flow nozzle Pressure boundary &
| |
| | |
| flow control Copper alloy
| |
| >15% Zn Fire protection foam (int) Loss of materialSelective leaching G Flow nozzle Pressure boundary &
| |
| | |
| flow control Copper alloy
| |
| >15% Zn Raw water (int) Loss of materialFire water system program VII.G-12 (A-45) 3.3.1-70 B Flow nozzle Pressure boundary &
| |
| | |
| flow control Copper alloy
| |
| >15% Zn Raw water (int) Loss of materialSelective leaching VII.G-13 (A-47) 3.3.1-84 A Gear box Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Gear box Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.G-22 (AP-30) 3.3.1-14 E Heat exchanger (bonnet) Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.G-5 (AP-41) 3.3.1-59 A Heat exchanger (bonnet) Pressure boundary Carbon steel Lube oil (int) Cracking-fatigue Fire protection program H Heat exchanger (bonnet) Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.H2-5 (AP-39) 3.3.1-21 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 255 of 488 Table 3.3.2-8: Fire Protection Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Heat exchanger (bonnet) Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Heat exchanger (bonnet) Pressure boundary Copper alloy
| |
| >15% Zn Raw water (int) Loss of materialFire protection program VII.G-12 (A-45) 3.3.1-70 E Heat exchanger (bonnet) Pressure boundary Copper alloy
| |
| >15% Zn Raw water (int) Loss of materialSelective leaching VII.C1-4 (A-66) 3.3.1-84 C Heat exchanger (shell) Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.G-5 (AP-41) 3.3.1-59 A Heat exchanger (shell) Pressure boundary Carbon steel Treated water
| |
| >140°F (int) Loss of materialFire protection program G, 304 Heat exchanger (shell) Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Heat exchanger (shell) Pressure boundary Copper alloy
| |
| >15% Zn Raw water (int) Loss of materialFire protection program VII.G-12 (A-45) 3.3.1-70 E Heat exchanger (shell) Pressure boundary Copper alloy
| |
| >15% Zn Raw water (int) Loss of materialSelective leaching VII.C1-4 (A-66) 3.3.1-84 C Heat exchanger (tubes) Heat transfer Copper alloy
| |
| >15% Zn Lube oil (int) Fouling Oil analysis V.D2-9 (EP-47) 3.2.1-9 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 256 of 488 Table 3.3.2-8: Fire Protection Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Heat exchanger (tubes) Heat transfer Copper alloy
| |
| >15% Zn Raw water (ext) Fouling Fire protection program VII.C1-6 (A-72) 3.3.1-83 E Heat exchanger (tubes) Heat transfer Copper alloy
| |
| >15% Zn Raw water (int) Fouling Fire protection program VII.C1-6 (A-72) 3.3.1-83 E Heat exchanger (tubes) Heat transfer Copper alloy
| |
| >15% Zn Treated water
| |
| >140°F (ext) Fouling Fire protection program G, 304 Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| >15% Zn Lube oil (int) Cracking-fatigue Fire protection program H Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| >15% Zn Lube oil (int) Loss of materialOil analysis VII.G-11 (AP-47) 3.3.1-26 E Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| >15% Zn Raw water (ext) Loss of materialFire protection program VII.G-12 (A-45) 3.3.1-70 E Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| >15% Zn Raw water (ext) Loss of materialSelective leaching VII.C1-4 (A-66) 3.3.1-84 C Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| >15% Zn Raw water (int) Loss of materialFire protection program VII.G-12 (A-45) 3.3.1-70 E Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| >15% Zn Raw water (int) Loss of materialSelective leaching VII.C1-4 (A-66) 3.3.1-84 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 257 of 488 Table 3.3.2-8: Fire Protection Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| >15% Zn Treated water
| |
| >140°F (ext) Loss of materialFire protection program G, 304 Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| >15% Zn Treated water
| |
| >140°F (ext) Loss of materialSelective leaching VII.H2-12 (AP-43) 3.3.1-84 C, 306 Heater housing Pressure boundary Aluminum Air - indoor (ext) None None V.F-2 (EP-3) 3.2.1-50 C Heater housing Pressure boundary Aluminum Treated water
| |
| >140°F (int) Loss of materialFire protection program G, 304 Heater housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Heater housing Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.G-22 (AP-30) 3.3.1-14 E Nozzle Pressure boundary &
| |
| | |
| flow control Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Nozzle Pressure boundary &
| |
| | |
| flow control Copper alloy
| |
| >15% Zn Air - outdoor (ext) Loss of materialSystem walkdown G Nozzle Pressure boundary &
| |
| | |
| flow control Copper alloy
| |
| >15% Zn Raw water (int) Loss of materialFire water system program VII.G-12 (A-45) 3.3.1-70 B Nozzle Pressure boundary &
| |
| | |
| flow control Copper alloy
| |
| >15% Zn Raw water (int) Loss of materialSelective leaching VII.G-13 (A-47) 3.3.1-84 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 258 of 488 Table 3.3.2-8: Fire Protection Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Orifice Pressure boundary &
| |
| | |
| flow control Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Orifice Pressure boundary &
| |
| | |
| flow control Carbon steel Raw water (int) Loss of materialFire water system program VII.G-24 (A-33) 3.3.1-68 B Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Air - indoor (int) Loss of materialFire water system program V.D2-16 (E-29) 3.2.1-32 E Piping Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Piping Pressure boundary Carbon steel Exhaust gas (int) Cracking-fatigue Fire protection program H Piping Pressure boundary Carbon steel Exhaust gas (int) Loss of materialFire protection program VII.H2-2 (A-27) 3.3.1-18 E Piping Pressure boundary Carbon steel Fire protection foam (int) Loss of materialFire water system program G Piping Pressure boundary Carbon steel Lube oil (int) Cracking-fatigue Fire protection program H Piping Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.G-22 (AP-30) 3.3.1-14 E Piping Pressure boundary Carbon steel Raw water (int) Loss of materialFire water system program VII.G-24 (A-33) 3.3.1-68 B VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 259 of 488 Table 3.3.2-8: Fire Protection Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Carbon steel Soil (ext) Loss of materialBuried piping inspection VII.G-25 (A-01) 3.3.1-19 B Piping Pressure boundary Carbon steel Treated water
| |
| >140°F (int) Loss of materialFire protection program G, 304 Piping Pressure boundary Gray cast iron Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Gray cast iron Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Piping Pressure boundary Gray cast iron Air - indoor (int) Loss of materialFire water system program V.D2-16 (E-29) 3.2.1-32 E Piping Pressure boundary Gray cast iron Raw water (int) Loss of materialFire water system program VII.G-24 (A-33) 3.3.1-68 B Piping Pressure boundary Gray cast iron Raw water (int) Loss of materialSelective leaching VII.G-14 (A-51) 3.3.1-85 A Piping Pressure boundary Gray cast iron Soil (ext) Loss of materialBuried piping inspection VII.G-25 (A-01) 3.3.1-19 B Piping Pressure boundary Gray cast iron Soil (ext) Loss of materialSelective leaching VII.G-15 (A-02) 3.3.1-85 A Pump casing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Pump casing Pressure boundary Carbon steel Raw water (ext) Loss of materialFire water system program VII.G-24 (A-33) 3.3.1-68 B Pump casing Pressure boundary Carbon steel Raw water (int) Loss of materialFire water system program VII.G-24 (A-33) 3.3.1-68 B VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 260 of 488 Table 3.3.2-8: Fire Protection Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Pump casing Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.G-22 (AP-30) 3.3.1-14 E Pump casing Pressure boundary Carbon steel Treated water
| |
| >140°F (int) Loss of materialFire protection program G, 304Silencer Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Silencer Pressure boundary Carbon steel Exhaust gas (int) Cracking-fatigue Fire protection program H Silencer Pressure boundary Carbon steel Exhaust gas (int) Loss of materialFire protection program VII.H2-2 (A-27) 3.3.1-18 E Strainer Filtration Carbon steel Raw water (ext) Loss of materialFire water system program VII.G-24 (A-33) 3.3.1-68 B Strainer Filtration Carbon steel Raw water (int) Loss of materialFire water system program VII.G-24 (A-33) 3.3.1-68 B Strainer Filtration Stainless steel Raw water (ext) Loss of materialFire water system program VII.G-19 (A-55) 3.3.1-69 B Strainer Filtration Stainless steel Raw water (int) Loss of materialFire water system program VII.G-19 (A-55) 3.3.1-69 B Strainer housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Strainer housing Pressure boundary Carbon steel Raw water (int) Loss of materialFire water system program VII.G-24 (A-33) 3.3.1-68 B Strainer housing Pressure boundary Gray cast iron Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 261 of 488 Table 3.3.2-8: Fire Protection Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Strainer housing Pressure boundary Gray cast iron Raw water (int) Loss of materialFire water system program VII.G-24 (A-33) 3.3.1-68 B Strainer housing Pressure boundary Gray cast iron Raw water (int) Loss of materialSelective leaching VII.G-14 (A-51) 3.3.1-85 A Tank Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Tank Pressure boundary Carbon steel Fire protection foam (int) Loss of materialFire water system program G Tank Pressure boundary Carbon steel Raw water (int) Loss of materialFire water system program VII.G-24 (A-33) 3.3.1-68 B Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (int) None None G Tubing Pressure boundary Copper alloy
| |
| <15% Zn Lube oil (int) Loss of materialOil analysis VII.G-11 (AP-47) 3.3.1-26 E Tubing Pressure boundary Copper alloy
| |
| <15% Zn Raw water (int) Loss of materialFire protection program VII.G-12 (A-45) 3.3.1-70 E Tubing Pressure boundary Copper alloy
| |
| <15% Zn Raw water (int) Loss of materialFire water system program VII.G-12 (A-45) 3.3.1-70 B Tubing Pressure boundary Copper alloy
| |
| <15% Zn Treated water
| |
| >140°F (int) Loss of materialFire protection program G, 304Turbocharger Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 262 of 488 Table 3.3.2-8: Fire Protection Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Turbocharger Pressure boundary Carbon steel Air - indoor (int) Loss of materialFire protection program V.D2-16 (E-29) 3.2.1-32 E Turbocharger Pressure boundary Carbon steel Exhaust gas (int) Cracking-fatigue Fire protection program H Turbocharger Pressure boundary Carbon steel Exhaust gas (int) Loss of materialFire protection program VII.H2-2 (A-27) 3.3.1-18 E Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.G-22 (AP-30) 3.3.1-14 E Valve body Pressure boundary Carbon steel Raw water (int) Loss of materialFire water system program VII.G-24 (A-33) 3.3.1-68 B Valve body Pressure boundary Carbon steel Treated water
| |
| >140°F (int) Loss of materialFire protection program G, 304Valve body Pressure boundary Carbon steel Fire protection foam (int) Loss of materialFire water system program G Valve body Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Valve body Pressure boundary Copper alloy
| |
| >15% Zn Fire protection foam (int) Loss of materialFire water system program G Valve body Pressure boundary Copper alloy
| |
| >15% Zn Fire protection foam (int) Loss of materialSelective leaching G Valve body Pressure boundary Copper alloy
| |
| >15% Zn Lube oil (int) Loss of materialOil analysis VII.G-11 (AP-47) 3.3.1-26 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 263 of 488 Table 3.3.2-8: Fire Protection Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Copper alloy
| |
| >15% Zn Raw water (int) Loss of materialFire water system program VII.G-12 (A-45) 3.3.1-70 B Valve body Pressure boundary Copper alloy
| |
| >15% Zn Raw water (int) Loss of materialSelective leaching VII.G-13 (A-47) 3.3.1-84 A Valve body Pressure boundary Copper alloy
| |
| >15% Zn Treated water
| |
| >140°F (int) Loss of materialFire protection program G, 304Valve body Pressure boundary Copper alloy
| |
| >15% Zn Treated water
| |
| >140°F (int) Loss of materialSelective leaching VII.H2-12 (AP-43) 3.3.1-84 C, 306 Valve body Pressure boundary Gray cast iron Raw water (int) Loss of materialFire water system program VII.G-24 (A-33) 3.3.1-68 B Valve body Pressure boundary Gray cast iron Raw water (int) Loss of materialSelective leaching VII.G-14 (A-51) 3.3.1-85 A Valve body Pressure boundary Gray cast iron Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Gray cast iron Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Valve body Pressure boundary Gray cast iron Fire protection foam (int) Loss of materialFire water system program G Valve body Pressure boundary Gray cast iron Fire protection foam (int) Loss of materialSelective leaching G Valve body Pressure boundary Gray cast iron Soil (ext) Loss of materialBuried piping inspection VII.G-25 (A-01) 3.3.1-19 B Valve body Pressure boundary Gray cast iron Soil (ext) Loss of materialSelective Leaching VII.G-15 (A-02) 3.3.1-85 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 264 of 488 Table 3.3.2-8: Fire Protection Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Valve body Pressure boundary Stainless steel Treated water
| |
| >140°F (int) Cracking Fire protection program G, 304Valve body Pressure boundary Stainless steel Treated water
| |
| >140°F (int) Loss of materialFire protection program G, 304 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 265 of 488 Table 3.3.2-9 Fire Protection-CO 2 System Summary of Aging Management Evaluation Table 3.3.2-9: Fire Protection-CO 2 System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-1 (AP-28) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Bolting Pressure boundary Stainless steel Air - outdoor (ext) Loss of materialSystem walkdown G Coil Pressure boundary Copper alloy
| |
| >15% Zn Gas (ext) None None VII.J-4 (AP-9) 3.3.1-97 C Coil Pressure boundary Copper alloy
| |
| >15% Zn Gas (int) None None VII.J-4 (AP-9) 3.3.1-97 C Filter housing Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Filter housing Pressure boundary Carbon steel Gas (int) None None VII.J-23 (AP-6) 3.3.1-97 A Heater housing Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Heater housing Pressure boundary Carbon steel Gas (int) None None VII.J-23 (AP-6) 3.3.1-97 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 266 of 488 Table 3.3.2-9: Fire Protection-CO 2 System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Nozzle Pressure boundary &
| |
| | |
| flow control Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Nozzle Pressure boundary &
| |
| | |
| flow control Carbon steel Air - indoor (int) Loss of materialSystem walkdown V.D2-16 (E-29) 3.2.1-32 E Nozzle Pressure boundary &
| |
| | |
| flow control Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Nozzle Pressure boundary &
| |
| | |
| flow control Copper alloy
| |
| >15% Zn Air - indoor (int) None None G Nozzle Pressure boundary &
| |
| | |
| flow control Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Nozzle Pressure boundary &
| |
| | |
| flow control Stainless steel Air - indoor (int) None None G Orifice Pressure boundary &
| |
| | |
| flow control Stainless steel Air - outdoor (ext) Loss of materialSystem walkdown G Orifice Pressure boundary &
| |
| | |
| flow control Stainless steel Gas (int) None None VII.J-19 (AP-22) 3.3.1-97 A Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 267 of 488 Table 3.3.2-9: Fire Protection-CO 2 System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Carbon steel Air - indoor (int) Loss of materialSystem walkdown V.D2-16 (E-29) 3.2.1-32 E Piping Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Piping Pressure boundary Carbon steel Gas (int) None None VII.J-23 (AP-6) 3.3.1-97 A Piping Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Piping Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (int) None None G Piping Pressure boundary Copper alloy
| |
| >15% Zn Air - outdoor (ext) Loss of materialSystem walkdown G Piping Pressure boundary Copper alloy
| |
| >15% Zn Gas (int) None None VII.J-4 (AP-9) 3.3.1-97 A Pump casing Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Pump casing Pressure boundary Carbon steel Gas (int) None None VII.J-23 (AP-6) 3.3.1-97 A Siren body Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Siren body Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (int) None None G Strainer Pressure boundary &
| |
| | |
| filtration Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 268 of 488 Table 3.3.2-9: Fire Protection-CO 2 System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Strainer Pressure boundary &
| |
| | |
| filtration Carbon steel Gas (int) None None VII.J-23 (AP-6) 3.3.1-97 A Tank Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Tank Pressure boundary Carbon steel Air - indoor (int) Loss of materialSystem walkdown V.D2-16 (E-29) 3.2.1-32 E Tank Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 C Tank Pressure boundary Carbon steel Gas (int) None None VII.J-23 (AP-6) 3.3.1-97 A Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (int) None None G Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - outdoor (ext) Loss of materialSystem walkdown G Tubing Pressure boundary Copper alloy
| |
| <15% Zn Gas (int) None None VII.J-4 (AP-9) 3.3.1-97 A Tubing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tubing Pressure boundary Stainless steel Air - indoor (int) None None G Tubing Pressure boundary Stainless steel Air - outdoor (ext) Loss of materialSystem walkdown G VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 269 of 488 Table 3.3.2-9: Fire Protection-CO 2 System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Tubing Pressure boundary Stainless steel Gas (int) None None VII.J-19 (AP-22) 3.3.1-97 A Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Carbon steel Air - indoor (int) Loss of materialSystem walkdown V.D2-16 (E-29) 3.2.1-32 E Valve body Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Valve body Pressure boundary Carbon steel Gas (int) None None VII.J-23 (AP-6) 3.3.1-97 A Valve body Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Valve body Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (int) None None G Valve body Pressure boundary Copper alloy
| |
| >15% Zn Air - outdoor (ext) Loss of materialSystem walkdown G Valve body Pressure boundary Copper alloy
| |
| >15% Zn Gas (int) None None VII.J-4 (AP-9) 3.3.1-97 A Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Valve body Pressure boundary Stainless steel Air - indoor (int) None None G Valve body Pressure boundary Stainless steel Air - outdoor (ext) Loss of materialSystem walkdown G VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 270 of 488 Table 3.3.2-9: Fire Protection-CO 2 System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Stainless steel Gas (int) None None VII.J-19 (AP-22) 3.3.1-97 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 271 of 488 Table 3.3.2-10 Heating, Ventilation and Air Conditioning Systems Summary of Aging Management Table 3.3.2-10: Heating, Ventilation and Air Conditioning Systems Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.F1-4 (A-105) 3.3.1-55 A Bolting Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-1 (AP-28) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Bolting Pressure boundary Stainless steel Air - outdoor (ext) Loss of materialSystem walkdown G Compressor housing Pressure boundary Copper alloy
| |
| <15% Zn Condensation (ext) Loss of materialSystem walkdown VII.F1-16 (A-46) 3.3.1-25 E Compressor housing Pressure boundary Copper alloy
| |
| <15% Zn Freon (int) None None VII.J-4 (AP-9) 3.3.1-97 A Damper housing Pressure boundary Aluminum Air - outdoor (ext) Loss of materialSystem walkdown G Damper housing Pressure boundary Aluminum Air - outdoor (int) Loss of materialSystem walkdown G Damper housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.F1-2 (A-10) 3.3.1-56 A Damper housing Pressure boundary Carbon steel Air - indoor (int) Loss of materialSystem walkdown V.B-1 (E-25) 3.2.1-32 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 272 of 488 Table 3.3.2-10: Heating, Ventilation and Air Conditioning Systems Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Damper housing Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Damper housing Pressure boundary Carbon steel Air - outdoor (int) Loss of materialSystem walkdown VIII.B1-6 (SP-59) 3.4.1-30 E Duct Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.F1-2 (A-10) 3.3.1-56 A Duct Pressure boundary Carbon steel Air - indoor (int) Loss of materialSystem walkdown V.B-1 (E-25) 3.2.1-32 E Duct Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Duct flexible connection Pressure boundary Elastomer Air - indoor (ext) Change in material properties Periodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.F1-7 (A-17) 3.3.1-11 E Duct flexible connection Pressure boundary Elastomer Air - indoor (ext) Cracking Periodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.F1-7 (A-17) 3.3.1-11 E Duct flexible connection Pressure boundary Fiberglass Air - indoor (int) None None F Expansion joint Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Expansion joint Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.F1-20 (A-25) 3.3.1-47 B VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 273 of 488 Table 3.3.2-10: Heating, Ventilation and Air Conditioning Systems Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Fan housing Pressure boundary Aluminum Air - outdoor (ext) Loss of materialSystem walkdown G Fan housing Pressure boundary Aluminum Air - outdoor (int) Loss of materialSystem walkdown G Fan housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.F1-2 (A-10) 3.3.1-56 A Fan housing Pressure boundary Carbon steel Air - indoor (int) Loss of materialSystem walkdown V.B-1 (E-25) 3.2.1-32 E Fan housing Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Fan housing Pressure boundary Carbon steel Air - outdoor (int) Loss of materialSystem walkdown VIII.B1-6 (SP-59) 3.4.1-30 E Filter housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.F1-2 (A-10) 3.3.1-56 A Filter housing Pressure boundary Carbon steel Air - indoor (int) Loss of materialSystem walkdown V.B-1 (E-25) 3.2.1-32 E Heat exchanger (fins) Heat transfer Aluminum Condensation (ext) Fouling Service water integrity H Heat exchanger (housing) Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Heat exchanger (housing) Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 274 of 488 Table 3.3.2-10: Heating, Ventilation and Air Conditioning Systems Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Heat exchanger (housing) Pressure boundary Carbon steel Condensation (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.F1-3 (A-08) 3.3.1-72 E Heat exchanger (shell) Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Heat exchanger (shell) Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.F1-11 (A-63) 3.3.1-48 B Heat exchanger (tubes) Heat transfer Copper alloy
| |
| <15% Zn Condensation (ext) Fouling Periodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance H Heat exchanger (tubes) Heat transfer Copper alloy
| |
| <15% Zn Condensation (ext) Fouling Service water integrity H Heat exchanger (tubes) Heat transfer Copper alloy
| |
| <15% Zn Raw water (int) Fouling Service water integrity VII.C1-6 (A-72) 3.3.1-83 D Heat exchanger (tubes) Heat transfer Copper alloy
| |
| <15% Zn Treated water (ext) Fouling Water chemistry control - closed
| |
| | |
| cooling water VII.F1-12 (AP-80) 3.3.1-52 B Heat exchanger (tubes) Heat transfer Copper alloy
| |
| <15% Zn Treated water (int) Fouling Water chemistry control - closed
| |
| | |
| cooling water VII.F1-12 (AP-80) 3.3.1-52 B VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 275 of 488 Table 3.3.2-10: Heating, Ventilation and Air Conditioning Systems Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| <15% Zn Condensation (ext) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.F1-16 (A-46) 3.3.1-25 E Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| <15% Zn Condensation (ext) Loss of materialService water integrity VII.F1-16 (A-46) 3.3.1-25 E Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| <15% Zn Condensation (ext) Loss of material-wear Periodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance H Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| <15% Zn Condensation (ext) Loss of material-wear Service water integrity H Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| <15% Zn Freon (int) None None VII.J-4 (AP-9) 3.3.1-97 C Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| <15% Zn Raw water (int) Loss of materialService water integrity VII.C1-3 (A-65) 3.3.1-82 D Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| <15% Zn Steam > 220°f (int) Loss of materialWater chemistry control - auxiliary systems G Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| <15% Zn Treated water (ext) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.F1-8 (AP-34) 3.3.1-51 B VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 276 of 488 Table 3.3.2-10: Heating, Ventilation and Air Conditioning Systems Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| <15% Zn Treated water (ext) Loss of material-wear Periodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance H Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| <15% Zn Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.F1-8 (AP-34) 3.3.1-51 B Heater housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.F1-2 (A-10) 3.3.1-56 A Heater housing Pressure boundary Carbon steel Steam > 220°F (int) Cracking-fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Heater housing Pressure boundary Carbon steel Steam > 220°F (int) Loss of materialWater chemistry control - auxiliary systems VIII.B2-3 (S-05) 3.4.1-37 E Humidifier housing Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Humidifier housing Pressure boundary Copper alloy
| |
| >15% Zn Treated water (int) Loss of materialSelective leaching VII.C2-6 (AP-43) 3.3.1-84 C, 306 Humidifier housing Pressure boundary Copper alloy
| |
| >15% Zn Treated water (int) Loss of materialWater chemistry control - auxiliary systems VIII.F1-8 (AP-34) 3.3.1-51 E, 305 Louver housing Pressure boundary Aluminum Air - outdoor (ext) Loss of materialSystem walkdown G Louver housing Pressure boundary Aluminum Air - outdoor (int) Loss of materialSystem walkdown G VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 277 of 488 Table 3.3.2-10: Heating, Ventilation and Air Conditioning Systems Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.F1-2 (A-10) 3.3.1-56 A Piping Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Piping Pressure boundary Carbon steel Steam > 220°f (int) Cracking-fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Piping Pressure boundary Carbon steel Steam > 220°F (int) Loss of materialWater chemistry control - auxiliary systems VIII.B2-3 (S-05) 3.4.1-37 E Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.F1-20 (A-25) 3.3.1-47 B Piping Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Piping Pressure boundary Copper alloy
| |
| >15% Zn Treated water (int) Loss of materialSelective leaching VII.C2-6 (AP-43) 3.3.1-84 C, 306 Piping Pressure boundary Copper alloy
| |
| >15% Zn Treated water (int) Loss of materialWater chemistry control - auxiliary systems VIII.F1-8 (AP-34) 3.3.1-51 E, 305 Pump casing Pressure boundary Copper alloy
| |
| >15% Zn Condensation (ext) Loss of materialSystem walkdown VII.F1-16 (A-46) 3.3.1-25 E Pump casing Pressure boundary Copper alloy
| |
| >15% Zn Treated water (int) Loss of materialSelective leaching VII.F1-17 (AP-43) 3.3.1-84 C, 301 Pump casing Pressure boundary Copper alloy
| |
| >15% Zn Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.F1-15 (AP-12) 3.3.1-51 B VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 278 of 488 Table 3.3.2-10: Heating, Ventilation and Air Conditioning Systems Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Sight glass Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Sight glass Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.F1-20 (A-25) 3.3.1-47 B Sight glass Pressure boundary Glass Condensation (ext) None None G Sight glass Pressure boundary Glass Treated water (int) None None VII.J-13 (AP-51) 3.3.1-93 A Strainer Filtration Stainless steel Treated water (ext) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.C2-10 (A-52) 3.3.1-50 D Strainer Filtration Stainless steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.C2-10 (A-52) 3.3.1-50 D Strainer housing Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Strainer housing Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.F1-20 (A-25) 3.3.1-47 B Tank Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Tank Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.F1-20 (A-25) 3.3.1-47 B VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 279 of 488 Table 3.3.2-10: Heating, Ventilation and Air Conditioning Systems Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - outdoor (ext) Loss of materialSystem walkdown G Tubing Pressure boundary Copper alloy
| |
| <15% Zn Condensation (ext) Loss of materialSystem walkdown VII.F1-16 (A-46) 3.3.1-25 E Tubing Pressure boundary Copper alloy
| |
| <15% Zn Freon (int) None None VII.J-4 (AP-9) 3.3.1-97 A Valve body Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.F1-20 (A-25) 3.3.1-47 B Valve body Pressure boundary Gray cast iron Air - indoor (int) Loss of materialSystem walkdown V.B-1 (E-25) 3.2.1-32 E Valve body Pressure boundary Gray cast iron Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Valve body Pressure boundary Copper alloy
| |
| <15% Zn Air - outdoor (ext) Loss of materialSystem walkdown G Valve body Pressure boundary Copper alloy
| |
| <15% Zn Freon (int) None None VII.J-4 (AP-9) 3.3.1-97 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 280 of 488 Table 3.3.2-11 Primary Containment Atmosphere Control and Containment Air Dilution Summary of Aging Management Table 3.3.2-11: Primary Containment Atmos phere Control and Containment Air Dilution Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Diaphragm Pressure boundary Stainless steel Air - indoor (int) None None G Diaphragm Pressure boundary Stainless steel Silicone (ext) None None G Diaphragm Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.A4-11 (A-58) 3.3.1-24 C Dryer Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Dryer Pressure boundary Stainless steel Air - indoor (int) None None G Filter housing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Filter housing Pressure boundary Stainless steel Air - indoor (int) None None G Heat exchanger Heat transfer Stainless steel Air - indoor (ext) Fouling Periodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance H VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 281 of 488 Table 3.3.2-11: Primary Containment Atmos phere Control and Containment Air Dilution Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Heat exchanger Heat transfer Stainless steel Air - indoor (int) None None G Heat exchanger Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Heat exchanger Pressure boundary Stainless steel Air - indoor (int) None None G Orifice Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Orifice Pressure boundary Stainless steel Air - indoor (int) None None G Orifice Pressure
| |
| : boundary, Flow control Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Orifice Pressure
| |
| : boundary, Flow control Stainless steel Air - indoor (int) None None G Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Air - indoor (int) Loss of materialSystem walkdown V.D2-16 (E-29) 3.2.1-32 E Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Piping Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 282 of 488 Table 3.3.2-11: Primary Containment Atmos phere Control and Containment Air Dilution Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Stainless steel Air - indoor (int) None None G Piping Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.A4-11 (A-58) 3.3.1-24 C Pump casing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Pump casing Pressure boundary Stainless steel Air - indoor (int) None None G Tank Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Tank Pressure boundary Carbon steel Air - indoor (int) Loss of materialSystem walkdown V.D2-16 (E-29) 3.2.1-32 E Trap Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Trap Pressure boundary Carbon steel Air - indoor (int) Loss of materialSystem walkdown V.D2-16 (E-29) 3.2.1-32 E Trap Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Trap Pressure boundary Stainless steel Air - indoor (int) None None G Tubing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tubing Pressure boundary Stainless steel Air - indoor (int) None None G VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 283 of 488 Table 3.3.2-11: Primary Containment Atmos phere Control and Containment Air Dilution Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Tubing Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.A4-11 (A-58) 3.3.1-24 C Tubing Pressure boundary Stainless steel Treated water
| |
| >482°F (int) Cracking Water chemistry control - BWR VII.E4-15 (A-61) 3.3.1-38 E Tubing Pressure boundary Stainless steel Treated water
| |
| >482°F (int)
| |
| Cracking-fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 C Tubing Pressure boundary Stainless steel Treated water
| |
| >482°F (int) Loss of materialWater chemistry control - BWR VII.A4-11 (A-58) 3.3.1-24 C Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Carbon steel Air - indoor (int) Loss of materialSystem walkdown V.D2-16 (E-29) 3.2.1-32 E Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Valve body Pressure boundary Stainless steel Air - indoor (int) None None G Valve body Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.A4-11 (A-58) 3.3.1-24 C Valve body Pressure boundary Stainless steel Treated water
| |
| >482°F (int) Cracking Water chemistry control - BWR VII.E4-15 (A-61) 3.3.1-38 E Valve body Pressure boundary Stainless steel Treated water
| |
| >482°F (int)
| |
| Cracking-fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 284 of 488 Table 3.3.2-11: Primary Containment Atmos phere Control and Containment Air Dilution Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Stainless steel Treated water
| |
| >482°F (int) Loss of materialWater chemistry control - BWR VII.A4-11 (A-58) 3.3.1-24 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 285 of 488 Table 3.3.2-12 John Deere Diesel Summary of Aging Management Table 3.3.2-12: John Deere Diesel Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Expansion joint Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Expansion joint Pressure boundary Stainless steel Exhaust gas (int) Cracking-fatigue Periodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance H Expansion joint Pressure boundary Stainless steel Exhaust gas (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.H2-2 (A-27) 3.3.1-18 E Filter housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Filter housing Pressure boundary Carbon steel Air - indoor (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance V.D2-16 (E-29) 3.2.1-32 E Heat exchanger (radiator)
| |
| Heat transfer Copper alloy
| |
| >15% Zn Air - indoor (ext) Fouling Periodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance H VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 286 of 488 Table 3.3.2-12: John Deere Diesel Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Heat exchanger (radiator)
| |
| Heat transfer Copper alloy
| |
| >15% Zn Treated water
| |
| >140°F (int) Fouling Water chemistry control - auxiliary systems G, 304 Heat exchanger (radiator) Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (ext) loss of material (wear) Periodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance H Heat exchanger (radiator) Pressure boundary Copper alloy
| |
| >15% Zn Treated water
| |
| >140°F (int) Loss of materialWater chemistry control - auxiliary systems G, 304 Heat exchanger (radiator) Pressure boundary Copper alloy
| |
| >15% Zn Treated water
| |
| >140°F (int) Loss of materialSelective leaching VII.H2-12 (AP-43) 3.3.1-84 C, 306 Heat exchanger (shell) Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Heat exchanger (shell) Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.H2-5 (AP-39) 3.3.1-21 E Heat exchanger (tubes) Heat transfer Copper alloy
| |
| >15% Zn Lube oil (ext) Fouling Oil analysis V.D2-9 (EP-47) 3.2.1-9 E Heat exchanger (tubes) Heat transfer Copper alloy
| |
| >15% Zn Treated water
| |
| >140°F (int) Fouling Water chemistry control - auxiliary systems G, 304 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 287 of 488 Table 3.3.2-12: John Deere Diesel Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| >15% Zn Lube oil (ext) Loss of materialOil analysis VII.H2-10 (AP-47) 3.3.1-26 E Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| >15% Zn Lube oil (ext) Loss of material-wear Periodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance H Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| >15% Zn Treated water
| |
| >140°F (int) Loss of materialWater chemistry control - auxiliary systems G, 304 Heat exchanger (tubes) Pressure boundary Copper alloy
| |
| >15% Zn Treated water
| |
| >140°F (int) Loss of materialSelective leaching VII.H2-12 (AP-43) 3.3.1-84 C, 306 Heater housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Heater housing Pressure boundary Carbon steel Treated water
| |
| >140°F (int) Loss of materialWater chemistry control - auxiliary systems G, 304 Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Air - indoor (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance V.D2-16 (E-29) 3.2.1-32 E Piping Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 288 of 488 Table 3.3.2-12: John Deere Diesel Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Carbon steel Exhaust gas (int) Cracking-fatigue Periodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance H Piping Pressure boundary Carbon steel Exhaust gas (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.H2-2 (A-27) 3.3.1-18 E Piping Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.H2-20 (AP-30) 3.3.1-14 E Piping Pressure boundary Carbon steel Treated water
| |
| >140°F (int) Loss of materialWater chemistry control - auxiliary systems G, 304Pump casing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Pump casing Pressure boundary Carbon steel Lube oil (ext) Loss of materialOil analysis VII.H2-20 (AP-30) 3.3.1-14 E Pump casing Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.H2-20 (AP-30) 3.3.1-14 E Pump casing Pressure boundary Carbon steel Treated water
| |
| >140°F (int) Loss of materialWater chemistry control - auxiliary systems G, 304Silencer Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 289 of 488 Table 3.3.2-12: John Deere Diesel Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Silencer Pressure boundary Carbon steel Exhaust gas (int) Cracking-fatigue Periodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance H Silencer Pressure boundary Carbon steel Exhaust gas (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.H2-2 (A-27) 3.3.1-18 E Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Lube oil (int) Loss of materialOil analysis VII.H2-10 (AP-47) 3.3.1-26 E Turbocharger Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Turbocharger Pressure boundary Carbon steel Air - indoor (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance V.D2-16 (E-29) 3.2.1-32 E Turbocharger Pressure boundary Carbon steel Exhaust gas (int) Cracking-fatigue Periodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance H Turbocharger Pressure boundary Carbon steel Exhaust gas (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.H2-2 (A-27) 3.3.1-18 E
| |
| | |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 290 of 488 Table 3.3.2-13-1 Augmented Offgas (AOG) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-1: Augmented Offgas System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Filter housing Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Filter housing Pressure boundary Copper alloy
| |
| >15% Zn Treated water (int) Loss of materialSelective leaching VII.E3-11 (AP-32) 3.3.1-84 C Filter housing Pressure boundary Copper alloy
| |
| >15% Zn Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-9 (AP-64) 3.3.1-31 C Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Tank Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Tank Pressure boundary Copper alloy
| |
| >15% Zn Treated water (int) Loss of materialSelective leaching VII.E3-11 (AP-32) 3.3.1-84 C Tank Pressure boundary Copper alloy
| |
| >15% Zn Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-9 (AP-64) 3.3.1-31 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 291 of 488 3.3.2-13-1: Augmented Offgas System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-9 (AP-64) 3.3.1-31 C Valve body Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Valve body Pressure boundary Copper alloy
| |
| >15% Zn Treated water (int) Loss of materialSelective leaching VII.E3-11 (AP-32) 3.3.1-84 C Valve body Pressure boundary Copper alloy
| |
| >15% Zn Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-9 (AP-64) 3.3.1-31 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 292 of 488 Table 3.3.2-13-2 Condensate (C) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-2: Condensate System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VIII.H-4 (S-34) 3.4.1-22 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VIII.I-10 (SP-12) 3.4.1-41 C Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VIII.H-7 (S-29) 3.4.1-28 A Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VIII.E-33 (S-09) 3.4.1-4 A Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None VIII.I-2 (SP-6) 3.4.1-41 A Tubing Pressure boundary Copper alloy
| |
| <15% Zn Treated water (int) Loss of materialWater chemistry control - BWR VIII.A-5 (SP-61) 3.4.1-15 C Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VIII.H-7 (S-29) 3.4.1-28 A Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VIII.E-33 (S-09) 3.4.1-4 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 293 of 488 Table 3.3.2-13-3 Containment Air Dilution (CAD) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-3: Containment Air Dilution System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Duct Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Duct Pressure boundary Carbon steel Air - indoor (int) Loss of materialSystem walkdown V.D2-16 (E-29) 3.2.1-32 E Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Air - indoor (int) Loss of materialSystem walkdown V.D2-16 (E-29) 3.2.1-32 E Tubing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Tubing Pressure boundary Carbon steel Air - indoor (int) Loss of materialSystem walkdown V.D2-16 (E-29) 3.2.1-32 E Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Carbon steel Air - indoor (int) Loss of materialSystem walkdown V.D2-16 (E-29) 3.2.1-32 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 294 of 488 Table 3.3.2-13-4 Condensate Demineralizer (CD) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-4: Condensate Demineralizer System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VIII.H-7 (S-29) 3.4.1-28 A Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VIII.E-33 (S-09) 3.4.1-4 A Strainer housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VIII.H-7 (S-29) 3.4.1-28 A Strainer housing Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VIII.E-33 (S-09) 3.4.1-4 A Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VIII.H-7 (S-29) 3.4.1-28 A Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VIII.E-33 (S-09) 3.4.1-4 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 295 of 488 Table 3.3.2-13-5 Control Rod Drive (CRD) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management 3.3.2-13-5: Control Rod Drive System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Filter housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Filter housing Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Filter housing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Filter housing Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Orifice Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Orifice Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Orifice Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Orifice Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 296 of 488 3.3.2-13-5: Control Rod Drive System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Piping Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Piping Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Pump casing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Pump casing Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Pump casing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Pump casing Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Strainer housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Strainer housing Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Strainer housing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Strainer housing Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 297 of 488 3.3.2-13-5: Control Rod Drive System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Tank Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Tank Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Tank Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tank Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-9 (AP-64) 3.3.1-31 C Tubing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tubing Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Valve body Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 298 of 488 Table 3.3.2-13-6 Core Spray (CS) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-6: Core Spray System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown V.E-4 (EP-25) 3.2.1-23 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 C Bearing housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown V.E-7 (E-44) 3.2.1-31 A Bearing housing Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis V.D2-30 (EP-46) 3.2.1-16 E Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown V.E-7 (E-44) 3.2.1-31 A Piping Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis V.D2-30 (EP-46) 3.2.1-16 E Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Piping Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Piping Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Tubing Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 299 of 488 3.3.2-13-6: Core Spray System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Tubing Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 A Tubing Pressure boundary Copper alloy
| |
| <15% Zn Lube oil (int) Loss of materialOil analysis V.D2-22 (EP-45) 3.2.1-6 E Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown V.E-7 (E-44) 3.2.1-31 A Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Valve body Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 A Valve body Pressure boundary Copper alloy
| |
| >15% Zn Lube oil (int) Loss of materialOil analysis V.D2-22 (EP-45) 3.2.1-6 E Valve body Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 A Valve body Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR V.D2-28 (EP-32) 3.2.1-5 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 300 of 488 Table 3.3.2-13-7 Condensate Storage and Transfer (CST) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-7: Condensate Storage and Transfer System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VIII.H-4 (S-34) 3.4.1-22 E Bolting Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VIII.H-1 (S-32) 3.4.1-22 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VIII.I-10 (SP-12) 3.4.1-41 C Bolting Pressure boundary Stainless steel Air - outdoor (ext) Loss of materialSystem walkdown G Orifice Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VIII.H-8 (S-41) 3.4.1-28 A Orifice Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VIII.E-33 (S-09) 3.4.1-4 A Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VIII.H-7 (S-29) 3.4.1-28 A Piping Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VIII.H-8 (S-41) 3.4.1-28 A Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VIII.E-33 (S-09) 3.4.1-4 A Pump casing Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VIII.H-8 (S-41) 3.4.1-28 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 301 of 488 3.3.2-13-7: Condensate Storage and Transfer System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Pump casing Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VIII.E-33 (S-09) 3.4.1-4 A Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None VIII.I-2 (SP-6) 3.4.1-41 A Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - outdoor (ext) Loss of materialSystem walkdown G Tubing Pressure boundary Copper alloy
| |
| <15% Zn Treated water (int) Loss of materialWater chemistry control - BWR VIII.A-5 (SP-61) 3.4.1-15 C Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VIII.H-7 (S-29) 3.4.1-28 A Valve body Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VIII.H-8 (S-41) 3.4.1-28 A Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VIII.E-33 (S-09) 3.4.1-4 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 302 of 488 Table 3.3.2-13-8 RWCU Filter Demineralizer (CUFD) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-8: RWCU Filter Demineralizer System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Filter housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Filter housing Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Filter housing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Filter housing Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Orifice Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Orifice Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Orifice Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Orifice Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 303 of 488 3.3.2-13-8: RWCU Filter Demineralizer System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Piping Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Piping Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Pump casing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Pump casing Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Sight glass Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Sight glass Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Sight glass Pressure boundary Glass Air - indoor (ext) None None VII.J-8 (AP-14) 3.3.1-93 A Sight glass Pressure boundary Glass Treated water (int) None None VII.J-13 (AP-51) 3.3.1-93 A Sight glass Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Sight glass Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 304 of 488 3.3.2-13-8: RWCU Filter Demineralizer System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Strainer housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Strainer housing Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Strainer housing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Strainer housing Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Tank Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Tank Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Tank Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tank Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-9 (AP-64) 3.3.1-31 C Tubing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tubing Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 305 of 488 3.3.2-13-8: RWCU Filter Demineralizer System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Valve body Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 306 of 488 Table 3.3.2-13-9 Circulating Water (CW) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-9: Circulating Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VIII.H-1 (S-32) 3.4.1-22 E Bolting Pressure boundary Stainless steel Air - outdoor (ext) None None G Piping Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VIII.H-10 (S-42) 3.4.1-28 A Piping Pressure boundary Carbon steel Raw water (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VIII.E-6 (S-24) 3.4.1-31 E Pump casing Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VIII.H-10 (S-42) 3.4.1-28 A Pump casing Pressure boundary Carbon steel Raw water (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VIII.E-6 (S-24) 3.4.1-31 E Tubing Pressure boundary Copper alloy
| |
| <15% Zn Condensation (ext) Loss of materialSystem walkdown VII.F1-16 (A-46) 3.3.1-25 E Tubing Pressure boundary Copper alloy
| |
| <15% Zn Raw water (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
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| | |
| maintenance VIII.E-18 (SP-31) 3.4.1-32 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 307 of 488 3.3.2-13-9: Circulating Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VIII.H-10 (S-42) 3.4.1-28 A Valve body Pressure boundary Carbon steel Raw water (int) Loss of materialPeriodic surveillance and
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| preventive
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| maintenance VIII.E-6 (S-24) 3.4.1-31 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 308 of 488 Table 3.3.2-13-10 Diesel Generator & Auxiliaries (DG) Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-10: Diesel Generator & Auxiliaries Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Compressor housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Compressor housing Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
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| cooling water VII.H2-23 (A-25) 3.3.1-47 B Compressor housing Pressure boundary Carbon steel Untreated air (int)Loss of materialPeriodic surveillance and
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| preventive
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| maintenance VII.H2-21 (A-23) 3.3.1-71 E, 302 Filter housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Filter housing Pressure boundary Carbon steel Untreated air (int)Loss of materialPeriodic surveillance and
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| | |
| preventive
| |
| | |
| maintenance VII.H2-21 (A-23) 3.3.1-71 E, 302 Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 309 of 488 3.3.2-13-10: Diesel Generator & Auxiliaries Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Carbon steel Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H2-24 (A-30) 3.3.1-20 E Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
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| cooling water VII.H2-23 (A-25) 3.3.1-47 B Piping Pressure boundary Carbon steel Untreated air (int)Loss of materialPeriodic surveillance and
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| preventive
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| maintenance VII.H2-21 (A-23) 3.3.1-71 E, 302 Tank Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Tank Pressure boundary Carbon steel Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H2-24 (A-30) 3.3.1-20 E Tank Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.H2-23 (A-25) 3.3.1-47 B Tubing Pressure boundary Copper alloy
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| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Tubing Pressure boundary Copper alloy
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| <15% Zn Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H2-9 (AP-44) 3.3.1-32 E Tubing Pressure boundary Copper alloy
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| <15% Zn Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.H2-8 (AP-12) 3.3.1-51 B Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 310 of 488 3.3.2-13-10: Diesel Generator & Auxiliaries Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Carbon steel Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H2-24 (A-30) 3.3.1-20 E Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.H2-23 (A-25) 3.3.1-47 B Valve body Pressure boundary Carbon steel Untreated air (int)Loss of materialPeriodic surveillance and
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| | |
| preventive
| |
| | |
| maintenance VII.H2-21 (A-23) 3.3.1-71 E, 302 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 311 of 488 Table 3.3.2-13-11 Diesel Lube Oil (DLO) Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-11: Diesel Lube Oil Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.H2-20 (AP-30) 3.3.1-14 E Tubing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Tubing Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.H2-20 (AP-30) 3.3.1-14 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 312 of 488 Table 3.3.2-13-12 Demineralized Water (DW) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-12: Demineralized Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Orifice Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Orifice Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Orifice Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Piping Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Piping Pressure boundary Copper alloy
| |
| >15% Zn Treated water (int) Loss of materialSelective leaching VII.E3-11 (AP-32) 3.3.1-84 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 313 of 488 3.3.2-13-12: Demineralized Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Copper alloy
| |
| >15% Zn Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Piping Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Piping Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Pump casing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Pump casing Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Pump casing Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Tank Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Tank Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Tubing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Tubing Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Tubing Pressure boundary Copper alloy
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| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Tubing Pressure boundary Copper alloy
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| <15% Zn Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 314 of 488 3.3.2-13-12: Demineralized Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Tubing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tubing Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Valve body Pressure boundary Copper alloy
| |
| >15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Valve body Pressure boundary Copper alloy
| |
| >15% Zn Treated water (int) Loss of materialSelective leaching VII.E3-11 (AP-32) 3.3.1-84 C Valve body Pressure boundary Copper alloy
| |
| >15% Zn Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Valve body Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 315 of 488 Table 3.3.2-13-13 Feedwater (FDW) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-13: Feedwater System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VIII.H-4 (S-34) 3.4.1-22 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VIII.I-10 (SP-12) 3.4.1-41 C Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VIII.H-7 (S-29) 3.4.1-28 A Piping Pressure boundary Carbon steel Treated water >
| |
| 220°F (int)
| |
| Cracking -
| |
| fatigue Metal fatigue TLAA VIII.D2-6 (S-11) 3.4.1-1 A Piping Pressure boundary Carbon steel Treated water >
| |
| 220°F (int) Loss of materialWater chemistry control - BWR VIII.D2-7 (S-09) 3.4.1-4 A Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None VIII.I-2 (SP-6) 3.4.1-41 A Tubing Pressure boundary Copper alloy
| |
| <15% Zn Treated water >
| |
| 270°F (int) Loss of materialWater chemistry control - BWR VIII.A-5 (SP-61) 3.4.1-15 C Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VIII.H-7 (S-29) 3.4.1-28 A Valve body Pressure boundary Carbon steel Treated water >
| |
| 220°F (int)
| |
| Cracking -
| |
| fatigue Metal fatigue TLAA VIII.D2-6 (S-11) 3.4.1-1 A Valve body Pressure boundary Carbon steel Treated water >
| |
| 220°F (int) Loss of materialWater chemistry control - BWR VIII.D2-7 (S-09) 3.4.1-4 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 316 of 488 Table 3.3.2-13-14 Fuel Oil (FO) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-14: Fuel Oil System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H1-10 (A-30) 3.3.1-20 E Piping Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Piping Pressure boundary Stainless steel Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H1-6 (AP-54) 3.3.1-32 E Pump casing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Pump casing Pressure boundary Carbon steel Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H1-10 (A-30) 3.3.1-20 E Pump casing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Pump casing Pressure boundary Stainless steel Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H1-6 (AP-54) 3.3.1-32 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 317 of 488 3.3.2-13-14: Fuel Oil System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H1-3 (AP-44) 3.3.1-32 E Tubing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tubing Pressure boundary Stainless steel Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H1-6 (AP-54) 3.3.1-32 E Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Carbon steel Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H1-10 (A-30) 3.3.1-20 E Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Valve body Pressure boundary Stainless steel Fuel oil (int) Loss of materialDiesel fuel monitoring VII.H1-6 (AP-54) 3.3.1-32 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 318 of 488 Table 3.3.2-13-15 Fire Protection (FP) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-15: Fire Protection System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-1 (AP-28) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Bolting Pressure boundary Stainless steel Air - outdoor (ext) Loss of materialSystem walkdown G Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Piping Pressure boundary Carbon steel Raw water (int) Loss of materialFire water system VII.G-24 (A-33) 3.3.1-68 B Piping Pressure boundary Gray cast iron Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Gray cast iron Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Piping Pressure boundary Gray cast iron Raw water (int) Loss of materialFire water system VII.G-24 (A-33) 3.3.1-68 B VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 319 of 488 3.3.2-13-15: Fire Protection System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Gray cast iron Raw water (int) Loss of materialSelective leaching VII.G-14 (A-51) 3.3.1-85 A Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - outdoor (ext) Loss of materialSystem walkdown G Tubing Pressure boundary Copper alloy
| |
| <15% Zn Raw water (int) Loss of materialFire water system VII.G-12 (A-45) 3.3.1-70 B Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Carbon steel Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Valve body Pressure boundary Carbon steel Raw water (int) Loss of materialFire water system VII.G-24 (A-33) 3.3.1-68 B Valve body Pressure boundary Gray cast iron Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Gray cast iron Air - outdoor (ext) Loss of materialSystem walkdown VII.I-9 (A-78) 3.3.1-58 A Valve body Pressure boundary Gray cast iron Raw water (int) Loss of materialFire water system VII.G-24 (A-33) 3.3.1-68 B Valve body Pressure boundary Gray cast iron Raw water (int) Loss of materialSelective leaching VII.G-14 (A-51) 3.3.1-85 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 320 of 488 Table 3.3.2-13-16 Fuel Pool Cooling (FPC) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-16: Fuel Pool Cooling System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Filter housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Filter housing Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Filter housing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Filter housing Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.A4-11 (A-58) 3.3.1-24 A Heat exchanger (shell) Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.F1-10 (AP-41) 3.3.1-59 C Heat exchanger (shell) Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 321 of 488 3.3.2-13-16: Fuel Pool Cooling System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Piping Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Piping Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.A4-11 (A-58) 3.3.1-24 A Pump casing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Pump casing Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Pump casing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Pump casing Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.A4-11 (A-58) 3.3.1-24 A Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Treated water (int) Loss of materialWater chemistry control - BWR VII.A4-7 (AP-64) 3.3.1-31 A Tubing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tubing Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.A4-11 (A-58) 3.3.1-24 A Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 322 of 488 3.3.2-13-16: Fuel Pool Cooling System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Valve body Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.A4-11 (A-58) 3.3.1-24 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 323 of 488 Table 3.3.2-13-17 Fuel Pool Cooling Filter Demineralizer (FPFD) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-17: Fuel Pool Cooling Filter Demineralizer System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Treated water (int) Loss of materialWater chemistry control - BWR VII.A4-7 (AP-64) 3.3.1-31 A Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 324 of 488 Table 3.3.2-13-18 House Heating Boiler (HB) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-18: House Heating Boiler System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Piping Pressure boundary Carbon steel Steam > 220°F (int) Cracking -
| |
| fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Piping Pressure boundary Carbon steel Steam > 220°F (int) Loss of materialFlow accelerated corrosion VIII.A-17 (S-15) 3.4.1-29 C Piping Pressure boundary Carbon steel Steam > 220°F (int) Loss of materialWater chemistry control - auxiliary systems G, 305 Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - auxiliary systems VII.C2-14 (A-25) 3.3.1-47 E, 305 Pump casing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 325 of 488 3.3.2-13-18: House Heating Boiler System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Pump casing Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Pump casing Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - auxiliary systems VII.C2-14 (A-25) 3.3.1-47 E, 305 Steam trap Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Steam trap Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Steam trap Pressure boundary Carbon steel Steam > 220°F (int) Loss of materialFlow accelerated corrosion VIII.A-17 (S-15) 3.4.1-29 C Steam trap Pressure boundary Carbon steel Steam > 220°F (int) Loss of materialWater chemistry control - auxiliary systems G, 305Steam trap Pressure boundary Carbon steel Steam > 220°F (int) Cracking -
| |
| fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Steam trap Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - auxiliary systems VII.C2-14 (A-25) 3.3.1-47 E, 305 Tank Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Tank Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Tank Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - auxiliary systems VII.C2-14 (A-25) 3.3.1-47 E, 305 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 326 of 488 3.3.2-13-18: House Heating Boiler System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Condensation (ext) Loss of materialSystem walkdown VII.F1-16 (A-46) 3.3.1-25 E Tubing Pressure boundary Copper alloy
| |
| <15% Zn Treated water (int) Loss of materialWater chemistry control - auxiliary systems VII.C2-4 (AP-12) 3.3.1-51 E, 305 Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Valve body Pressure boundary Carbon steel Steam > 220°F (int) Loss of materialFlow accelerated corrosion VIII.A-17 (S-15) 3.4.1-29 C Valve body Pressure boundary Carbon steel Steam > 220°F (int) Loss of materialWater chemistry control - auxiliary systems G, 305Valve body Pressure boundary Carbon steel Steam > 220°F (int) Cracking -
| |
| fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - auxiliary systems VII.C2-14 (A-25) 3.3.1-47 E, 305 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 327 of 488 Table 3.3.2-13-19 Hydraulic Control Units (HCU) Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-19: Hydraulic Control Units Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Filter housing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Filter housing Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Piping Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Piping Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-9 (AP-64) 3.3.1-31 C Tubing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tubing Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 328 of 488 3.3.2-13-19: Hydraulic Control Units Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Valve body Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 329 of 488 Table 3.3.2-13-20 High Pressure Coolant Injection (HPCI) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-20: High Pressure Coolant Injection System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown V.E-4 (EP-25) 3.2.1-23 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 C Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown V.E-7 (E-44) 3.2.1-31 A Piping Pressure boundary Carbon steel Steam > 270
| |
| ûF (int) Cracking -
| |
| fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Piping Pressure boundary Carbon steel Steam > 270
| |
| ûF (int) Loss of materialFlow accelerated corrosion V.D2-31 (E-07) 3.2.1-19 A Piping Pressure boundary Carbon steel Steam > 270
| |
| ûF (int) Loss of materialWater chemistry control - BWR VIII.A-15 (S-04) 3.4.1-2 C Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 A Tubing Pressure boundary Copper alloy
| |
| <15% Zn Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-9 (AP-64) 3.3.1-31 C Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown V.E-7 (E-44) 3.2.1-31 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 330 of 488 3.3.2-13-20: High Pressure Coolant Injection System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Carbon steel Steam > 270
| |
| ûF (int) Cracking -
| |
| fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Valve body Pressure boundary Carbon steel Steam > 270
| |
| ûF (int) Loss of materialFlow accelerated corrosion V.D2-31 (E-07) 3.2.1-19 A Valve body Pressure boundary Carbon steel Steam > 270
| |
| ûF (int) Loss of materialWater chemistry control - BWR VIII.A-15 (S-04) 3.4.1-2 C Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 331 of 488 Table 3.3.2-13-21 Heating, Ventilation & Air Conditioning (HVAC) Systems Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-21: Heating, Ventilation & Air Conditioning Systems Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.F1-4 (A-105) 3.3.1-55 A Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.F1-2 (A-10) 3.3.1-56 A Piping Pressure boundary Carbon steel Raw water (int) Loss of materialService water integrity VII.C1-19 (A-38) 3.3.1-76 D Heat exchanger (tubes) Pressure Boundary Carbon Steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Heat exchanger (tubes) Pressure Boundary Carbon Steel Raw water (int) Loss of materialService water integrity VII.C1-5 (A-64) 3.3.1-77 D Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Raw water (int) Loss of materialService water integrity VII.C1-9 (A-44) 3.3.1-81 D Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.F1-2 (A-10) 3.3.1-56 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 332 of 488 3.3.2-13-21: Heating, Ventilation & Air Conditioning Systems Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Carbon steel Raw water (int) Loss of materialService water integrity VII.C1-19 (A-38) 3.3.1-76 D VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 333 of 488 Table 3.3.2-13-22 Instrument Air (IA) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-22: Instrument Air System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Compressor housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.D-3 (A-80) 3.3.1-57 A Compressor housing Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.C2-14 (A-25) 3.3.1-47 D Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.D-3 (A-80) 3.3.1-57 A Piping Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.C1-17 (AP-30) 3.3.1-14 E Piping Pressure boundary Carbon steel Treated air (int) Loss of materialInstrument air quality VII.D-2 (A-26) 3.3.1-53 E Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Strainer housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.D-3 (A-80) 3.3.1-57 A Strainer housing Pressure boundary Carbon steel Treated air (int) Loss of materialInstrument air quality VII.D-2 (A-26) 3.3.1-53 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 334 of 488 3.3.2-13-22: Instrument Air System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Tank Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.D-3 (A-80) 3.3.1-57 A Tank Pressure boundary Carbon steel Untreated water (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.G-24 (A-33) 3.3.1-68 E Trap Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.D-3 (A-80) 3.3.1-57 A Trap Pressure boundary Carbon steel Untreated water (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.G-24 (A-33) 3.3.1-68 E Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.D-3 (A-80) 3.3.1-57 A Valve body Pressure boundary Carbon steel Treated air (int) Loss of materialInstrument air quality VII.D-2 (A-26) 3.3.1-53 E Valve body Pressure boundary Carbon steel Untreated water (int) Loss of materialPeriodic surveillance and
| |
| | |
| preventive
| |
| | |
| maintenance VII.G-24 (A-33) 3.3.1-68 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 335 of 488 Table 3.3.2-13-23 MG Lube Oil (MGLO) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-23: MG Lube Oil System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Heat exchanger (shell) Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Heat exchanger (shell) Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.C1-17 (AP-30) 3.3.1-14 E Heat exchanger (shell) Pressure boundary Carbon steel Raw water (int) Loss of materialService water integrity VII.C1-5 (A-64) 3.3.1-77 D Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.C1-17 (AP-30) 3.3.1-14 E Pump casing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Pump casing Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.C1-17 (AP-30) 3.3.1-14 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 336 of 488 3.3.2-13-23: MG Lube Oil System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Lube oil (int) Loss of materialOil analysis VII.C1-8 (AP-47) 3.3.1-26 E Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Carbon steel Lube oil (int) Loss of materialOil analysis VII.C1-17 (AP-30) 3.3.1-14 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 337 of 488 Table 3.3.2-13-24 Nitrogen (N2) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-24: Nitrogen System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Piping Pressure boundary Stainless steel Nitrogen (int) None None VII.J-19 (AP-22) 3.3.1-97 A Tubing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tubing Pressure boundary Stainless steel Nitrogen (int) None None VII.J-19 (AP-22) 3.3.1-97 A Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Valve body Pressure boundary Stainless steel Nitrogen (int) None None VII.J-19 (AP-22) 3.3.1-97 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 338 of 488 Table 3.3.2-13-25 Nuclear Boiler (NB) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-25: Nuclear Boiler System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Filter housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Filter housing Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Filter housing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Filter housing Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Flow element Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Flow element Pressure boundary Carbon steel Treated water >
| |
| 270°F (int)
| |
| Cracking -
| |
| fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 C Flow element Pressure boundary Carbon steel Treated water >
| |
| 270°F (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Flow element Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 339 of 488 3.3.2-13-25: Nuclear Boiler System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Flow element Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Flow element Pressure boundary Stainless steel Treated water >
| |
| 270°F (int) Cracking Water chemistry control - BWR VII.E4-15 (A-61) 3.3.1-38 C Flow element Pressure boundary Stainless steel Treated water >
| |
| 270°F (int)
| |
| Cracking -
| |
| fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 C Flow element Pressure boundary Stainless steel Treated water >
| |
| 270°F (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Flow element Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Orifice Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Orifice Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Treated water >
| |
| 270°F (int)
| |
| Cracking -
| |
| fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 C Piping Pressure boundary Carbon steel Treated water >
| |
| 270°F (int) Loss of materialFlow accelerated corrosion V.D2-34 (E-09) 3.2.1-19 C Piping Pressure boundary Carbon steel Treated water >
| |
| 270°F (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 340 of 488 3.3.2-13-25: Nuclear Boiler System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Piping Pressure boundary Stainless steel Treated water >
| |
| 270°F (int) Cracking Water chemistry control - BWR VII.E4-15 (A-61) 3.3.1-38 C Piping Pressure boundary Stainless steel Treated water >
| |
| 270°F (int)
| |
| Cracking -
| |
| fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 C Piping Pressure boundary Stainless steel Treated water >
| |
| 270°F (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Piping Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Tubing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tubing Pressure boundary Stainless steel Treated water >
| |
| 270°F (int) Cracking Water chemistry control - BWR VII.E4-15 (A-61) 3.3.1-38 C Tubing Pressure boundary Stainless steel Treated water >
| |
| 270°F (int)
| |
| Cracking -
| |
| fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 C Tubing Pressure boundary Stainless steel Treated water >
| |
| 270°F (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Tubing Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Carbon steel Treated water >
| |
| 270°F (int)
| |
| Cracking -
| |
| fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 341 of 488 3.3.2-13-25: Nuclear Boiler System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Carbon steel Treated water >
| |
| 270°F (int) Loss of materialFlow accelerated corrosion V.D2-34 (E-09) 3.2.1-19 C Valve body Pressure boundary Carbon steel Treated water >
| |
| 270°F (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Valve body Pressure boundary Stainless steel Treated water >
| |
| 270°F (int) Cracking Water chemistry control - BWR VII.E4-15 (A-61) 3.3.1-38 C Valve body Pressure boundary Stainless steel Treated water >
| |
| 270°F (int)
| |
| Cracking -
| |
| fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 C Valve body Pressure boundary Stainless steel Treated water >
| |
| 270°F (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Valve body Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 342 of 488 Table 3.3.2-13-26 Neutron Monitoring (NM) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-26: Neutron Monitoring System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Piping Pressure boundary Stainless steel Nitrogen (int) None None VII.J-19 (AP-22) 3.3.1-97 A Tubing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tubing Pressure boundary Stainless steel Nitrogen (int) None None VII.J-19 (AP-22) 3.3.1-97 A Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Valve body Pressure boundary Stainless steel Nitrogen (int) None None VII.J-19 (AP-22) 3.3.1-97 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 343 of 488 Table 3.3.2-13-27 Post-Accident Sampling System (PASS) Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-27: Post-Accident Sampling System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Tubing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tubing Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Valve body Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 344 of 488 Table 3.3.2-13-28 Primary Containment Atmosphere Control (PCAC) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-28: Primary Containment Atmosphere Control System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Air - indoor (int) Loss of materialSystem walkdown V.D2-16 (E-29) 3.2.1-32 E Piping Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Piping Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Orifice Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Orifice Pressure boundary Carbon steel Air - indoor (int) Loss of materialSystem walkdown V.D2-16 (E-29) 3.2.1-32 E Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Carbon steel Air - indoor (int) Loss of materialSystem walkdown V.D2-16 (E-29) 3.2.1-32 E Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Valve body Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 345 of 488 Table 3.3.2-13-29 Potable Water (PW) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-29: Potable Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Untreated water (int) Loss of materialOne-time inspectionVII.G-24 (A-33) 3.3.1-68 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 346 of 488 Table 3.3.2-13-30 Reactor Building Closed Cooling Water (RBCCW) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-30: Reactor Building Closed Cooling Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Heat exchanger (shell) Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Heat exchanger (shell) Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.C2-1 (A-63) 3.3.1-48 B Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.C2-14 (A-25) 3.3.1-47 B Pump casing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Pump casing Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.C2-14 (A-25) 3.3.1-47 B VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 347 of 488 3.3.2-13-30: Reactor Building Closed Cooling Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Sight glass Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Sight glass Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.C2-14 (A-25) 3.3.1-47 B Sight glass Pressure boundary Glass Air - indoor (ext) None None VII.J-8 (AP-14) 3.3.1-93 A Sight glass Pressure boundary Glass Treated water (int) None None VII.J-13 (AP-51) 3.3.1-93 A Strainer housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Strainer housing Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.C2-14 (A-25) 3.3.1-47 B Tank Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Tank Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.C2-14 (A-25) 3.3.1-47 B Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.C2-4 (AP-12) 3.3.1-51 B Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 348 of 488 3.3.2-13-30: Reactor Building Closed Cooling Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - closed
| |
| | |
| cooling water VII.C2-14 (A-25) 3.3.1-47 B VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 349 of 488 Table 3.3.2-13-31 Reactor Core Isolation Cooling (RCIC) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-31: Reactor Core Isolation Cooling System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown V.E-4 (EP-25) 3.2.1-23 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 C Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown V.E-7 (E-44) 3.2.1-31 A Piping Pressure boundary Carbon steel Steam > 270
| |
| ûF (int) Cracking -
| |
| fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Piping Pressure boundary Carbon steel Steam > 270
| |
| ûF (int) Loss of materialFlow accelerated corrosion V.D2-31 (E-07) 3.2.1-19 A Piping Pressure boundary Carbon steel Steam > 270
| |
| ûF (int) Loss of materialWater chemistry control - BWR VIII.A-15 (S-04) 3.4.1-2 C Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Rupture Disk Pressure Boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown V.E-7 (E-44) 3.2.1-31 A Rupture Disk Pressure Boundary Carbon steel Steam > 270
| |
| ûF (int) Cracking -
| |
| fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Rupture Disk Pressure Boundary Carbon steel Steam > 270
| |
| ûF (int) Loss of materialWater chemistry control - BWR VIII.A-15 (S-04) 3.4.1-2 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 350 of 488 3.3.2-13-31: Reactor Core Isolation Cooling System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 A Tubing Pressure boundary Copper alloy
| |
| <15% Zn Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-9 (AP-64) 3.3.1-31 C Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown V.E-7 (E-44) 3.2.1-31 A Valve body Pressure boundary Carbon steel Steam > 270
| |
| ûF (int) Cracking -
| |
| fatigue Metal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 C Valve body Pressure boundary Carbon steel Steam > 270
| |
| ûF (int) Loss of materialFlow accelerated corrosion V.D2-31 (E-07) 3.2.1-19 A Valve body Pressure boundary Carbon steel Steam > 270
| |
| ûF (int) Loss of materialWater chemistry control - BWR VIII.A-15 (S-04) 3.4.1-2 C Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 351 of 488 Table 3.3.2-13-32 Radwaste, Liquid & Solid (RDW) Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-32: Radwaste, Liquid & Solid Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Orifice Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Orifice Pressure boundary Carbon steel Untreated water (int) Loss of materialOne-time inspectionVII.G-24 (A-33) 3.3.1-68 E Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Piping Pressure boundary Carbon steel Untreated water (int) Loss of materialOne-time inspectionVII.G-24 (A-33) 3.3.1-68 E Pump casing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Pump casing Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Pump casing Pressure boundary Carbon steel Untreated water (int) Loss of materialOne-time inspectionVII.G-24 (A-33) 3.3.1-68 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 352 of 488 3.3.2-13-32: Radwaste, Liquid & Solid Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Strainer housing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Strainer housing Pressure boundary Carbon steel Untreated water (int) Loss of materialOne-time inspectionVII.G-24 (A-33) 3.3.1-68 E Tank Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Tank Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Tank Pressure boundary Carbon steel Untreated water (int) Loss of materialOne-time inspectionVII.G-24 (A-33) 3.3.1-68 E Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-9 (AP-64) 3.3.1-31 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Untreated water (int) Loss of materialOne-time inspectionVII.G-12 (A-45) 3.3.1-70 E Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Valve body Pressure boundary Carbon steel Untreated water (int) Loss of materialOne-time inspectionVII.G-24 (A-33) 3.3.1-68 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 353 of 488 Table 3.3.2-13-33 Residual Heat Removal (RHR) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-33: Residual Heat Removal System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown V.E-4 (EP-25) 3.2.1-23 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None V.F-12 (EP-18) 3.2.1-53 C Orifice Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown V.E-7 (E-44) 3.2.1-31 A Orifice Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown V.E-7 (E-44) 3.2.1-31 A Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 A Tubing Pressure boundary Copper alloy
| |
| <15% Zn Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-9 (AP-64) 3.3.1-31 C Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown V.E-7 (E-44) 3.2.1-31 A Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR V.D2-33 (E-08) 3.2.1-14 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 354 of 488 Table 3.3.2-13-34 RHR Service Water (RHRSW) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-34: RHR Service Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Piping Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Piping Pressure boundary Carbon steel Raw water (int) Loss of materialService water integrity VII.C1-19 (A-38) 3.3.1-76 B Piping Pressure boundary Stainless steel Condensation (ext) Loss of materialSystem walkdown VII.F1-1 (A-09) 3.3.1-27 E Piping Pressure boundary Stainless steel Raw water (int) Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 B Tubing Pressure boundary Copper alloy
| |
| <15% Zn Condensation (ext) Loss of materialSystem walkdown VII.F1-16 (A-46) 3.3.1-25 E Tubing Pressure boundary Copper alloy
| |
| <15% Zn Raw water (int) Loss of materialService water integrity VII.C1-9 (A-44) 3.3.1-81 B Tubing Pressure boundary Stainless steel Condensation (ext) Loss of materialSystem walkdown VII.F1-1 (A-09) 3.3.1-27 E Tubing Pressure boundary Stainless steel Raw water (int) Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 B VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 355 of 488 3.3.2-13-34: RHR Service Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Valve body Pressure boundary Carbon steel Raw water (int) Loss of materialService water integrity VII.C1-19 (A-38) 3.3.1-76 B Valve body Pressure boundary Stainless steel Condensation (ext) Loss of materialSystem walkdown VII.F1-1 (A-09) 3.3.1-27 E Valve body Pressure boundary Stainless steel Raw water (int) Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 B VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 356 of 488 Table 3.3.2-13-35 Equipment Retired in Place (RIP) Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-35: Equipment Retired in Place Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Untreated water (int) Loss of materialOne-time inspectionVII.G-24 (A-33) 3.3.1-68 E Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Carbon steel Air - indoor (int) Loss of materialOne-time inspectionV.D2-16 (E-29) 3.2.1-32 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 357 of 488 Table 3.3.2-13-36 Reactor Water Clean-Up (RWCU) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-36: Reactor Water Clean-Up System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Filter housing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Filter housing Pressure boundary Stainless steel Treated water >
| |
| 270°F (int) Cracking Water chemistry control - BWR VII.E3-16 (A-60) 3.3.1-37 E Filter housing Pressure boundary Stainless steel Treated water >
| |
| 270°F (int)
| |
| Cracking -
| |
| fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 A Filter housing Pressure boundary Stainless steel Treated water >
| |
| 270°F (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 A Heat exchanger (shell) Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Heat exchanger (shell) Pressure boundary Stainless steel Treated water >
| |
| 270°F (int) Cracking Water chemistry control - BWR VII.E3-16 (A-60) 3.3.1-37 E Heat exchanger (shell) Pressure boundary Stainless steel Treated water >
| |
| 270°F (int)
| |
| Cracking -
| |
| fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 358 of 488 3.3.2-13-36: Reactor Water Clean-Up System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Heat exchanger (shell) Pressure boundary Stainless steel Treated water >
| |
| 270°F (int) Loss of materialWater chemistry control - BWR VII.A4-2 (A-70) 3.3.1-23 C Orifice Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Orifice Pressure boundary Stainless steel Treated water >
| |
| 270°F (int) Cracking Water chemistry control - BWR VII.E3-16 (A-60) 3.3.1-37 E Orifice Pressure boundary Stainless steel Treated water >
| |
| 270°F (int)
| |
| Cracking -
| |
| fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 A Orifice Pressure boundary Stainless steel Treated water >
| |
| 270°F (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 A Piping Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Piping Pressure boundary Stainless steel Treated water >
| |
| 270°F (int) Cracking Water chemistry control - BWR VII.E3-16 (A-60) 3.3.1-37 E Piping Pressure boundary Stainless steel Treated water >
| |
| 270°F (int)
| |
| Cracking -
| |
| fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 A Piping Pressure boundary Stainless steel Treated water >
| |
| 270°F (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 A Pump casing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Pump casing Pressure boundary Stainless steel Treated water >
| |
| 270°F (int) Cracking Water chemistry control - BWR VII.E3-16 (A-60) 3.3.1-37 E Pump casing Pressure boundary Stainless steel Treated water >
| |
| 270°F (int)
| |
| Cracking -
| |
| fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 359 of 488 3.3.2-13-36: Reactor Water Clean-Up System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Pump casing Pressure boundary Stainless steel Treated water >
| |
| 270°F (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 A Strainer housing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Strainer housing Pressure boundary Stainless steel Treated water >
| |
| 270°F (int) Cracking Water chemistry control - BWR VII.E3-16 (A-60) 3.3.1-37 E Strainer housing Pressure boundary Stainless steel Treated water >
| |
| 270°F (int)
| |
| Cracking -
| |
| fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 A Strainer housing Pressure boundary Stainless steel Treated water >
| |
| 270°F (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 A Tank Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tank Pressure boundary Stainless steel Treated water >
| |
| 270°F (int) Cracking Water chemistry control - BWR VII.E3-16 (A-60) 3.3.1-37 E Tank Pressure boundary Stainless steel Treated water >
| |
| 270°F (int)
| |
| Cracking -
| |
| fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 A Tank Pressure boundary Stainless steel Treated water >
| |
| 270°F (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 A Tubing Pressure boundary Copper alloy
| |
| <15% Zn Air - indoor (ext) None None V.F-3 (EP-10) 3.2.1-53 C Tubing Pressure boundary Copper alloy
| |
| <15% Zn Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-9 (AP-64) 3.3.1-31 A Tubing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 360 of 488 3.3.2-13-36: Reactor Water Clean-Up System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Tubing Pressure boundary Stainless steel Treated water >
| |
| 270°F (int) Cracking Water chemistry control - BWR VII.E3-16 (A-60) 3.3.1-37 E Tubing Pressure boundary Stainless steel Treated water >
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| 270°F (int)
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| Cracking -
| |
| fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 A Tubing Pressure boundary Stainless steel Treated water >
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| 270°F (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 A Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Valve body Pressure boundary Stainless steel Treated water >
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| 270°F (int) Cracking Water chemistry control - BWR VII.E3-16 (A-60) 3.3.1-37 E Valve body Pressure boundary Stainless steel Treated water >
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| 270°F (int)
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| Cracking -
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| fatigue Metal fatigue TLAA VII.E3-14 (A-62) 3.3.1-2 A Valve body Pressure boundary Stainless steel Treated water >
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| 270°F (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 361 of 488 Table 3.3.2-13-37 Standby Fuel Pool Cooling (SBFPC) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-37: Standby Fuel Pool Cooling System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Piping Pressure boundary Stainless steel Raw water (int) Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 D Tubing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tubing Pressure boundary Stainless steel Raw water (int) Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 D Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Valve body Pressure boundary Stainless steel Raw water (int) Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 D VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 362 of 488 Table 3.3.2-13-38 Standby Gas Treatment (SBGT) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-38: Standby Gas Treatment System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown V.B-3 (E-26) 3.2.1-31 A Piping Pressure boundary Carbon steel Raw water (int) Loss of materialService water integrity V.D2-8 (E-18) 3.2.1-36 D Sight glass Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown V.B-3 (E-26) 3.2.1-31 A Sight glass Pressure boundary Carbon steel Raw water (int) Loss of materialService water integrity V.D2-8 (E-18) 3.2.1-36 D Sight glass Pressure boundary Glass Air - indoor (ext) None None V.F-6 (EP-15) 3.2.1-52 A Sight glass Pressure boundary Glass Raw water (int) None None V.F-8 (EP-28) 3.2.1-52 A Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown V.B-3 (E-26) 3.2.1-31 A Valve body Pressure boundary Carbon steel Raw water (int) Loss of materialService water integrity V.D2-8 (E-18) 3.2.1-36 D VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 363 of 488 Table 3.3.2-13-39 Stator Cooling (SC) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-39: Stator Cooling System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Cooler Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Cooler Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - auxiliary systems VII.C2-14 (A-25) 3.3.1-47 E Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - auxiliary systems VII.C2-14 (A-25) 3.3.1-47 E Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - auxiliary systems VII.C2-14 (A-25) 3.3.1-47 E VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 364 of 488 Table 3.3.2-13-40 Standby Liquid Control (SLC) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-40: Standby Liquid Control System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Orifice Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Orifice Pressure boundary Stainless steel Sodium pentaborate
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| | |
| solution (int) Loss of materialWater chemistry control - BWR VII.E2-1 (AP-73) 3.3.1-30 A Piping Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Piping Pressure boundary Stainless steel Sodium pentaborate
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| | |
| solution (int) Loss of materialWater chemistry control - BWR VII.E2-1 (AP-73) 3.3.1-30 A Pump casing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Pump casing Pressure boundary Stainless steel Sodium pentaborate
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| | |
| solution (int) Loss of materialWater chemistry control - BWR VII.E2-1 (AP-73) 3.3.1-30 A Sight glass Pressure boundary Glass Air - indoor (ext) None None VII.J-8 (AP-14) 3.3.1-93 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 365 of 488 3.3.2-13-40: Standby Liquid Control System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Sight glass Pressure boundary Glass Sodium pentaborate
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| solution (int) None None G Sight glass Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Sight glass Pressure boundary Stainless steel Sodium pentaborate
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| | |
| solution (int) Loss of materialWater chemistry control - BWR VII.E2-1 (AP-73) 3.3.1-30 A Strainer housing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Strainer housing Pressure boundary Stainless steel Sodium pentaborate
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| | |
| solution (int) Loss of materialWater chemistry control - BWR VII.E2-1 (AP-73) 3.3.1-30 A Tank Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tank Pressure boundary Stainless steel Sodium pentaborate
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| | |
| solution (int) Loss of materialWater chemistry control - BWR VII.E2-1 (AP-73) 3.3.1-30 A Tubing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tubing Pressure boundary Stainless steel Sodium pentaborate
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| | |
| solution (int) Loss of materialWater chemistry control - BWR VII.E2-1 (AP-73) 3.3.1-30 A Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 366 of 488 3.3.2-13-40: Standby Liquid Control System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Stainless steel Sodium pentaborate
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| solution (int) Loss of materialWater chemistry control - BWR VII.E2-1 (AP-73) 3.3.1-30 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 367 of 488 Table 3.3.2-13-41 Sampling (SPL) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-41: Sampling System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Piping Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C Piping Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Piping Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Tubing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tubing Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Carbon steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-18 (A-35) 3.3.1-17 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 368 of 488 3.3.2-13-41: Sampling System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Valve body Pressure boundary Stainless steel Treated water (int) Loss of materialWater chemistry control - BWR VII.E3-15 (A-58) 3.3.1-24 C VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 369 of 488 Table 3.3.2-13-42 Service Water (SW) System Nonsafety-Related Components Affecting Safety-Related Systems Summary of Aging Management Evaluation 3.3.2-13-42: Service Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-4 (AP-27) 3.3.1-43 E Bolting Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 C Piping Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Piping Pressure boundary Carbon steel Raw water (int) Loss of materialService water integrity VII.C1-19 (A-38) 3.3.1-76 B Piping Pressure boundary Stainless steel Condensation (ext) Loss of materialSystem walkdown VII.F1-1 (A-09) 3.3.1-27 E Piping Pressure boundary Stainless steel Raw water (int) Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 B Pump casing Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Pump casing Pressure boundary Carbon steel Raw water (int)
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| Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 B Strainer housing Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Strainer housing Pressure boundary Carbon steel Raw water (int) Loss of materialService water integrity VII.C1-19 (A-38) 3.3.1-76 B VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 370 of 488 3.3.2-13-42: Service Water System Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Tubing Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Tubing Pressure boundary Stainless steel Condensation (ext) Loss of materialSystem walkdown VII.F1-1 (A-09) 3.3.1-27 E Tubing Pressure boundary Stainless steel Raw water (int) Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 B Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of materialSystem walkdown VII.I-8 (A-77) 3.3.1-58 A Valve body Pressure boundary Carbon steel Condensation (ext) Loss of materialSystem walkdown VII.I-11 (A-81) 3.3.1-58 A Valve body Pressure boundary Carbon steel Raw water (int) Loss of materialService water integrity VII.C1-19 (A-38) 3.3.1-76 B Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VII.J-15 (AP-17) 3.3.1-94 A Valve body Pressure boundary Stainless steel Condensation (ext) Loss of materialSystem walkdown VII.F1-1 (A-09) 3.3.1-27 E Valve body Pressure boundary Stainless steel Raw water (int) Loss of materialService water integrity VII.C1-15 (A-54) 3.3.1-79 B
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 371 of 488Aging Management Review Summary3.4STEAM AND POWER CONVERSION SYSTEMS3.4.1IntroductionThis section provides the results of the aging management review for components in the steam and power conversion systems that are subject to aging management review. These systems are within the scope of license renewal primarily due to their support of the MSIV leakage pathway and components supporting this intended function are grouped in one aging management review. Components in the MSIV leakage pathway are credited with dose reduction under accident conditions for offsite dose and control room habitability considerations. The MSIV leakage pathway starts at the main steam piping at the outlets of the MSIVs and includes the piping and components up to and including the main condenser. The boundary includes the turbine stop valves, turbine bypass valves, and drain lines for the main steam lines. The components included in this aging management review are from various system codes that interface with the main condenser and MSIV leakage pathway: AOG, AS, C, MS, NB, SPL, and 101. The AOG and SPL systems are described in Section 2.3.3.13, Miscellaneous Systems in Scope for (a)(2). The NB system is described in Section 2.3.1, Reactor Coolant System. NB components in main steam line drains are in the MSIV leakage pathway. The remaining systems are described as referenced below.
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| *auxiliary steam (Section 2.3.4.1)
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| *condensate (Section 2.3.4.2)
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| *main steam (Section 2.3.4.3)
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| *101 (main steam, extraction steam, and auxiliary steam instruments) (Section 2.3.4.4)Table3.4.1, Summary of Aging Management Programs for Steam and Power Conversion System Evaluated in Chapter VIII of NUREG-1801, provides the summary of the programs evaluated in NUREG-1801 for the steam and power conversion system component group. This table uses the format described in the introduction to Section 3. Hyperlinks are provided to the program evaluations in Appendix B
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| .3.4.2ResultsThe following tables summarize the results of aging management review and the NUREG-1801 comparison for the main condenser and MSIV leakage pathway.
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| *Table3.4.2-1Main Condenser and MSIV Leakage Pathway-Summary of Aging Management Evaluation3.4.2.1Materials, Environment, Aging Effects Requiring Management and Aging Management ProgramsThe following sections list the materials, environments, aging effects requiring management, and aging management programs for steam and power conversion system components in the main condenser and MSIV leakage pathway. Programs are described in Appendix B. Further details are provided in Table 3.4.2-1.
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 372 of 488Aging Management Review Summary3.4.2.1.1Main Condenser and MSIV Leakage Pathway MaterialsMain condenser and MSIV leakage pathway components are constructed of the following materials.
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| *carbon steel
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| *copper alloy > 15% zinc (inhibited)
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| *elastomer*stainless steelEnvironmentMain condenser and MSIV leakage pathway components are exposed to the following environments.
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| *air-indoor
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| *raw water*steam > 270°F
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| *treated waterAging Effects Requiring ManagementThe following aging effects associated with the main condenser and MSIV leakage pathway require management.
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| *cracking*cracking-fatigue
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| *loss of materialAging Management ProgramsThe following programs manage the effects of aging on main condenser and MSIV leakage pathway components.
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| *flow-accelerated corrosion
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| *system walkdown
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| *water chemistry control-BWR
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| *water chemistry control-closed cooling water3.4.2.2Further Evaluation of Agi ng Management as Recommended by NUREG-1801NUREG-1801 indicates that further evaluation is necessary for certain aging effects and other issues. Section 3.
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| 4.2.2 of NUREG- 1800 discusses these aging effects that require further evaluation. The following sections are numbered in accordance with the discussions in NUREG-1800 and explain the VYNPS approach to these areas requiring further evaluation. Programs are described in Appendix B.
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 373 of 488Aging Management Review Summary3.4.2.2.1Cumulative Fatigue DamageWhere identified as an aging effect requiring management, the analysis of fatigue is a TLAA as defined in 10 CFR 54.3. TLAAs are evaluated in accordance with 10 CFR 54.21(c). Evaluation of this TLAA is addressed in Section 4.3.3.4.2.2.2Loss of Material Due to General, Pitting, and Crevice Corrosion1.Loss of material due to general, pitting and crevice corrosion for carbon steel piping and components exposed to treated water or steam is an aging effect requiring management in the steam and power conversion systems at VYNPS, and is managed by the water chemistry control-BWR program. The effectiveness of the water chemistry control-BWR program will be confirmed by the one-time inspection program through an inspection of a representative sample of components crediting this program including susceptible locations such as areas of stagnant flow.At VYNPS there are no tanks or steel heat exchanger components included in the steam and power conversion systems. The condenser is included as part of the main condenser and MSIV leakage pathway but has no aging effects requiring management since their intended function is for holdup and plateout of radioactive materials.2.Loss of material due to general, pitting and crevice corrosion could occur for steel piping and components in steam and power conversion systems exposed to lubricating oil. The steam and power conversion systems at VYNPS have no carbon steel components with intended functions that are exposed to lubricating oil. This item is not applicable to VYNPS.3.4.2.2.3Loss of Material due to General, Pitting, Crevice, and Microbiologically-Influenced Corrosion (MIC), and FoulingLoss of material due to general, pitting, crevice, and MIC, and fouling could occur in steel piping, piping components, and piping elements exposed to raw water. The steam and power conversion systems at VYNPS have no carbon steel components with intended functions that are exposed to raw water. This item is not applicable to VYNPS.3.4.2.2.4Reduction of Heat Transfer due to Fouling1.Reduction of heat transfer due to fouling could occur for stainless steel and copper alloy heat exchanger tubes exposed to treated water. The steam and power conversion systems at VYNPS have no heat exchanger tubes with an intended function of heat transfer and associated aging effect of fouling. However, reduction of heat transfer is managed by the water chemistry control-BWR program for copper alloy heat exchanger tubes in the high pressure coolant injection and reactor core isolation cooling systems. The effectiveness of the water chemistry control-BWR program will be confirmed by the one-time inspection program through an inspection of a representative sample of Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 374 of 488Aging Management Review Summarycomponents crediting this program including susceptible locations such as areas of stagnant flow.2.Reduction of heat transfer due to fouling could occur for steel, stainless steel, and copper alloy heat exchanger tubes exposed to lubricating oil. The steam and power conversion systems at VYNPS have no heat exchanger tubes with an intended function of heat transfer and associated aging effect of fouling. This item is not applicable to VYNPS.3.4.2.2.5Loss of Material due to General, Pitting, Crevice, and Microbiologically-Influenced Corrosion1.Loss of material due to general, pitting and crevice corrosion, and MIC could occur in carbon steel (with or without coating or wrapping) piping, piping components, piping elements and tanks exposed to soil. The steam and power conversion systems at VYNPS have no carbon steel components that are exposed to soil. This item is not applicable to VYNPS.2.Loss of material due to general, pitting and crevice corrosion, and MIC could occur in carbon steel heat exchanger components exposed to lubricating oil. The steam and power conversion systems at VYNPS have no heat exchanger components that are exposed to lubricating oil. This item is not applicable to VYNPS.3.4.2.2.6Cracking due to Stress Corrosion Cracking (SCC)Cracking due to SCC in stainless steel components exposed to steam is managed by the water chemistry control-BWR program. The effectiveness of the water chemistry control-BWR program will be confirmed by the one-time inspection program through an inspection of a representative sample of components crediting this program including susceptible locations such as areas of stagnant flow.3.4.2.2.7Loss of Material due to Pitting and Crevice Corrosion1.Loss of material due to pitting and crevice corrosion for copper alloy components exposed to treated water is managed by the water chemistry control-BWR program. The steam and power conversion systems at VYNPS have no stainless steel components with intended functions that are exposed to treated water.
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| There are no aluminum components in the steam and power conversion systems. The effectiveness of the water chemistry control-BWR program will be confirmed by the one-time inspection program through an inspection of a representative sample of components crediting this program including susceptible locations such as areas of stagnant flow.2.Loss of material due to pitting and crevice corrosion could occur for stainless steel piping, piping components, and piping elements exposed to soil. The steam and power conversion systems at VYNPS have no stainless steel components that are
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| exposed to soil. This item is not applicable to VYNPS.
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 375 of 488Aging Management Review Summary3.Loss of material due to pitting and crevice corrosion could occur for copper alloy piping, piping components, and piping elements exposed to lubricating oil. The steam and power conversion systems at VYNPS have no copper alloy components with intended functions that are exposed to lubricati ng oil. This item is not applicable to VYNPS.3.4.2.2.8Loss of Material due to Pitting, Crevice, and Microbiologically-Influenced CorrosionLoss of material due to pitting, crevice, and MIC could occur in stainless steel piping, piping components, piping elements, and heat exchanger components exposed to lubricating oil. The steam and power conversion systems at VYNPS have no stainless steel components with intended functions that are exposed to lubricating oil. This item is not applicable to VYNPS.3.4.2.2.9Loss of Material due to General, Pitting, Crevice, and Galvanic CorrosionLoss of material due to general, pitting, crevice, and galvanic corrosion can occur for steel heat exchanger components exposed to treated water. The steam and power conversion systems at VYNPS have no steel heat exchanger components with intended functions that are exposed to treated water. This item is not applicable to VYNPS.3.4.2.2.10Quality Assurance for Aging Management of Nonsafety-Related ComponentsSee Appendix B Section B.0.3 for discussion of VYNPS quality assurance procedures and administrative controls for aging management programs.3.4.2.3Time-Limited Aging AnalysisThe only TLAA identified for the steam and power conversion systems components is metal fatigue. This is evaluated in Section 4.3 of this application.
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 376 of 488Aging Management Review Summary3.4.3ConclusionThe steam and power conversion system components that are subject to aging management review have been identified in accordance with the requirements of 10 CFR 54.21. The aging management programs selected to manage aging effects for the steam and power conversion system components are identified in Section 3.4.2.1 and in the following table. A description of these aging management programs is provided in Appendix B, along with the demonstration that the identified aging effects will be managed for the period of extended operation.Therefore, based on the demonstrations provided in Appendix B, the effects of aging on steam and power conversion system components will be managed such that there is reasonable assurance that the intended functions will be maintained consistent with the current licensing basis during the period of extended operation.
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| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 377 of 488 Table 3.4.1 Summary of Aging Management Programs for the Steam and Power Conversion System Evaluated in Chapter VIII of NUREG-1801 Table 3.4.1: Steam and Power Conversion Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
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| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.4.1-1 Steel piping, piping components, and
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| piping elements
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| exposed to steam or
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| treated water Cumulative fatigue damage TLAA, evaluated in accordance with 10 CFR
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| 54.21(c) Yes, TLAA Fatigue is a TLAA.
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| See Section 3.4.2.2.1 3.4.1-2 Steel piping, piping components, and
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| piping elements
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| exposed to steam Loss of material due to general, pitting and crevice
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| corrosion Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
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| be evaluated Consistent with NUREG-1801.
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| Loss of material in steel
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| components exposed to steam is
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| managed by the water chemistry control - BWR program. The one-time inspection program will be used to verify the effectiveness of
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| the water chemistry program. This
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| line applies to components in the
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| ESF systems listed in Tables 3.2.2
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| and components in scope under
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| criterion 10CFR54.4(a)(2) and
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| listed in series 3.3.2-13-xx tables.
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| See Section 3.4.2.2.2.1 3.4.1-3 PWR only VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 378 of 488 Table 3.4.1: Steam and Power Conversion Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
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| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.4.1-4 Steel piping, piping components, and
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| piping elements
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| exposed to treated
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| water Loss of material due to general, pitting and crevice
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| | |
| corrosion Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
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| | |
| be evaluated Consistent with NUREG-1801.
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| Loss of material in steel
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| components exposed to treated
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| | |
| water is managed by the water chemistry control - BWR program.
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| The one-time inspection program will be used to verify the
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| effectiveness of the water
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| chemistry program. The
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| components to which this NUREG-
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| | |
| 1801 line item applies are included
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| | |
| in scope under criterion
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| 10CFR54.4(a)(2) and listed in
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| series 3.3.2-13-xx tables.
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| See Section 3.4.2.2.2.1 3.4.1-5 Steel heat exchanger
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| components
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| exposed to treated
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| water Loss of material due to general, pitting, crevice, and
| |
| | |
| galvanic corrosion Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Not applicable. There are no steel heat exchanger components
| |
| | |
| exposed to treated water with
| |
| | |
| intended functions in the steam and
| |
| | |
| power conversion systems.
| |
| | |
| See Section 3.4.2.2.9 3.4.1-6 Steel and stainless steel tanks exposed
| |
| | |
| to treated water Loss of material due to general (steel only) pitting
| |
| | |
| and crevice
| |
| | |
| corrosion Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Not applicable. There are no steel or stainless steel tanks exposed to
| |
| | |
| treated water with intended
| |
| | |
| functions in the steam and power
| |
| | |
| conversion systems.
| |
| | |
| See Section 3.4.2.2.2.1 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 379 of 488 Table 3.4.1: Steam and Power Conversion Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.4.1-7 Steel piping, piping components, and
| |
| | |
| piping elements
| |
| | |
| exposed to
| |
| | |
| lubricating oil Loss of material due to general, pitting and crevice
| |
| | |
| corrosion Lubricating Oil Analysis and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Not applicable. There are no steel components exposed to lubricating
| |
| | |
| oil with intended functions in the
| |
| | |
| steam and power conversion systems.
| |
| | |
| See Section 3.4.2.2.2.2 3.4.1-8 Steel piping, piping components, and
| |
| | |
| piping elements
| |
| | |
| exposed to raw
| |
| | |
| water Loss of material due to general, pitting, crevice, and
| |
| | |
| microbiologically-
| |
| | |
| influenced
| |
| | |
| corrosion, and
| |
| | |
| fouling Plant specific Yes, plant specific Not applicable. There are no steel components exposed to raw water
| |
| | |
| with intended functions in the
| |
| | |
| steam and power conversion systems.
| |
| | |
| See Section 3.4.2.2.3 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 380 of 488 Table 3.4.1: Steam and Power Conversion Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.4.1-9 Stainless steel and copper alloy heat
| |
| | |
| exchanger tubes
| |
| | |
| exposed to treated
| |
| | |
| water Reduction of heat transfer due to
| |
| | |
| fouling Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Consistent with NUREG-1801. The reduction of heat transfer in copper
| |
| | |
| alloy heat exchanger tubes
| |
| | |
| exposed to treated water is
| |
| | |
| managed by the water chemistry control - BWR program. The one-time inspection program will be used to verify the effectiveness of
| |
| | |
| the water chemistry program. The
| |
| | |
| components to which this NUREG-
| |
| | |
| 1801 line item applies are in the
| |
| | |
| high pressure coolant injection and
| |
| | |
| reactor core isolation cooling
| |
| | |
| systems in Tables 3.2.2-4 and
| |
| | |
| 3.2.2-5.
| |
| | |
| See Section 3.4.2.2.4.1 3.4.1-10 Steel, stainless steel, and copper alloy
| |
| | |
| heat exchanger
| |
| | |
| tubes exposed to
| |
| | |
| lubricating oil Reduction of heat transfer due to
| |
| | |
| fouling Lubricating Oil Analysis and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Not applicable. There are no steel, stainless steel or copper alloy heat
| |
| | |
| exchanger tubes exposed to
| |
| | |
| lubricating oil with intended
| |
| | |
| functions in the steam and power
| |
| | |
| conversion systems.
| |
| | |
| See Section 3.4.2.2.4.2 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 381 of 488 Table 3.4.1: Steam and Power Conversion Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.4.1-11 Buried steel piping, piping components, piping elements, and
| |
| | |
| tanks (with or without
| |
| | |
| coating or wrapping)
| |
| | |
| exposed to soil Loss of material due to general, pitting, crevice, and
| |
| | |
| microbiologically-
| |
| | |
| influenced corrosion Buried Piping and Tanks Surveillance
| |
| | |
| or
| |
| | |
| Buried Piping and Tanks
| |
| | |
| Inspection No
| |
| | |
| Yes, detection of
| |
| | |
| aging effects and
| |
| | |
| operating
| |
| | |
| experience are to
| |
| | |
| be further
| |
| | |
| evaluated Not applicable. There are no steel components exposed to soil in the
| |
| | |
| steam and power conversion systems.
| |
| | |
| See Section 3.4.2.2.5.1 3.4.1-12 Steel heat exchanger
| |
| | |
| components
| |
| | |
| exposed to
| |
| | |
| lubricating oil Loss of material due to general, pitting, crevice, and
| |
| | |
| microbiologically-
| |
| | |
| influenced corrosion Lubricating Oil Analysis and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Not applicable. There are no steel heat exchanger components
| |
| | |
| exposed to lubricating oil in the
| |
| | |
| steam and power conversion systems.
| |
| | |
| See Section 3.4.2.2.5.2 3.4.1-13 Stainless steel piping, piping
| |
| | |
| components, piping
| |
| | |
| elements exposed to
| |
| | |
| steam Cracking due to stress corrosion
| |
| | |
| cracking Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Consistent with NUREG-1801.
| |
| Cracking in stainless steel
| |
| | |
| components exposed to steam is
| |
| | |
| managed by the water chemistry control - BWR program. The one-time inspection program will be used to verify the effectiveness of
| |
| | |
| the water chemistry program.
| |
| | |
| See Section 3.4.2.2.6 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 382 of 488 Table 3.4.1: Steam and Power Conversion Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.4.1-14 Stainless steel piping, piping
| |
| | |
| components, piping
| |
| | |
| elements, tanks, and
| |
| | |
| heat exchanger
| |
| | |
| components
| |
| | |
| exposed to treated
| |
| | |
| water >60°C
| |
| | |
| (>140°F) Cracking due to stress corrosion
| |
| | |
| cracking Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Not applicable. There are no stainless steel components
| |
| | |
| exposed to treated water with
| |
| | |
| intended functions in the steam and
| |
| | |
| power conversion systems.
| |
| | |
| See Section 3.4.2.2.6 3.4.1-15 Aluminum and copper alloy piping, piping components, and piping elements
| |
| | |
| exposed to treated
| |
| | |
| water Loss of material due to pitting and
| |
| | |
| crevice corrosion Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Consistent with NUREG-1801. The loss of material in copper alloy
| |
| | |
| components exposed to treated
| |
| | |
| water is managed by the water chemistry control - BWR program.
| |
| The one-time inspection program will be used to verify the
| |
| | |
| effectiveness of the water
| |
| | |
| chemistry program. The
| |
| | |
| components to which this NUREG-
| |
| | |
| 1801 line item applies are included
| |
| | |
| in scope under criterion
| |
| | |
| 10CFR54.4(a)(2) and listed in
| |
| | |
| series 3.3.2-13-xx tables . There
| |
| | |
| are no aluminum components with
| |
| | |
| intended functions in the steam and
| |
| | |
| power conversion systems.
| |
| | |
| See Section 3.4.2.2.7.1 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 383 of 488 Table 3.4.1: Steam and Power Conversion Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.4.1-16 Stainless steel piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements;
| |
| | |
| tanks, and heat
| |
| | |
| exchanger
| |
| | |
| components
| |
| | |
| exposed to treated
| |
| | |
| water Loss of material due to pitting and
| |
| | |
| crevice corrosion Water Chemistry and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Not applicable. There are no stainless steel components
| |
| | |
| exposed to treated water with
| |
| | |
| intended functions in the steam and
| |
| | |
| power conversion systems.
| |
| | |
| See Section 3.4.2.2.7.1 3.4.1-17 Stainless steel piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to soil Loss of material due to pitting and
| |
| | |
| crevice corrosion Plant specific Yes, plant specific Not applicable. There are no stainless steel components
| |
| | |
| exposed to soil with intended
| |
| | |
| functions in the steam and power
| |
| | |
| conversion systems.
| |
| | |
| See Section 3.4.2.2.7.2 3.4.1-18 Copper alloy piping, piping components, and piping elements
| |
| | |
| exposed to
| |
| | |
| lubricating oil Loss of material due to pitting and
| |
| | |
| crevice corrosion Lubricating Oil Analysis and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Not applicable. There are no copper alloy components exposed
| |
| | |
| to lubricating oil with intended
| |
| | |
| functions in the steam and power
| |
| | |
| conversion systems.
| |
| | |
| See Section 3.4.2.2.7.3 VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 384 of 488 Table 3.4.1: Steam and Power Conversion Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.4.1-19 Stainless steel piping, piping
| |
| | |
| components, piping
| |
| | |
| elements, and heat
| |
| | |
| exchanger
| |
| | |
| components
| |
| | |
| exposed to
| |
| | |
| lubricating oil Loss of material due to pitting, crevice, and
| |
| | |
| microbiologically-
| |
| | |
| influenced corrosion Lubricating Oil Analysis and One-Time Inspection Yes, detection of aging effects is to
| |
| | |
| be evaluated Not applicable. There are no stainless steel components
| |
| | |
| exposed to lubricating oil with
| |
| | |
| intended functions in the steam and
| |
| | |
| power conversion systems.
| |
| | |
| See Section 3.4.2.2.8 3.4.1-20 Steel tanks exposed to air - outdoor (external)
| |
| Loss of material/
| |
| general, pitting, and
| |
| | |
| crevice corrosion Aboveground Steel Tanks No Not applicable. There are no steel tanks exposed to outdoor air with
| |
| | |
| intended functions in the steam and
| |
| | |
| power conversion systems. 3.4.1-21 High-strength steel closure bolting
| |
| | |
| exposed to air with
| |
| | |
| steam or water
| |
| | |
| leakage Cracking due to cyclic loading, stress corrosion
| |
| | |
| cracking Bolting Integrity No Not applicable. High-strength steel closure bolting is not used in the
| |
| | |
| steam and power conversion systems. 3.4.1-22 Steel bolting and closure bolting
| |
| | |
| exposed to air with
| |
| | |
| steam or water
| |
| | |
| leakage, air -
| |
| | |
| outdoor (external), or
| |
| | |
| air - indoor
| |
| | |
| uncontrolled (external);
| |
| Loss of material due to general, pitting and crevice corrosion; loss of
| |
| | |
| preload due to
| |
| | |
| thermal effects, gasket creep, and
| |
| | |
| self-loosening Bolting Integrity No The system walkdown program manages the loss of material for
| |
| | |
| steel bolting through the use of
| |
| | |
| visual inspections that are
| |
| | |
| performed at least once per
| |
| | |
| refueling cycle. Loss of preload is
| |
| | |
| not an applicable aging effect.
| |
| | |
| Loss of preload is a design driven
| |
| | |
| effect and not an aging effect
| |
| | |
| requiring management. Bolting at
| |
| | |
| VYNPS is standard grade B7
| |
| | |
| carbon steel, or similar material, VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 385 of 488 Table 3.4.1: Steam and Power Conversion Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion except in rare specialized applications such as where
| |
| | |
| stainless steel bolting is utilized.
| |
| | |
| Loss of preload due to stress
| |
| | |
| relaxation (creep) would only be a
| |
| | |
| concern in very high temperature
| |
| | |
| applications (> 700°F) as stated in
| |
| | |
| the ASME Code, Section II, Part D, Table 4. No VYNPS bolting
| |
| | |
| operates at >700°F. Therefore, loss
| |
| | |
| of preload due to stress relaxation (creep) is not an applicable aging
| |
| | |
| effect for steam and power
| |
| | |
| conversion systems. Other issues
| |
| | |
| that may result in pressure
| |
| | |
| boundary joint leakage are
| |
| | |
| improper design or maintenance
| |
| | |
| issues. Improper bolting
| |
| | |
| application (design) and
| |
| | |
| maintenance issues are current
| |
| | |
| plant operational concerns and not
| |
| | |
| related to aging effects or
| |
| | |
| mechanisms that require
| |
| | |
| management during the period of
| |
| | |
| extended operation. To address
| |
| | |
| these bolting operational concerns, VYNPS has taken actions to
| |
| | |
| address NUREG-1339, "Resolution to Generic Safety Issue
| |
| | |
| 29: Bolting Degradation or Failure
| |
| | |
| in Nuclear Power Plants." These
| |
| | |
| actions include implementation of VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 386 of 488 Table 3.4.1: Steam and Power Conversion Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion good bolting practices in accordance with EPRI NP-5067, Good Bolting Practices. Proper
| |
| | |
| joint preparation and make-up in
| |
| | |
| accordance with industry standards
| |
| | |
| is expected to preclude loss of
| |
| | |
| preload. This has been confirmed
| |
| | |
| by operating experience at VYNPS. 3.4.1-23 Stainless steel piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to closed-
| |
| | |
| cycle cooling water
| |
| | |
| >60°C (>140°F)
| |
| Cracking due to stress corrosion
| |
| | |
| cracking Closed-Cycle Cooling Water System No Not applicable. There are no stainless steel components
| |
| | |
| exposed to closed cycle cooling
| |
| | |
| water in the steam and power
| |
| | |
| conversion systems. 3.4.1-24 Steel heat exchanger
| |
| | |
| components
| |
| | |
| exposed to closed
| |
| | |
| cycle cooling water Loss of material due to general, pitting, crevice, and
| |
| | |
| galvanic corrosion Closed-Cycle Cooling Water System No Not applicable. There are no steel heat exchanger components
| |
| | |
| exposed to closed cycle cooling
| |
| | |
| water in the steam and power
| |
| | |
| conversion systems. 3.4.1-25 Stainless steel piping, piping
| |
| | |
| components, piping
| |
| | |
| elements, and heat
| |
| | |
| exchanger
| |
| | |
| components
| |
| | |
| exposed to closed
| |
| | |
| cycle cooling water Loss of material due to pitting and
| |
| | |
| crevice corrosion Closed-Cycle Cooling Water System No Consistent with NUREG-1801. The water chemistry control - closed
| |
| | |
| cooling water program manages loss of material for steel heat
| |
| | |
| exchanger components.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 387 of 488 Table 3.4.1: Steam and Power Conversion Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.4.1-26 Copper alloy piping, piping components, and piping elements
| |
| | |
| exposed to closed
| |
| | |
| cycle cooling water Loss of material due to pitting, crevice, and
| |
| | |
| galvanic corrosion Closed-Cycle Cooling Water System No Not applicable. There are no copper alloy components exposed
| |
| | |
| to closed cycle cooling water in the
| |
| | |
| steam and power conversion systems. 3.4.1-27 Steel, stainless steel, and copper alloy
| |
| | |
| heat exchanger
| |
| | |
| tubes exposed to
| |
| | |
| closed cycle cooling
| |
| | |
| water Reduction of heat transfer due to
| |
| | |
| fouling Closed-Cycle Cooling Water System No Not applicable. There are no heat exchanger tubes exposed to closed
| |
| | |
| cycle cooling water in the steam
| |
| | |
| and power conversion systems. 3.4.1-28 Steel external surfaces exposed to
| |
| | |
| air - indoor
| |
| | |
| uncontrolled (external),
| |
| condensation (external), or air
| |
| | |
| outdoor (external)
| |
| Loss of material due to general
| |
| | |
| corrosion External Surfaces Monitoring No Consistent with NUREG-1801 with exceptions. The system walkdown program manages the loss of
| |
| | |
| material for external surfaces of
| |
| | |
| steel components. 3.4.1-29 Steel piping, piping components, and
| |
| | |
| piping elements
| |
| | |
| exposed to steam or
| |
| | |
| treated water Wall thinning due to flow-accelerated
| |
| | |
| corrosion Flow-Accelerated Corrosion No Consistent with NUREG-1801. The flow accelerated corrosion program manages loss of material in steel
| |
| | |
| components exposed to steam.
| |
| | |
| There are no steel components
| |
| | |
| exposed to treated water with
| |
| | |
| intended functions in the steam and
| |
| | |
| power conversion systems.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 388 of 488 Table 3.4.1: Steam and Power Conversion Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.4.1-30 Steel piping, piping components, and
| |
| | |
| piping elements
| |
| | |
| exposed to air
| |
| | |
| outdoor (internal) or
| |
| | |
| condensation (internal)
| |
| Loss of material due to general, pitting, and crevice
| |
| | |
| corrosion Inspection of Internal Surfaces in Miscellaneous
| |
| | |
| Piping and Ducting
| |
| | |
| Components No The system walkdown program manages loss of material for steel
| |
| | |
| components internally exposed to
| |
| | |
| outdoor air. The system walkdown
| |
| | |
| program manages loss of material
| |
| | |
| for external carbon steel
| |
| | |
| components by visual inspection of
| |
| | |
| external surfaces. For systems
| |
| | |
| where internal carbon steel
| |
| | |
| surfaces are exposed to the same
| |
| | |
| environment as external surfaces, external surfaces condition will be
| |
| | |
| representative of internal surfaces.
| |
| | |
| Thus, loss of material on internal
| |
| | |
| carbon steel surfaces is also
| |
| | |
| managed by the system walkdown
| |
| | |
| program. The components to which
| |
| | |
| this NUREG-1801 line item applies
| |
| | |
| are listed in Table 3.3.2.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 389 of 488 Table 3.4.1: Steam and Power Conversion Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.4.1-31 Steel heat exchanger
| |
| | |
| components
| |
| | |
| exposed to raw
| |
| | |
| water Loss of material due to general, pitting, crevice, galvanic, and
| |
| | |
| microbiologically-
| |
| | |
| influenced
| |
| | |
| corrosion, and
| |
| | |
| fouling Open-Cycle Cooling Water System No For components of the circulating water system, the periodic surveillance and preventive
| |
| | |
| maintenance program manages loss of material for steel heat
| |
| | |
| exchanger components exposed to
| |
| | |
| raw water through periodic visual
| |
| | |
| inspections. The circulating water
| |
| | |
| system components to which this
| |
| | |
| NUREG-1801 line item applies are
| |
| | |
| included in scope under criterion
| |
| | |
| 10CFR54.4(a)(2) and listed in
| |
| | |
| series 3.3.2-13-xx tables. 3.4.1-32 Stainless steel and copper alloy piping, piping components, and piping elements
| |
| | |
| exposed to raw
| |
| | |
| water Loss of material due to pitting, crevice, and
| |
| | |
| microbiologically-
| |
| | |
| influenced corrosion Open-Cycle Cooling Water System No The periodic surveillance and preventive maintenance program manages loss of material for
| |
| | |
| copper alloy components exposed
| |
| | |
| to raw water through periodic visual
| |
| | |
| inspections. There are no stainless
| |
| | |
| steel components exposed to raw
| |
| | |
| water with an intended function of
| |
| | |
| pressure boundary in the steam
| |
| | |
| and power conversion systems.
| |
| | |
| The only components to which this
| |
| | |
| NUREG-1801 line item applies are
| |
| | |
| included in scope only under
| |
| | |
| criterion 10CFR54.4(a)(2) and
| |
| | |
| listed in series 3.3.2-13-xx tables.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 390 of 488 Table 3.4.1: Steam and Power Conversion Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.4.1-33 Stainless steel heat exchanger
| |
| | |
| components
| |
| | |
| exposed to raw
| |
| | |
| water Loss of material due to pitting, crevice, and
| |
| | |
| microbiologically-
| |
| | |
| influenced
| |
| | |
| corrosion, and
| |
| | |
| fouling Open-Cycle Cooling Water System No Not applicable. There are no stainless steel heat exchanger
| |
| | |
| components exposed to raw water
| |
| | |
| in the steam and power conversion systems. 3.4.1-34 Steel, stainless steel, and copper alloy
| |
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| heat exchanger
| |
| | |
| tubes exposed to
| |
| | |
| raw water Reduction of heat transfer due to
| |
| | |
| fouling Open-Cycle Cooling Water System No Not applicable. There are no heat exchanger tubes exposed to raw
| |
| | |
| water with an intended function of
| |
| | |
| heat transfer in the steam and
| |
| | |
| power conversion systems. 3.4.1-35 Copper alloy >15%
| |
| Zn piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to closed
| |
| | |
| cycle cooling water, raw water, or treated
| |
| | |
| water Loss of material due to selective
| |
| | |
| leaching Selective Leaching of Materials No Not applicable. There are no copper alloy components subject to
| |
| | |
| selective leaching in the steam and
| |
| | |
| power conversion systems. 3.4.1-36 Gray cast iron piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to soil, treated water, or raw
| |
| | |
| water Loss of material due to selective
| |
| | |
| leaching Selective Leaching of Materials No Not applicable. There are no gray cast iron components exposed to
| |
| | |
| raw water with intended functions in
| |
| | |
| the steam and power conversion systems.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 391 of 488 Table 3.4.1: Steam and Power Conversion Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.4.1-37 Steel, stainless steel, and nickel-based
| |
| | |
| alloy piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements
| |
| | |
| exposed to steam Loss of material due to pitting and
| |
| | |
| crevice corrosion Water Chemistry No Consistent with NUREG-1801 for most systems. The loss of material
| |
| | |
| in steel and stainless steel
| |
| | |
| components exposed to steam is
| |
| | |
| managed by the water chemistry control - BWR program. There are no nickel alloy components
| |
| | |
| exposed to steam in the steam and
| |
| | |
| power conversion systems. For
| |
| | |
| components of the HVAC system
| |
| | |
| exposed to steam from the house
| |
| | |
| heating boiler system, listed in
| |
| | |
| Table 3.3.2-10, the water chemistry control - auxiliary systems program manages loss of material. 3.4.1-38 PWR only 3.4.1-39 PWR only 3.4.1-40 Glass piping elements exposed to
| |
| | |
| air, lubricating oil, raw water, and
| |
| | |
| treated water None None NA - No AEM or AMP Not applicable. There are no glass components with intended
| |
| | |
| functions in the steam and power
| |
| | |
| conversion systems.
| |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 392 of 488 Table 3.4.1: Steam and Power Conversion Systems, NUREG-1801 Vol. 1 Item Number Component Aging Effect/
| |
| Mechanism Aging Management Programs Further Evaluation Recommended Discussion 3.4.1-41 Stainless steel, copper alloy, and
| |
| | |
| nickel alloy piping, piping components, and piping elements
| |
| | |
| exposed to air -
| |
| | |
| indoor uncontrolled (external) None None NA - No AEM or AMP Consistent with NUREG-1801. 3.4.1-42 Steel piping, piping components, and
| |
| | |
| piping elements
| |
| | |
| exposed to air -
| |
| | |
| indoor controlled (external) None None NA - No AEM or AMP Not applicable. There are no steel components exposed to air -
| |
| | |
| indoor controlled in the steam and
| |
| | |
| power conversion systems. 3.4.1-43 Steel and stainless steel piping, piping
| |
| | |
| components, and
| |
| | |
| piping elements in
| |
| | |
| concrete None None NA - No AEM or AMP Not applicable. There are no steel or stainless steel components
| |
| | |
| exposed to concrete in the steam
| |
| | |
| and power conversion systems. 3.4.1-44 Steel, stainless steel, aluminum, and
| |
| | |
| copper alloy piping, piping components, and piping elements
| |
| | |
| exposed to gas None None NA - No AEM or AMP Not applicable. There are no steel, stainless steel, aluminum, or
| |
| | |
| copper alloy components exposed
| |
| | |
| to gas in the steam and power
| |
| | |
| conversion systems.
| |
| | |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 393 of 488 Notes for Table 3.4.2 Generic notes A. Consistent with NUREG-1801 item for component, materi al, environment, aging effect and aging management program.
| |
| AMP is consistent with NUREG-1801 AMP. B. Consistent with NUREG-1801 item for component, materi al, environment, aging effect and aging management program.
| |
| AMP has exceptions to NUREG-1801 AMP. C. Component is different, but consistent with NUREG-1801 item for material, environment, aging effect and aging management program. AMP is consistent with NUREG-1801 AMP. D. Component is different, but consistent with NUREG-1801 item for material, environment, aging effect and aging management program. AMP has exceptions to NUREG-1801 AMP. E. Consistent with NUREG-1801 material, environment, and agi ng effect but a different aging management program is credited. F. Material not in NUREG-1801 for this component.
| |
| G. Environment not in NUREG-1801 for this component and material.
| |
| H. Aging effect not in NUREG-1801 for this component, material and environment combination.
| |
| I. Aging effect in NUREG-1801 for this component, material and environment combination is not applicable.
| |
| J. Neither the component nor the material and environment combination is evaluated in NUREG-1801.
| |
| Plant-specific notes 401. Aging management of the main condenser is not based on analys is of materials, environments and aging effects. Condenser integrity required to perform the post-accident intended function (holdup and plateout of MSIV leakage) is continuously
| |
| | |
| confirmed by normal plant operation. This intended function does not require the condenser to be leak-tight, and the post-
| |
| | |
| accident conditions in the condenser will be essentially atmospheric. Since normal plant operation assures adequate
| |
| | |
| condenser pressure boundary integrity, the post-accident intended function to provide holdup volume and plateout surface is
| |
| | |
| assured. Based on past precedence (NUREG-1796, Dresden and Quad Cities SER, Section 3.4.2.4.4, and NUREG-1769, Peach Bottom SER, Section 3.4.2.3), the staff concluded that main condenser integrity is continually verified during normal
| |
| | |
| plant operation and no aging management program is required to assure the post-accident intended function.
| |
| | |
| VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 394 of 488 Table 3.4.2-1 Main Condenser and MSIV Leakage Pathway Summary of Aging Management 3.4.2-1: Main Condenser and MSIV Leakage Pathway Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Bolting Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown VIII.H-4 (S-34) 3.4.1-22 E Bolting Pressure boundar y Stainless steel Air - indoor (ext) None None VIII.I-10 (SP-12)3.4.1-41 C Condenser Plateout Carbon steel Air - indoor (ext) None None 401 Condenser Plateout Carbon steel Steam > 270°F (int) None None 401 Condenser Plateout Copper alloy >15%
| |
| | |
| Zn (inhibited) Raw water (int) None None 401 Condenser Plateout Copper alloy >15%
| |
| | |
| Zn (inhibited)
| |
| Steam >270°F (ext) None None 401 Condenser Plateout Stainless steel Raw water (int) None None 401 Condenser Plateout Stainless steel Steam >270°F (ext) None None 401 Orifice Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown VIII.H-7 (S-29) 3.4.1-28 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 395 of 488 3.4.2-1: Main Condenser and MSIV Leakage Pathway Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Orifice Pressure boundary Carbon steel Steam > 270°F (int) Cracking-fatigueMetal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 A Orifice Pressure boundary Carbon steel Steam > 270°F (int) Loss of material Water chemistry control - BWR VIII.B2-3 (S-05) 3.4.1-37 A Expansion joint Plateout Elastomer Air - indoor (ext) None None 401 Expansion joint Plateout Elastomer Steam > 270°F (int) None None 401 Heat exchanger (tubes) Pressure boundary Stainless steel Steam > 270°F (int) Cracking Water chemistry control - BWR VIII.B2-1 (SP-45) 3.4.1-13 C Heat exchanger (tubes) Pressure boundary Stainless steel Steam > 270°F (int) Cracking-fatigueMetal fatigue TLAA H Heat exchanger (tubes) Pressure boundary Stainless steel Steam > 270°F (int) Loss of material Water chemistry control - BWR VIII.B2-2 (SP-46) 3.4.1-37 C Heat exchanger (tubes) Pressure boundary Stainless steel Treated water (ext) Loss of material Water chemistry control - closed
| |
| | |
| cooling water VIII.E-2 (S-25) 3.4.1-25 D Piping Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown VIII.H-7 (S-29) 3.4.1-28 A Piping Pressure boundary Carbon steel Steam > 270°F (int) Cracking-fatigueMetal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 A Piping Pressure boundary Carbon steel Steam > 270°F (int) Loss of material Flow accelerated corrosion VIII.B2-4 (S-15) 3.4.1-29 B VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 396 of 488 3.4.2-1: Main Condenser and MSIV Leakage Pathway Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Piping Pressure boundary Carbon steel Steam > 270°F (int) Loss of material Water chemistry control - BWR VIII.B2-3 (S-05) 3.4.1-37 A Steam trap Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown VIII.H-7 (S-29) 3.4.1-28 A Steam trap Pressure boundary Carbon steel Steam > 270°F (int) Cracking-fatigueMetal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 A Steam trap Pressure boundary Carbon steel Steam > 270°F (int) Loss of material Flow accelerated corrosion VIII.B2-4 (S-15) 3.4.1-29 B Steam trap Pressure boundary Carbon steel Steam > 270°F (int) Loss of material Water chemistry control - BWR VIII.B2-3 (S-05) 3.4.1-37 A Strainer housing Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown VIII.H-7 (S-29) 3.4.1-28 A Strainer housing Pressure boundary Carbon steel Steam > 270°F (int) Cracking-fatigueMetal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 A Strainer housing Pressure boundary Carbon steel Steam > 270°F (int) Loss of material Water chemistry control - BWR VIII.B2-3 (S-05) 3.4.1-37 A Thermowell Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown VIII.H-7 (S-29) 3.4.1-28 A Thermowell Pressure boundary Carbon steel Steam > 270°F (int) Loss of material Water chemistry control - BWR VIII.B2-3 (S-05) 3.4.1-37 A Thermowell Pressure boundary Carbon steel Steam > 270°F (int) Cracking-fatigueMetal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 A Thermowell Pressure boundary Stainless steel Air - indoor (ext) None None VIII.I-10 (SP-12) 3.4.1-41 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 397 of 488 3.4.2-1: Main Condenser and MSIV Leakage Pathway Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Thermowell Pressure boundary Stainless steel Steam > 270°F (int) Loss of material Water chemistry control - BWR VIII.B2-2 (SP-46) 3.4.1-37 A Thermowell Pressure boundary Stainless steel Steam > 270°F (int) Cracking-fatigueMetal fatigue TLAA H Thermowell Pressure boundary Stainless steel Steam > 270°F (int) Cracking Water chemistry control - BWR VIII.B2-1 (SP-45) 3.4.1-13 A Tubing Pressure boundary Stainless steel Air - indoor (ext) None None VIII.I-10 (SP-12) 3.4.1-41 A Tubing Pressure boundary Stainless steel Steam > 270°F (int) Cracking Water chemistry control - BWR VIII.B2-1 (SP-45) 3.4.1-13 A Tubing Pressure boundary Stainless steel Steam > 270°F (int) Cracking-fatigueMetal fatigue TLAA H Tubing Pressure boundary Stainless steel Steam > 270°F (int) Loss of material Water chemistry control - BWR VIII.B2-2 (SP-46) 3.4.1-37 A Valve body Pressure boundary Carbon steel Air - indoor (ext) Loss of material System walkdown VIII.H-7 (S-29) 3.4.1-28 A Valve body Pressure boundary Carbon steel Steam > 270°F (int) Cracking-fatigueMetal fatigue TLAA VIII.B2-5 (S-08) 3.4.1-1 A Valve body Pressure boundary Carbon steel Steam > 270°F (int) Loss of material Flow accelerated corrosion VIII.B2-4 (S-15) 3.4.1-29 B Valve body Pressure boundary Carbon steel Steam > 270°F (int) Loss of material Water chemistry control - BWR VIII.B2-3 (S-05) 3.4.1-37 A Valve body Pressure boundary Stainless steel Air - indoor (ext) None None VIII.I-10 (SP-12) 3.4.1-41 A VYNPS License Renewal Project Aging Management Review Summary LRPD-06 Revision 0 Page 398 of 488 3.4.2-1: Main Condenser and MSIV Leakage Pathway Component Type Intended Function Material Environment Aging Effect Requiring Management Aging Management Programs NUREG-1801 Vol. 2 Item Table 1 Item Notes Valve body Pressure boundary Stainless steel Steam > 270°F (int) Cracking Water chemistry control - BWR VIII.B2-1 (SP-45) 3.4.1-13 A Valve body Pressure boundary Stainless steel Steam > 270°F (int) Cracking-fatigueMetal fatigue TLAA H Valve body Pressure boundary Stainless steel Steam > 270°F (int) Loss of material Water chemistry control - BWR VIII.B2-2 (SP-46) 3.4.1-37 A
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| | |
| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 399 of 488Aging Management Review Summary3.5STRUCTURES AND COMPONENT SUPPORTS3.5.1IntroductionThis section provides the results of the aging management review for structural components and commodities that are subject to aging management review. The following structures and commodity groups are addressed in this section (descriptions are available in the referenced [LRA] sections).
| |
| *primary containment (Section 2.4.1)
| |
| *reactor building (Section 2.4.2)
| |
| *intake structure (Section 2.4.3)
| |
| *process facilities (Section 2.4.4)
| |
| *yard structures (Section 2.4.5)
| |
| *bulk commodities (Section 2.4.6)Table3.5.1, Summary of Aging Management Programs for Structures and Component Supports Evaluated in Chapters II and III of NUREG-1801, provides the summary of the programs evaluated in NUREG-1801 for structures and component supports. Hyperlinks are provided to the program evaluations in Appendix B
| |
| .3.5.2ResultsThe following tables summarize the results of aging management reviews and the NUREG-1801 comparison for structures and component supports.
| |
| *Table 3.5.2-1Primary Containment - Summary of Aging Management Evaluation
| |
| *Table 3.5.2-2Reactor Building-Summary of Aging Management Evaluation
| |
| *Table 3.5.2-3Intake Structure-Summary of Aging Management Evaluation
| |
| *Table 3.5.2-4Process Facilities-Summary of Aging Management Evaluation
| |
| *Table 3.5.2-5Yard Structures-Summary of Aging Management Evaluation
| |
| *Table 3.5.2-6Bulk Commodities-Summary of Aging Management Evaluation3.5.2.1Materials, Environment, Aging Effects Requiring Management and Aging Management ProgramsThe following sections list the materials, environments, aging effects requiring management, and aging management programs for structures and component supports. Programs are described in Appendix B. Further details are provided in the structure and commodities tables.3.5.2.1.1Primary Containment Materials Primary containment components are constructed of the following materials.
| |
| *carbon steel Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 400 of 488Aging Management Review Summary
| |
| *elastomer*stainless steel
| |
| *concrete*lubriteEnvironmentPrimary containment components are subject to the following environments.
| |
| *exposed to fluid environment
| |
| *protected from weatherAging Effects Requiring ManagementThe following aging effects associated with primary containment require management.
| |
| *change in material properties
| |
| *cracking*cracking - fatigue
| |
| *cracking - cyclic loads
| |
| *loss of materialAging Management ProgramsThe following programs are credited for managing the effects of aging on primary containment components.
| |
| *containment inservice inspection (CII-IWE)
| |
| *containment leak rate
| |
| *inservice inspection (ISI-IWF)
| |
| *structures monitoring3.5.2.1.2Reactor Building MaterialsReactor building components are constructed of the following materials.
| |
| *aluminum*carbon steel
| |
| *stainless steel
| |
| *concrete*concrete blockEnvironmentReactor building components are subject to the following environments.
| |
| *exposed to fluid environment
| |
| *exposed to weather
| |
| *protected from weather Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 401 of 488Aging Management Review SummaryAging Effects Requiring ManagementThe following aging effects associated with the reactor building require management.
| |
| *cracking*loss of materialAging Management ProgramsThe following aging management programs are credited for managing the aging effects for the reactor building components.
| |
| *fire protection
| |
| *masonry wall
| |
| *periodic surveillance and preventive maintenance
| |
| *structures monitoring
| |
| *water chemistry control-BWR3.5.2.1.3Intake Structure MaterialsIntake structure components are constructed of the following materials.
| |
| *aluminum*carbon steel
| |
| *galvanized steel
| |
| *stainless steel
| |
| *concrete*concrete blockEnvironmentIntake structure components are subject to the following environments.
| |
| *exposed to fluid environment
| |
| *exposed to weather
| |
| *protected from weatherAging Effects Requiring ManagementThe following aging effects associated with the intake structure requires management.
| |
| *cracking*loss of materialAging Management ProgramsThe following aging management programs are credited for managing the effects of aging on intake structure components.
| |
| *fire protection Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 402 of 488Aging Management Review Summary
| |
| *masonry wall
| |
| *structures monitoring3.5.2.1.4Process Facilities MaterialsProcess facilities components are constructed of the following materials.
| |
| *aluminum*carbon steel
| |
| *concrete*concrete block
| |
| *PVC*woodEnvironmentProcess facilities components are subject to the following environments.
| |
| *exposed to fluid environment
| |
| *exposed to weather
| |
| *protected from weatherAging Effects Requiring ManagementThe following aging effects associated with the process facilities requires management.
| |
| *change in material properties
| |
| *cracking *loss of materialAging Management ProgramsThe following aging management programs are credited for managing the effects of aging on process facilities components.
| |
| *fire protection
| |
| *masonry wall
| |
| *structures monitoring3.5.2.1.5Yard Structures MaterialsYard structures components are constructed of the following materials.
| |
| *carbon steel
| |
| *galvanized steel
| |
| *stainless steel
| |
| *concrete*concrete brick Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 403 of 488Aging Management Review SummaryEnvironmentYard structures components are subject to the following environments.
| |
| *exposed to fluid environments
| |
| *exposed to weather
| |
| *protected from weatherAging Effects Requiring ManagementThe following aging effects associated with the yard structures requires management.
| |
| *loss of material
| |
| *crackingAging Management ProgramsThe following aging management programs are credited for managing the effects of aging on yard structures components.
| |
| *periodic surveillance and preventive maintenance
| |
| *structures monitoring
| |
| *Vernon Dam FERC inspection3.5.2.1.6Bulk Commodities MaterialsBulk commodities are constructed of the following materials.
| |
| *aluminum*carbon steel
| |
| *galvanized steel
| |
| *stainless steel
| |
| *concrete*pyrocrete*stratafab
| |
| *PVC*elastomers
| |
| *fiberglass/ calcium silicate
| |
| *cera blanket
| |
| *cerafiber*rubberEnvironmentBulk commodities are subject to the following environments.
| |
| *exposed to fluid environment
| |
| *exposed to weather
| |
| *protected from weather Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 404 of 488Aging Management Review SummaryAging Effects Requiring ManagementThe following aging effects associated with bulk commodities require management.
| |
| *cracking*cracking/delamination
| |
| *change in material properties
| |
| *loss of material
| |
| *separationAging Management ProgramsThe following aging management programs are credited for managing the effects of aging on bulk commodities.
| |
| *fire protection
| |
| *insevice inspection (ISI-IWF)
| |
| *periodic surveillance and preventive maintenance
| |
| *structures monitoring
| |
| *water chemistry control - BWR3.5.2.2Further Evaluation of Agi ng Management as Recommended by NUREG-1801NUREG-1801 indicates that further evaluation is necessary for certain aging effects and other issues. Section 3.5.2.2 of NUREG-1800 discusses these aging effects th at require further evaluation. The following sections, numbered in accordance with the corresponding discussions in NUREG-1800, explain the VYNPS approach to these areas requiring further evaluation. Programs are described in Appendix B.3.5.2.2.1PWR and BWR Containments3.5.2.2.1.1Aging of Inaccessible Concrete AreasVYNPS has a Mark I free standing steel containment located within the reactor building. Inaccessible and accessible concrete areas are designed in accordance with American Concrete Institute (ACI) specification ACI 318-63, Building Code Requirements for Reinforced Concrete, which results in low permeability and resistance to aggressive chemical solutions by requiring the following.
| |
| *high cement content
| |
| *low water-to-cement ratio
| |
| *proper curing
| |
| *adequate air entrainmentVYNPS concrete also meets requirements of later ACI guide ACI 201.2R-77, Guide to Durable Concrete, since both documents use the same American Society for Testing and Material (ASTM) standards for selection, application and testing of concrete.The below-grade environment is not aggressive (pH > 5.5, chlorides < 500 ppm, and sulfates < 1,500 ppm). Concrete was provided with air content between 3% and 5% and a water/cement ratio between 0.44 and 0.60. Therefore, increase in porosity and Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 405 of 488Aging Management Review Summarypermeability, cracking, loss of material (spalling, scaling) due to aggressive chemical attack, and cracking, loss of bond, and loss of material (spalling, scaling) due to corrosion of embedded steel are not applicable for concrete in inaccessible areas. The absence of concrete aging effects is confirmed under the structures monitoring program.3.5.2.2.1.2Crack and Distortion due to Increased Stress Levels from Settlement; Reduction of Foundation Strength, Cracking and Differential Settlement due to Erosion of Porous Concrete Subfoundations, if Not Covered by Structures Monitoring ProgramVYNPS has a Mark I free standing steel containment located within the reactor building and supported by the reactor building foundation. VYNPS does not rely on a dewatering system for control of settlement. Category 1 structures are founded on sound bedrock which prevents significant settlement. Additionally, concrete within five feet of the highest known ground water level is protected by membrane waterproofing. This membrane protects the reactor building concrete against exposure to groundwater. VYNPS was not identified in IN 97-11 as a plant susceptible to erosion of porous concrete subfoundations. Groundwater was not aggressive during plant construction and there is no indication that groundwater chemistry has significantly changed. No changes in groundwater conditions have been observed at VYNPS.As a result cracking and distortion due to increased stress levels from settlement; reduction of foundation strength, cracking and differential settlement due to erosion of porous concrete subfoundations are not applicable to VYNPS concrete structures.3.5.2.2.1.3Reduction of Strength and Modulus of Concrete Structures due to Elevated TemperatureASME Code, Section III, Division 2, Subsection CC indicates that aging due to elevated temperature exposure is not significant as long as concrete general area temperatures do not exceed 150°F and local area temperatures do not exceed 200°F. During normal operation, areas within primary containment are within these temperature limits. Therefore, reduction of strength and modulus of concrete structures due to elevated temperature is not an aging effect requiring management for VYNPS containment concrete.3.5.2.2.1.4Loss of Material due to General, Pitting and Crevice CorrosionVYNPS containment is a Mark I steel containment located within the reactor building. VYNPS reactor building concrete in contact with the drywell shell is designed in accordance with specification ACI 318-63, Building Code Requirements for Reinforced Concrete. The concrete meets requirements of later ACI guide ACI 201.2R-77 since both documents use the same ASTM standards for selection, application and testing of concrete. Concrete is monitored for cracks under the structures monitoring program. The drywell steel shell and the moisture barrier where the drywell shell becomes embedded in the drywell concrete floor are inspected in Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 406 of 488Aging Management Review Summaryaccordance with the inservice inspection (IWE) program and structures monitoring program.To prevent corrosion of the lower part of the drywell shell, the interior and exterior surfaces are protected from any contact with the atmosphere by complete concrete encasement. It is not credible for ground water to reach the drywell shell, assuming a crack in the concrete, since the concrete at this location is greater than 8 feet thick and poured in multiple separate horizontal planes. The exterior surface of the drywell shell at the sand cushion interface is effectively drained and protected from consendation or water that might enter the air gap from above. Therefore, significant corrosion of the drywell shell is not expected.3.5.2.2.1.5Loss of Prestress due to Relaxation, Shrinkage, Creep, and Elevated TemperatureVYNPS is a Mark I containment structure and does not incorporate prestress concrete in its design. Therefore, loss of prestress due to relaxation, shrinkage, creep, and elevated temperature is not an applicable aging effect.3.5.2.2.1.6Cumulative Fatigue DamageTLAA are evaluated in accordance with 10CFR 54.21(c) as documented in Section 4 of the application. Fatigue TLAAs for the steel drywell, torus, and associated penetrations are evaluated and documented in Section 4.6.3.5.2.2.1.7Cracking due to Stress Corrosion Cracking (SCC)
| |
| NUREG-1801 recommends further evaluation of inspection methods to detect cracking due to SCC since visual VT-3 examinations may be unable to detect this aging effect. Potentially susceptible components at VYNPS are penetration sleeves and bellows.Stress corrosion cracking becomes significant for stainless steel if tensile stresses and a corrosive environment exist. The stresses may be applied (external) or residual (internal). The normal environment inside the drywell is dry. The penetration components are not exposed to corrosive environments. Therefore, stress corrosion cracking is not an aging effect requiring management for the penetration sleeves and bellows, since the conditions necessary for SCC do not exist.3.5.2.2.1.8Cracking due to Cyclic Loading Cyclic loading can lead to cracking of penetration sleeves, penetration bellows, and torus pool steel. If a CLB analysis does not exist, further evaluation is recommended of inspection methods to detect cracking due to cyclic loading since visual VT-3 examinations may be unable to detect this aging effect. The analysis of cracking due to cyclic loading of the drywell, torus, and associated penetrations is a TLAA which is evaluated as documented in Section 4.6
| |
| .
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 407 of 488Aging Management Review Summary3.5.2.2.1.9Loss of Material (Scaling, Cracking, and Spalling) due to Freeze-ThawVYNPS has a Mark I free standing steel containment located within the reactor building. Loss of material (scaling, cracking, and spalling) due to freeze-thaw is applicable only to concrete containments. Therefore, loss of material and cracking due to freeze-thaw do not apply.3.5.2.2.1.10Cracking due to Expansion and Reaction with Aggregate, and Increase in Porosity and Permeability due to Leaching of Calcium HydroxideVYNPS has a Mark I free standing steel containment located within the reactor building. In accordance with NUREG-1801, aging management is not required because VYNPS containment concrete (basemat) is designed in accordance with specification ACI 318-63, Building Code Requirements for Reinforced Concrete and concrete specivication requires that the potential reactivity of aggregates be acceptable based on testing in accordance with ASTM C-289 and C-295.3.5.2.2.2Safety Related and Other Structures and Component Supports3.5.2.2.2.1Aging of Structures Not Covered by Structures Monitoring ProgramVYNPS concrete structures subject to aging management review are included in the structures monitoring program. This is true for concrete items even if the aging management review did not identify aging effects requiring management. Aging effects discussed below for structural steel items are also addressed by the structures monitoring program. Additional discussion of specific aging effects follows.1.Cracking, Loss of Bond, and Loss of Material (Spalling, Scaling) Due to Corrosion of Embedded Steel for Groups 1-5, 7, 9 StructuresThe aging mechanisms associated with cracking, loss of bond, and loss of material (spalling, scaling) due to corrosion of embedded steel are applicable only to below-grade concrete/grout structures owing to the slightly acidic pH of groundwater. The below-grade environment for VYNPS is not aggressive and concrete is designed in accordance with specification ACI 318-63, Building Code Requirements for Reinforced Concrete, which results in low permeability and resistance to aggressive chemical solutions by providing a high cement, low water/cement ratio (between 0.44 and 0.60), proper curing and adequate air content between 3 percent and 5 percent. Therefore, cracking, loss of bond, and loss of material (spalling, scaling) due to corrosion of embedded steel are not aging effects requiring management for VYNPS Groups 1-5, 7, 9 structures.2.Increase in Porosity and Permeability, Cracking, Loss of Material (Spalling, Scaling) Due to Aggressive Chemical Attack for Groups 1-5, 7, 9 StructuresAggressive chemical attack becomes significant to concrete exposed to an aggressive environment. Resistance to mild acid attack is enhanced by using a dense concrete with low permeability and a low water-to-cement ratio of less than 0.50. These groups of structures at VYNPS use a dense, low permeable concrete Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 408 of 488Aging Management Review Summarywith an average water-to-cement ratio of 0.48, which provides an acceptable degree of protection against aggressive chemical attack. Water chemical analysis results confirm that the site groundwater is considered to be non-aggressive. VYNPS concrete is constructed in accordance with the recommendations in ACI201.2R-77 for durability.VYNPS below-grade environment is not aggressive. Therefore, increase in porosity and permeability, cracking, loss of material (spalling, scaling) due to aggressive chemical attack are not aging effects requiring management for VYNPS Groups 1-5, 7, 9 concrete structures.3.Loss of Material Due to Corrosion for Groups 1-5, 7, 8 StructuresVYNPS structures monitoring program will be used to manage aging effect requiring management for VYNPS Groups 1-5, 7, 8 structures.4.Loss of Material (Spalling, Scaling) and Cracking Due to Freeze-Thaw for Groups 1 3, 5, 7-9 StructuresAggregates were in accordance with specifications and materials conforming to ACI and ASTM standards. VYNPS structures are constructed of a dense, durable mixture of sound coarse aggregate, fine aggregate, cement, water, and admixture. Water/cement ratios are within the limits provided in ACI 318, and air entrainment percentages were within the range prescribed in NUREG-1801. Therefore, loss of material (spalling, scaling) and cracking due to freeze thaw are not aging effects requiring management for VYNPS Groups 1 3, 5, 7-9 structures.5.Cracking Due to Expansion and Reaction with Aggregates for Groups 1-5, 7 9 StructuresAggregates were selected locally and were in accordance with specifications and materials conforming to ACI and ASTM standards at the time of construction, which are in accordance with the recommendations in ACI 201.2R-77 for concrete durability. VYNPS structures are constructed of a dense, durable mixture of sound coarse aggregate, fine aggregate, cement, water, and admixture. Water/cement ratios are within the limits provided in ACI 318, and air entrainment percentages were within the range prescribed in NUREG-1801. Therefore, cracking due to expansion and reaction with aggregates for Groups 1 3, 5, 7-9 structures is not an aging effect requiring management for VYNPS concrete.6.Cracks and Distortion Due to Increased Stress Levels from Settlement for Groups 1-3, 5-9 StructuresVYNPS Class 1 structures are founded on sound bedrock or supported by steel pilings which prevent significant settlement. Therefore, cracks and distortion due to increased stress levels from settlement are not aging effects requiring management for VYNPS Groups 1-3, 5-9 Structures.
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 409 of 488Aging Management Review Summary7.Reduction in Foundation Strength, Cracking, Differential Settlement Due to Erosion of Porous Concrete Subfoundation for Groups 1-3, 5-9 StructuresVYNPS structures are not constructed of porous concrete. Concrete was provided in accordance with ACI 318 requirements resulting in dense, well-cured, high-strength concrete with low-permeability. Therefore, reduction in foundation strength, cracking, differential settlement due to erosion of porous concrete subfoundation are not aging effects requiring management for VYNPS Groups 1 3, 5 9 structures.8.Lock Up Due to Wear for Lubrite Radial Beam Seats in BWR Drywell and Other Sliding Support SurfacesOwing to the wear-resistant material used, the low frequency (number of times) of movement, and the slow movement between sliding surfaces, lock-up due to wear is not considered to be an aging effect requiring management at VYNPS.
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| However, Lubrite plates are included within the structures monitoring program and ISI (IWF) programs to confirm the absence of aging effects requiring management for this component.3.5.2.2.2.2Aging Management of Inaccessible AreasVYNPS concrete for Group 1-3, 5 and 7-9 inaccessible concrete areas was provided in accordance with specification ACI 318-63, Building Code Requirements for Reinforced Concrete, which requires the following, resulting in low permeability and resistance to aggressive chemical solution.
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| *high cement content
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| *low water permeability
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| *proper curing
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| *adequate air entrainmentVYNPS concrete also meets requirements of later ACI guide ACI 201.2R-77, Guide to Durable Concrete, since both documents use the same ASTM standards for selection, application and testing of concrete.Inspections of accessible concrete have not revealed degradation related to corrosion of embedded steel. VYNPS below-grade environment is not aggressive (pH > 5.5, chlorides < 500 ppm, and sulfates < 1,500 ppm). Therefore, corrosion of embedded steel is not an aging effect requiring management for VYNPS concrete.3.5.2.2.2.3Reduction of Strength and Modulus of Concrete Structures due to Elevated Temperature Group 1-5 concrete elements do not exceed the temperature limits associated with aging degradation due to elevated temperature. Therefore, reduction of strength and modulus of concrete due to elevated temperatures is not an aging effect requiring management for VYNPS.
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 410 of 488Aging Management Review Summary3.5.2.2.2.4Aging Management of Inaccessible Areas for Group 6 StructuresFor inaccessible areas of certain Group 6 structures aging effect are covered by inspections in accordance with the structures monitoring program.1.Increase in Porosity and Permeability, Cracking, Loss of Material (Spalling, Scaling)/Aggressive Chemical Attack; and Cracking, Loss of Bond, and Loss of Material (Spalling, Scaling)/Corrosion of Embedded Steel in Below-Grade Inaccessible Concrete Areas of Group 6 StructuresBelow-grade exterior reinforced concrete at VYNPS is not exposed to an aggressive environment (pH less than 5.5), or to chloride or sulfate solutions beyond defined limits (greater than 500 ppm chloride, or greater than 1500 ppm sulfate). Therefore, increase in porosity and permeability, cracking, loss of material (spalling, scaling)/ aggressive chemical attack; and cracking, loss of bond, and loss of material (spalling, scaling)/ corrosion of embedded steel are not an aging effect requiring management for below-grade inaccessible concrete areas of VYNPS Group 6 structures.2.Loss of Material (Spalling, Scaling) and Cracking Due to Freeze-thaw in Below-Grade Inaccessible Concrete Areas of Group 6 StructuresAggregates were selected locally and were in accordance with specifications and materials conforming to ACI and ASTM standards at the time of construction. VYNPS structures are constructed of a dense, durable mixture of sound coarse aggregate, fine aggregate, cement, water, and admixture. Water/cement ratios are within the limits provided in ACI 318, and air entrainment percentages were within the range prescribed in NUREG-1801. Therefore, loss of material (spalling, scaling) and cracking due to freeze thaw are not aging effects requiring management for VYNPS Groups 6 structures below-grade.3.Cracking Due to Stress Corrosion Cracking (SCC), Reaction with Aggregates, Increase in Porosity and Permeability, and Loss of Strength Due to Leaching of Calcium Hydroxide in Below-Grade Inaccessible Concrete Areas of Group 6 Structures Aggregates were selected locally and were in accordance with specifications and materials conforming to ACI and ASTM standards at the time of construction, which are in accordance with the recommendations in ACI 201.2R-77 for concrete durability. VYNPS structures are constructed of a dense, durable mixture of sound coarse aggregate, fine aggregate, cement, water, and admixture. Water/cement ratios are within the limits provided in ACI 318-63, and air entrainment percentages were within the range prescribed in NUREG-1801. VYNPS below-grade environment is not aggressive (pH > 5.5, chlorides < 500 ppm, and sulfates
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| < 1,500 ppm).Therefore, cracking due to expansion and reaction with aggregates, increase in pororosity and permeability due to leaching of calcium hydroxide in below grade Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 411 of 488Aging Management Review Summaryinaccessible concrete areas of Group 6 structures is not an aging mechanism for VYNPS concrete.3.5.2.2.2.5Cracking due to Stress Corrosion Cracking and Loss of Material due to Pitting and Crevice CorrosionNo tanks with stainless steel liners are included in the structural aging management reviews. Tanks subject to aging management review are evaluated with their respective mechanical systems.3.5.2.2.2.6Aging of Supports Not Covered by Structures Monitoring Program NUREG-1801 does recommends further evaluation of certain component support/aging effect combinations if they are not covered by the applicant's structure monitoring program. Components supports at VYNPS are included in the structures monitoring program for Groups B2 through B5 and inservice inspection (IWF) program for Group B1.(1)Reduction in concrete anchor capacity due to degradation of the surrounding concrete for Groups B1 through B5 supportsVYNPS concrete anchors and surrounding concrete are included in the structures monitoring program (Groups B2 through B5) and inservice inspection (IWF) program (Group B1). (2)Loss of material due to general and pitting corrosion, for Groups B2-B5 supportsLoss of material due to corrosion of steel support components is an aging effect requiring management at VYNPS. This aging effect is managed by the structures monitoring program.(3)Reduction/loss of isolation function due to degradation of vibration isolation elements for Group B4 supportsThe VYNPS aging management review did not identify any component support structure/aging effect combination corresponding to NUREG-1801 Volume 2 Item III.B4.2-a.3.5.2.2.2.7Cumulative Fatigue Damage due to Cyclic LoadingTLAA are evaluated in accordance with 10CFR 54.21(c) as documented in Section 4 of this application. During the process of identifying TLAAs in the VYNPS current licensing basis, no fatigue analyses were identified for component support members, anchor bolts, and welds for Groups B1.1, B1.2, and B1.3.3.5.2.2.3Quality Assurance for Aging Management of Nonsafety-Related ComponentsSee Appendix B Section B.0.3 for discussion of VYNPS quality assurance procedures and administrative controls for aging management programs.
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| Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 412 of 488Aging Management Review Summary3.5.2.3Time-Limited Aging AnalysesPotential TLAA identified for structural components and commodities include reactor vessel and drywell bellows, drywell to torus vent system, drywell to torus ventline bellows, torus shell, primary containment and torus penetrations. These topics are discussed in Section 4.6.3.5.3ConclusionThe structural components and commodities subject to aging management review have been identified in accordance with the criteria of 10CFR 54.21. The aging management programs selected to manage the effects of aging on structural components and commodities are identified in the following tables and Section 3.5.2.1. A description of the aging management programs is provided in Appendix B of this application, along with the demonstration that the identified aging effects will be managed for the period of extended operation.Therefore, based on the demonstrations provided in Appendix B, the effects of aging associated with the structural components and commodities will be managed such that there is reasonable assurance that the intended functions will be maintained consistent with the current licensing basis during the period of extended operation.
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| Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 413 of 488Aging Management Review SummaryTable 3.5.1Summary of Aging Management Programs for Structures and Component Supports Evaluated in Chapters II and III of NUREG-1801Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussionPWR Concrete (Reinforced and Prestressed) and Steel ContainmentBWR Concrete (Mark II and III) and Steel (Mark I, II, and III) Containment3.5.1-1Concrete elements: walls, dome, basemat, ring girder, buttresses, containment (as applicable).Aging of accessible and inaccessible concrete areas due to aggressive chemical attack, and corrosion of embedded steelISI (IWL) and for inaccessible
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| concrete, an examination of representative samples of below-grade concrete and periodic monitoring of groundwater if environment is nonaggressive. A plant specific program is to be evaluated if environment is
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| aggressive.Yes, plant-specific, if the environment is aggressive Not applicable. The listed concrete elements apply to PWR containments and concrete BWR containments.
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| VYNPS containment is a Mark I steel containment.
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| Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 414 of 488Aging Management Review Summary3.5.1-2Concrete elements; AllCracks and distortion due to increased stress levels from settlementStructures Monitoring Program. If a de-watering system is relied upon for control of settlement, then the licensee is to ensure proper functioning of the de-watering system through the period of extended operation.Yes, if not within the scope of the applicant's structures monitoring program or a de-watering system is relied uponNot applicable. NUREG-1801 Volume 2 items referencing this item are associated with concrete containments.
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| VYNPS containment is a steel containment. Concrete elements are limited to floor slab and reactor vessel pedestal. These elements are not subject to the listed aging effect because they are founded on the reactor building base slab. Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 415 of 488Aging Management Review Summary3.5.1-3Concrete elements: foundation, subfoundationReduction in foundation strength, cracking, differential settlement due to erosion of porous
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| concrete subfoundationStructures Monitoring Program. If a dewatering system is relied upon to control erosion of cement from porous
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| concrete subfoundations, then the licensee is
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| to ensure proper functioning of the de-watering system through the period of extended operation.Yes, if not within the scope of the applicant's structures monitoring program or a de-watering system is relied uponNot applicable. NUREG-1801 Volume 2 items referencing this item are associated with concrete containments.
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| VYNPS containment is a Mark I steel containment.3.5.1-4Concrete elements:
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| dome, wall, basemat, ring girder, buttresses, containment, concrete fill-in annulus (as applicable)Reduction of strength and modulus due to elevated temperatureA plant-specific aging management program is to be evaluatedYes, plant-specific if temperature limits are exceededNot applicable. NUREG-1801 Volume 2 items referencing this item are associated with concrete containments.
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| VYNPS is a Mark I steel containment.Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 416 of 488Aging Management Review Summary3.5.1-5Steel elements: Drywell; torus; drywell head; embedded shell and sand pocket regions; drywell support skirt;
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| torus ring girder; downcomers; liner plate, ECCS suction header, support skirt, region shielded by diaphragm floor, suppression
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| chamber (as applicable)Loss of material due to general, pitting and crevice corrosionISI (IWE) and 10 CFR Part 50, Appendix JYes, if corrosion is significant for inaccessible areasContainment inservice inspection and containment leak rate program will manage this aging effect. Containment inservice inspection is a plant-specific program for VYNPS.
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| Corrosion is not significant for inaccessible areas (i.e.,
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| drywell steel shell). To prevent corrosion of the lower part of the drywell, the interior and exterior surfaces are protected from contact with the atmosphere by complete concrete encasement.
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| Concrete is designed in accordance with ACI standards and monitored under the structures monitoring program. The drywell steel where the drywell shell is embedded is inspected in accordance with the inservice inspection (IWE) program and structures monitoring program. See Section 3.5.2.2.1.4. Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 417 of 488Aging Management Review Summary3.5.1-6Steel elements: steel liner, liner anchors, integral attachmentsLoss of material due to general, pitting and crevice corrosionISI (IWE) and 10 CFR Part 50, Appendix JYes, if corrosion is significant for inaccessible areasNot applicable. NUREG-1801 Volume 2 items referencing this item are associated with concrete containments.
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| VYNPS containment is a Mark I steel containment.3.5.1-7Prestressed containment tendonsLoss of prestress due to relaxation, shrinkage, creep, and elevated temperatureTLAA evaluated in accordance with 10
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| CFR 54.21(c)Yes, TLAANot applicable. NUREG-1801 Volume 2 items referencing this item are associated with concrete containments. This is applicable only to PWR and BWR prestressed concrete containments. VYNPS containment is a Mark I steel containment.3.5.1-8Steel and stainless steel elements: vent line, vent header, vent line bellows; downcomers;Cumulative fatigue damage (CLB fatigue analysis exists)TLAA evaluated in accordance with 10
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| CFR 54.21(c)Yes, TLAASee Section 3.5.2.2.1.6.Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 418 of 488Aging Management Review Summary3.5.1-9Steel, stainless steel elements, dissimilar metal welds:
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| penetration sleeves, penetration bellows; suppression pool shell, unbraced downcomersCumulative fatigue damage (CLB fatigue analysis exists)TLAA evaluated in accordance with 10
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| CFR 54.21(c)Yes, TLAANot applicable. See Section 3.5.2.2.1.6.3.5.1-10Stainless steel penetration sleeves, penetration bellows, dissimilar metal
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| weldsCracking due to stress corrosion crackingISI (IWE) and 10 CFR Part 50, Appendix J and additional appropriate examinations/
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| evaluations for bellows assemblies and dissimilar metal
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| weldsYes, detection of aging effects is to be evaluatedNot applicable. See Section 3.5.2.2.1.7.3.5.1-11Stainless steel vent line bellows,Cracking due to stress corrosion crackingISI (IWE) and 10 CFR Part 50, Appendix J, and additional appropriate examination/
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| evaluation for bellows assemblies and dissimilar metal
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| weldsYes, detection of aging effects is to be evaluatedNot applicable. See Section 3.5.2.2.1.7.Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 419 of 488Aging Management Review Summary3.5.1-12Steel, stainless steel elements, dissimilar metal welds:
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| penetration sleeves, penetration bellows; suppression pool shell, unbraced downcomersCracking due to cyclic loadingISI (IWE) and 10 CFR Part 50, Appendix J supplemented to detect fine cracksYes, detection of aging effects is to be evaluatedContainment inservice inspection and containment leak rate program will manage this aging effect. The containment inservice inspection program includes augmented ultrasonic exams to detect fine cracks.3.5.1-13Steel, stainless steel elements, dissimilar metal welds: torus; vent line; vent header; vent line bellows; downcomersCracking due to cyclic loadingISI (IWE) and 10 CFR Part 50, Appendix J supplemented to detect fine cracksYes, detection of aging effects is to be evaluatedContainment inservice inspection and containment leak rate program will manage this aging effect. The containment inservice inspection program includes augmented ultrasonic exams to detect fine cracks.3.5.1-14Concrete elements: dome, wall, basemat ring girder, buttresses, containment (as applicable)Loss of material (Scaling, cracking, and spalling) due to freeze-thawISI (IWL) Evaluation is needed for plants that are located in moderate to severe
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| weathering conditions (weathering index
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| >100 day-inch/yr)
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| (NUREG-1557).Yes, for plants located in moderate to severe weathering conditionsNot applicable. NUREG-1801 Volume 2 items referencing this item are associated with concrete containments.
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| VYNPS containment is a Mark I steel containment.Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 420 of 488Aging Management Review Summary3.5.1-15Concrete elements: walls, dome, basemat, ring girder, buttresses, containment, concrete fill-in annulus (as applicable).Cracking due to expansion and reaction with aggregate; increase in porosity, permeability due to leaching of calcium hydroxide; ISI (IWL) for accessible areas.
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| None for inaccessible areas if concrete was constructed in accordance with the recommendations in ACI 201.2R-77.Yes, if concrete was not constructed as stated for inaccessible areasNot applicable. NUREG-1801 Volume 2 items referencing this item are associated with concrete containments.
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| VYNPS containment is a Mark I steel containment.3.5.1-16Seals, gaskets, and moisture barriersLoss of sealing and leakage through containment due to deterioration of joint seals, gaskets, and moisture barriers (caulking, flashing, and other sealants)ISI (IWE) and 10 CFR Part 50, Appendix JNoThe aging effects cited in the NUREG-1801 item are loss of sealing and leakage. Loss of sealing is a consequence of the aging effects cracking and change in material properties.
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| For VYNPS, the containment leak rate program manages cracking and change in material properties. Seals and gaskets are not included in the containment inservice inspection (CII) program at VYNPS. Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 421 of 488Aging Management Review Summary3.5.1-17Personnel airlock, equipment hatch and CRD hatch locks, hinges, and closure mechanismsLoss of leak tightness in closed position due to mechanical wear of locks, hinges and closure mechanisms10 CFR Part 50, Appendix J and Plant Technical SpecificationsNoLocks, hinges, and closure mechanisms are active components and are therefore, not subject to aging management review. 10 CFR Part 50, Appendix J and VYNPS technical specifications require testing to ensure leak tightness of airlocks and hatches.3.5.1-18Steel penetration sleeves and dissimilar metal welds; personnel airlock, equipment hatch and CRD hatchLoss of material due to general, pitting, and crevice corrosionISI (IWE) and 10 CFR Part 50, Appendix JNoContainment inservice inspection and containment leak rate program will manage this aging effect. Containment inservice inspection is a plant-specific program for VYNPS.3.5.1-19Steel elements: stainless steel suppression chamber shell (inner surface)Cracking due to stress corrosion crackingISI (IWE) and 10 CFR Part 50, Appendix JNoNot applicable. This is applicable to stainless steel suppression chambers. The VYNPS suppression chamber is carbon steel.Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 422 of 488Aging Management Review Summary3.5.1-20Steel elements: suppression chamber liner (interior surface)Loss of material due to general, pitting, and crevice corrosionISI (IWE) and 10 CFR Part 50, Appendix JNoNot applicable. NUREG-1801 Volume 2 items referencing this item are associated with concrete containments.
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| VYNPS containment is a Mark I steel containment.3.5.1-21Steel elements: drywell head and downcomer pipesFretting or lock up due to mechanical wearISI (IWE)NoVYNPS plant operating experience has not identified fretting or lock up due to mechanical wear for the drywell head and downcomers. 3.5.1-22Prestressed containment:
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| tendons and anchorage componentsLoss of material due to corrosionISI (IWL)NoNot applicable. VYNPS containment is a Mark I steel containment without prestressed tendons. Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 423 of 488Aging Management Review SummarySafety-Related and Other Structures; and Component Supports3.5.1-23All Groups except Group 6: interior and above grade exterior concreteCracking, loss of bond, and loss of material (spalling, scaling) due to corrosion of embedded steelStructures Monitoring ProgramYes, if not within the scope of the applicant's structures monitoring programCorrosion of embedded steel becomes significant if exposed to an aggressive environment.
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| Corrosion is not significant if the concrete has a low water-to-cement ratio, low permeability, and is designed in accordance with ACI Standards (ACI-318 or ACI-349). Loss of bond is included with cracking for the purpose of this review. The design and construction of these structures at VYNPS prevents corrosion of embedded steel.
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| See Section 3.5.2.2.2.1(1) for further discussion.
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| Nonetheless, components are included in the structures monitoring program.Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 424 of 488Aging Management Review Summary3.5.1-24All Groups except Group 6: interior and above grade exterior concreteIncrease in porosity and permeability, cracking, loss of material (spalling, scaling) due to aggressive chemical attackStructures Monitoring ProgramYes, if not within the scope of the applicant's structures monitoring programListed aging effects do not require management at VYNPS. See Section 3.5.2.2.2.1 (2) for further discussion. Nonetheless, components are included in the structures monitoring program.3.5.1-25All Groups except Group 6: steel components: all structural steelLoss of material due to corrosionStructures Monitoring Program. If protective coatings are relied upon to manage the effects of aging, the structures monitoring program
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| is to include provisions to address protective coating monitoring and maintenance.Yes, if not within the scope of the applicant's structures monitoring programConsistent with NUREG-1801. Structures monitoring program manages loss of material.
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| Protective coatings are not relied upon to mange the effects of aging. In some cases structures monitoring program is supplemented by periodic surveillance and preventive maintenance and fire protection program.Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 425 of 488Aging Management Review Summary3.5.1-26All Groups except Group 6: accessible and inaccessible concrete: foundationLoss of material (spalling, scaling) and cracking due to freeze-thawStructures Monitoring
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| Program.
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| Evaluation is needed for plants that are located in moderate to severe
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| weathering conditions (weathering index
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| >100 day-inch/yr)
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| (NUREG-1557).Yes, if not within the scope of the applicant's structures monitoring program or for plants located in moderate to severe weathering
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| conditionsFreeze-thaw is not an applicable aging mechanism for these groups of structures
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| at VYNPS. See Section 3.5.2.2.2.1(4) for further discussion. Nonetheless, components are included in the structures monitoring program.3.5.1-27All Groups except Group 6: accessible and inaccessible
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| interior/exterior concreteCracking due to expansion due to reaction with aggregatesStructures Monitoring Program
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| None for inaccessible areas if concrete was constructed in accordance with the recommendations in ACI 201.2R-77.Yes, if not within the scope of the applicant's structures monitoring program or concrete was not constructed as stated for inaccessible areasReaction with aggregates is not an applicable aging mechanism for concrete for these groups of structures at VYNPS. See Section 3.5.2.2.2.1(5) for further discussion. Nonetheless, components are included in the structures monitoring program.Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 426 of 488Aging Management Review Summary3.5.1-28Groups 1-3, 5-9: allCracks and distortion due to increased stress levels from settlementStructures Monitoring Program. If a de-watering system is relied upon for control of settlement, then the licensee is to ensure proper functioning of the de-watering system through the period of extended operation.Yes, if not within the scope of the applicant's structures monitoring program or a de-watering system is relied uponVYNPS structures are founded on compacted sand subgrade associated with bedrock. Plant operating experience has not
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| identified settlement of structures resulting in cracks and distortion of component structures; therefore, cracks and distortion are not aging effects requiring management.
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| See discussion in Section 3.5.2.2.2.1(6).3.5.1-29Groups 1-3, 5-9: foundationReduction in foundation strength, cracking, differential settlement due to erosion of porous
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| concrete subfoundationStructures Monitoring Program. If a de-watering system is relied upon for control of settlement, then the licensee is to ensure proper functioning of the de-watering system through the period of extended operation.Yes, if not within the scope of the applicant's structures monitoring program or a de-watering system is relied uponVYNPS structures are founded on compacted sand subgrade associated with bedrock. Plant operating experience has not
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| identified settlement of structures resulting is cracks and distortion of component structures; therefore, the listed aging effects do not require management. See discussion in Section 3.5.2.2.2.1(7).Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 427 of 488Aging Management Review Summary3.5.1-30Group 4: Radial beam seats in BWR drywell; RPV support shoes for PWR with nozzle supports; Steam generator supportsLock-up due to wear ISI (IWF) or Structures Monitoring ProgramYes, if not within the scope of ISI or structures monitoring programLubrite plates are used in the drywell beam seats at VYNPS.
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| Lubrite materials for nuclear applications are designed to resist deformation, have a low coefficient of friction, resist softening at elevated temperatures, resist corrosion, withstand high intensities of radiation, and will not score or mar; therefore, they are not susceptible to aging effects requiring management.
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| Nonetheless, lubrite components associated with the drywell beam seats are included in the structures monitoring program.Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 428 of 488Aging Management Review Summary3.5.1-31Groups 1-3, 5, 7-9: below-grade concrete components, such as exterior walls below grade and foundationIncrease in porosity and permeability, cracking, loss of material (spalling, scaling)/ aggressive chemical attack; Cracking, loss of bond, and loss of material (spalling, scaling)/corrosion of embedded steelStructures monitoring
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| Program; Examination of representative samples of below-grade concrete, and periodic monitoring of groundwater, if the environment is non-aggressive. A plant specific program is to be evaluated if environment is
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| aggressive.Yes, plant-specific, if environment is aggressiveVYNPS concrete has a low water-to-cement ratio, low permeability, and designed in accordance with ACI Standards (ACI-318 or ACI-349). Loss of bond is included with cracking for the purpose of this review. The design and construction of these groups of structures at VYNPS prevents the effect of this aging from occurring; therefore, this aging effect does not require management. Aging effects are not significant for accessible and inaccessible below-grade areas. See discussion in Section 3.5.2.2.2.1(2).Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 429 of 488Aging Management Review Summary3.5.1-32Groups 1-3, 5, 7-9: exterior above and below grade reinforced concrete foundationsIncrease in porosity and permeability, loss of strength due to leaching of calcium hydroxide.Structures Monitoring Program for accessible areas. None for inaccessible areas if concrete was constructed in accordance with the recommendations in ACI 201.2R-77.Yes, if concrete was not constructed as stated for inaccessible areasVYNPS concrete has a low water-to-cement ratio, low permeability, and designed in accordance with ACI Standards (ACI-318 or ACI-349). The design and construction of these groups of structures at VYNPS prevents the effect of this aging from occurring; therefore, this aging effect does not require management.
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| See Section 3.5.2.2.2.1 (2). Nonetheless, components are included in the structures monitoring program. 3.5.1-33Groups 1-5: concreteReduction of strength and modulus due to elevated temperaturePlant-specificYes, plant-specific if temperature limits are exceededVYNPS concrete elements do not exceed specified temperature limits. See discussion in Section 3.5.2.2.2.3. Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 430 of 488Aging Management Review Summary3.5.1-34Group 6: Concrete; allIncrease in porosity and permeability, cracking, loss of material due to aggressive chemical attack; Cracking, loss of bond, loss of material due to corrosion of embedded steel;Insp of Water-Control Structures or FERC/US Army Corps of Engineers dam inspections and maintenance programs, and for inaccessible concrete, exam of rep. samples of below-grade
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| concrete, and periodic monitoring of groundwater, if environment is non-
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| aggressive. Plant
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| specific if environment is
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| aggressive.Yes, plant-specific if environment is aggressiveThe listed aging effects are not significant for accessible and inaccessible areas because VYNPS ground water is non-aggressive. Loss of bond is included with cracking for the purpose of this review. The structures monitoring program will confirm the absence of aging effects requiring management for VYNPS Group 6 components exposed to a fluid environment.Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 431 of 488Aging Management Review Summary3.5.1-35Group 6: exterior above and below grade concrete foundationLoss of material (spalling, scaling) and cracking due to freeze-thawInspection of Water-Control Structures or FERC/US Army Corps of Engineers dam inspections and maintenance programs.
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| Evaluation is needed for plants that are located in moderate to severe
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| weathering conditions (weathering index
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| >100 day-inch/yr)
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| (NUREG-1557).Yes, for plants located in moderate to severe weathering conditionsAging effects are not significant for accessible and inaccessible areas. These concrete structures are exposed to sa turated water conditions near the ground surface; however, the concrete used at VYNPS is designed with entrained air content of between 4% and 6% in conformance with ACI-301, and plant experience has not identified any degradation related to freeze-thaw.
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| Nonetheless, the structures monitoring program will confirm the absence of aging effects requiring management for VYNPS Group 6 concrete components.Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 432 of 488Aging Management Review Summary3.5.1-36Group 6: all accessible/
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| inaccessible reinforced concreteCracking due to expansion/ reaction with aggregatesAccessible areas: Inspection of Water-Control Structures or FERC/US Army Corps of Engineers dam inspections and maintenance programs.. None for inaccessible areas if concrete was constructed in accordance with the recommendations in ACI 201.2R-77.Yes, if concrete was not constructed as stated for inaccessible areasReaction with aggregates is not an applicable aging mechanism for VYNPS concrete components. See Section 3.5.2.2.2.1(5) for additional discussion.
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| Nonetheless, the structures monitoring program a will confirm the absence of aging effects requiring management for VYNPS Group 6 concrete components.Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 433 of 488Aging Management Review Summary3.5.1-37Group 6: exterior above and below grade reinforced concrete foundation
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| interior slabIncrease in porosity and permeability, loss of strength due to leaching of calcium hydroxideFor accessible areas, Inspection of Water-Control Structures or FERC/US Army Corps of Engineers dam inspections and maintenance programs.. None for inaccessible areas if concrete was constructed in accordance with the recommendations in ACI 201.2R-77.Yes, if concrete was not constructed as stated for inaccessible areasNot applicable. See Section 3.5.2.2.2.4(3).3.5.1-38Groups 7, 8: Tank linersCracking due to stress corrosion cracking; loss of material due to pitting and crevice
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| corrosionPlant-specificYes, plant specificThere are no concrete or steel tanks with stainless steel liners in the scope of VYNPS license renewal3.5.1-39Support members; welds; bolted connections; support anchorage to building structureLoss of material due to general and pitting
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| corrosionStructures Monitoring ProgramYes, if not within the scope of the applicant's structures monitoring programConsistent with NUREG-1801. Structures monitoring program will manage aging effects identified by this line
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| item.Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 434 of 488Aging Management Review Summary3.5.1-40Building concrete at locations of expansion and grouted anchors; grout pads for support base platesReduction in concrete anchor capacity due to local concrete degradation/ service-induced cracking or other concrete aging mechanismsStructures Monitoring ProgramYes, if not within the scope of the applicant's structures monitoring programVYNPS concrete components are designed in accordance with accepted ACI standards.
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| Plant experience has not identified reduction in concrete anchor capacity or other concrete aging mechanisms.
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| Nonetheless, the structures monitoring program will confirm absence of aging effects requiring management for VYNPS concrete components.3.5.1-41Vibration isolation elementsReduction or loss of isolation function/
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| radiation hardening, temperature, humidity, sustained vibratory
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| loadingStructures Monitoring ProgramYes, if not within the scope of the applicant's structures monitoring programNo vibration isolation elements at VYNPS are in scope and subject to aging management review. 3.5.1-42Groups B1.1, B1.2, and B1.3: support members: anchor bolts, weldsCumulative fatigue damage (CLB fatigue analysis exists)TLAA evaluated in accordance with 10
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| CFR 54.21(c)Yes, TLAANot applicable. No CLB fatigue analysis exists.Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 435 of 488Aging Management Review Summary3.5.1-43Groups 1-3, 5, 6: all masonry block wallsCracking due to restraint shrinkage, creep, and aggressive environmentMasonry Wall ProgramNoConsistent with NUREG-1801 for masonry walls within the station. The masonry wall program manages this aging effect. In some cases a masonry wall program is supplemented by fire protection program. The Vernon Dam FERC inspection program manages masonry wall cracking at the Vernon Dam facility.3.5.1-44Group 6 elastomer seals, gaskets, and moisture barriersLoss of sealing due to deterioration of seals, gaskets, and moisture barriers (caulking, flashing, and other sealants)Structures Monitoring Program NoLoss of sealing is a consequence of elastomer cracking and change in
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| material properties.
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| Component types include:
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| moisture barrier, compressible joints and seals used for seismic gaps, and fire barrier seals. The structures monitoring program manages cracking and change in
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| material properties. Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 436 of 488Aging Management Review Summary3.5.1-45Group 6: exterior above and below grade concrete foundation; interior
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| slabLoss of material due to abrasion, cavitationInspection of Water-Control Structures or FERC/US Army Corps of Engineers dam inspections and maintenanceNoAbrasion and cavitation due to flowing water are insignificant at VYNPS due to the low flow velocities for these structures.
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| Nonetheless the structures monitoring program will confirm absence of aging effects requiring management for VYNPS Group 6 concrete components. Loss of material of structural steel components of the Vernon Dam are managed by the Vernon Dam FERC inspection program.Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 437 of 488Aging Management Review Summary3.5.1-46Group 5: Fuel pool linersCracking due to stress corrosion cracking; loss of material due to pitting and crevice
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| corrosionWater Chemistry and Monitoring of spent fuel pool
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| water level in accordance with
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| technical
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| specifications and leakage from the leak chase channel.NoAt VYNPS, the water chemistry control program manages aging effects on the spent fuel pool liner.
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| Monitoring spent fuel pool
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| water level in accordance with technical specifications and monitoring leakage from the leak chase channels will also continue during the period of extended operation. Cracking due to stress corrosion is not an aging effect requiring management for treated water
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| <140°F. There are no stainless steel spent fuel components with intended functions exposed to treated water > 60°C (>140°F). Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 438 of 488Aging Management Review Summary3.5.1-47Group 6: all metal structural membersLoss of material due to general (steel only),
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| pitting and crevice
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| corrosionInspection of Water-Control Structures or FERC/US Army Corps of Engineers dam inspections and maintenance
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| programs. If protective coatings are relied upon to manage aging, protective coating monitoring and maintenance provisions should be included.NoThe listed aging management program is not used. The structures monitoring program will confirm absence of aging effects requiring management for VYNPS Group 6 steel components. Loss of material of structural steel components of the Vernon Dam are managed by the Vernon Dam FERC inspection program.3.5.1-48Group 6: earthen water control structures - dams, embankments, reservoirs, channels, canals, and pondsLoss of material, loss of form due to erosion, settlement, sedimentation, frost action, waves, currents, surface runoff, seepageInspection of Water-Control Structures or FERC/US Army Corps of Engineers dam inspections and maintenance programs.NoNot applicable. VYNPS does not have earthen water control structures.Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 439 of 488Aging Management Review Summary3.5.1-49Support members; welds; bolted connections; support anchorage to building structureLoss of material/ general, pitting, and crevice corrosionWater Chemistry and ISI (IWF)NoThis aging effect is managed by the VYNPS water chemistry control program and ISI (IWF) program 3.5.1-50Groups B2, and B4: galvanized steel, aluminum, stainless
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| steel support members; welds; bolted connections; support anchorage to building structureLoss of material due to pitting and crevice
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| corrosionStructures Monitoring ProgramNoNot applicable. The ambient environment at VYNPS is not chemically polluted by vapors of sulfur dioxide or other similar substances and the external environment does not contain saltwater or high chlorides. Therefore, loss of material due to pitting and crevice corrosion is not an aging effect requiring management for aluminum, stainless steel and galvanized steel components exposed to the external environment.Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 440 of 488Aging Management Review Summary3.5.1-51Group B1.1: high strength low-alloy boltsCracking due to stress corrosion cracking; loss of material due to general corrosionBolting IntegrityNoSCC of high strength anchor bolts is not an aging effect requiring management at VYNPS for two reasons.
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| (1)High strength bolting at VYNPS is not exposed to a corrosive environment or high tensile stresses. (2) High strength structural bolts are installed with friction-type contact surfaces via the turn-of-the-nut method; therefore, for bolts greater than 1" in diameter, a significant preload (in the order of 70% of ultimate strength) is not practical to develop. The VYNPS ISI (IWF) program manages loss of material for high strength low-alloy bolts.3.5.1-52Groups B2, and B4: sliding support bearing and sliding support surfacesLoss of mechanical function due to corrosion, distortion, dirt, overload, fatigue due to vibratory and cyclic thermal loads; Structures Monitoring ProgramNoLoss of mechanical function due to the listed mechanisms is not an aging effect. Proper design prevents distortion, overload, and fatigue due to vibratory and cyclic thermal loads. Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 441 of 488Aging Management Review Summary3.5.1-53Groups B1.1, B1.2, and B1.3: support members: welds; bolted connections; support anchorage to building structureLoss of material due to general and pitting
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| corrosionISI (IWF)NoThis aging effect is managed by the VYNPS ISI (IWF) program.3.5.1-54Groups B1.1, B1.2, and B1.3: Constant and variable load spring hangers; guides; stops; Loss of mechanical function due to corrosion, distortion, dirt, overload, fatigue due to vibratory and cyclic thermal loads; ISI (IWF)NoLoss of mechanical function due to the listed mechanisms is not an aging effect. Proper design prevents distortion, overload, and fatigue due to vibratory and cyclic thermal loads. 3.5.1-55PWR onlyTable 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 442 of 488Aging Management Review Summary3.5.1-56Groups B1.1, B1.2, and B1.3: Sliding surfacesLoss of mechanical function due to corrosion, distortion, dirt, overload, fatigue due to vibratory and cyclic thermal loadsISI (IWF)NoLubrite plates are used in the torus support saddles at VYNPS. Lubrite materials for nuclear applications are designed to resist deformation, have a low coefficient of friction, resist softening at elevated temperatures, resist corrosion, withstand high intensities of radiation, and will not score or mar; therefore, they are not susceptible to aging effects requiring management. Nonetheless, lubrite components associated with the torus supports are
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| included in the VYNPS ISI-
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| IWF program. 3.5.1-57Groups B1.1, B1.2, and B1.3: Vibration isolation elementsReduction or loss of isolation function/
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| radiation hardening, temperature, humidity, sustained vibratory
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| loadingISI (IWF)NoNo supports with vibration isolation elements have been identified in the scope of license renewal for VYNPS.Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 443 of 488Aging Management Review Summary3.5.1-58Galvanized steel and aluminum support members; welds; bolted connections; support anchorage to building structure exposed to air -
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| indoor uncontrolledNone NoneNone NA - No AEM or AMPConsistent with NUREG 1801.3.5.1-59Stainless steel support members;
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| welds; bolted connections; support anchorage to building structureNoneNoneNA - No AEM or AMPConsistent with NUREG 1801.Table 3.5.1: Structures and Component Supports, NUREG-1801 Vol. 1Item NumberComponentAging Effect/Mechanism Aging Management ProgramsFurther Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 444 of 488Aging Management Review SummaryNotes for Table 3.5.2-1 through 3.5.2-4Generic notesA.Consistent with component, material, environment, aging effect and aging management program listed for NUREG-1801 line item. AMP is consistent with NUREG-1801 AMP description.B.Consistent with component, material, environment, aging effect and aging management program listed for NUREG-1801 line item. AMP takes some exceptio ns to NUREG-1801 AMP description.C.Component is different, but consistent with material, environment, aging effect, and aging management program for NUREG-1801 line item. AMP is consistent with NUREG-1801 AMP description.D.Component is different, but consistent with material, environment, aging effect, and aging management program for NUREG-1801 line item. AMP takes some exce ptions to NUREG-1801 AMP description.E.Consistent with NUREG-1801 material, environment, and aging effect but a different aging management program is credited.F.Material not in NUREG-1801 for this component.G.Environment not in NUREG-1801 for this component and material.
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| H.Aging effect not in NUREG-1801 for this component, material and environment combination.I.Aging effect in NUREG-1801 for th is component, material and environmen t combination is not applicable.J.Neither the component nor the material and environment combination is evaluated in NUREG-1801.Plant-specific notes501.The VYNPS environment is not conducive to the listed aging effects. However, the identified AMP will be used to confirm the absence of significant aging effects for the period of extended operation.502.Loss of insulating characteristics due to insulation degradation is not an aging effect requiring management for insulation material. Insulation products, which are made from fiberglass fiber, calcium silicate, stainless steel, and similar materials, that are protected from weather do not experience aging effects that would significantly degrade their ability to insulate as designed. A review of site operating experience identified no aging effects for insulation used at VYNPS.
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| Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 445 of 488Aging Management Review Summary503.The ambient environment at VYNPS is not chemically polluted by vapors of sulfur dioxide or other similar substances and the external environment does not contain saltwater or high chloride content. Therefore, aging management is not required for aluminum, stainless steel and galvanized steel components exposed to the external environment.504.Steel piles driven in undisturbed soils show no significant effects due to corrosion, regardless of the soil type or soil properties. Likewise, piles driven in disturbed soil above the water table zone do not reflect any significant corrosion. Therefore, aging management is not required.
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| Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 446 of 488Aging Management Review SummaryTable 3.5.2-1Primary ContainmentSummary of Aging Management EvaluationTable 3.5.2-1: Primary ContainmentStructure and/or Component or CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG-1801 Vol. 2 ItemTable 1 Item NotesBellows (reactor vessel and drywell) PB, SSR Stainless steelProtected from weatherCracking - cyclic loadingCII-IWEContainment leak rateII.B1.1-3 (C-20)3.5.1-13CCRD removal hatchEN, FLB, MB, PB, SSR Carbon steelProtected from weatherLoss of materialCII-IWEContainment leak rateII.B4-6(C-16)3.5.1-18EDrywell headEN, FLB, MB, PB, SSRCarbon steelProtected from weatherLoss of materialCII-IWEContainment leak rateII.B1.1-2 (C-19)3.5.1-5EDrywell shellEN, FLB, MB, PB, SSRCarbon steelProtected from weatherLoss of materialCII-IWEContainment leak rateII.B1.1-2 (C-19)3.5.1-5EDrywell shell protection panels (jet deflectors)EN, MBCarbon steelProtected from weatherLoss of materialStructures monitoringIII.B5-7 (T-30)3.5.1-39C Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 447 of 488Aging Management Review SummaryDrywell sump linerSSRCarbon steelExposed to fluid environmentLoss of materialCII-IWEContainment leak rateII.B1.1-2 (C-19)3.5.1-5EDrywell to torus vent line bellows PB, SSRStainless steelProtected from weatherCracking -
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| cyclic loadingCII-IWEContainment leak rateII.B1.1-3 (C-20)3.5.1-13EDrywell to torus vent system PB, SSRCarbon steelProtected from weatherCracking -
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| FatigueTLAA-metal
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| fatigueII.B1.1-4 (C-21)3.5.1-8ADrywell to torus vent system PB, SSRCarbon steelProtected from weatherLoss of material CII-IWEContainment leak rateII.B1.1-2 (C-19)3.5.1-5EEquipment hatchEN, FLB, MB, PB, SSRCarbon steelProtected from weatherLoss of material CII-IWEContainment leak rateII.B4-6 (C-16)3.5.1-18EPersonnel airlockEN, FLB, MB, PB, SSRCarbon steelProtected from weatherLoss of material CII-IWEContainment leak rateII.B4-6 (C-16)3.5.1-18EPrimary containment electrical penetrations PB, SSR Carbon steelProtected from weatherLoss of materialCII-IWEContainment leak rateII.B4-1 (C-12)3.5.1-18ETable 3.5.2-1: Primary Containment (Continued)Structure and/or Component or CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG-1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 448 of 488Aging Management Review SummaryPrimary containment mechanical penetrations (includes those with bellows)PB, SSRCarbon steelProtected from weatherCracking -
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| cyclic loadingCII-IWEContainment leak rateII.B4-3 (C-14)3.5.1-12EReactor vessel support assemblySSRCarbon steelProtected from weatherLoss of material ISI-IWFIII.B1.1-13 (T-24)3.5.1-53EReactor vessel stabilizer supportsSSRCarbon steelProtected from weatherLoss of material ISI-IWFIII.B1.1-13 (T-24)3.5.1-53ESacrificial shield wall lateral supportsSSRCarbon steelProtected from weatherLoss of material Structures monitoringIII.B5-7 (T-30)3.5.1-39CSacrificial shield wall (steel portion)
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| EN, MB, SSRCarbon steelProtected from weatherLoss of materialStructures monitoringIII.B5-7 (T-30)3.5.1-39CStructural steel: plates, columns and beamsSSRCarbon steelProtected from weatherLoss of materialStructures monitoringIII.B5-7 (T-30)3.5.1-39CTorus electrical penetrations PB, SSRCarbon steelProtected from weatherLoss of materialCII-IWEContainment leak rateII.B4-1 (C-12)3.5.1-18ETorus external supports (columns, saddles)SSRCarbon steelProtected from weatherLoss of materialISI-IWFIII.B1.1-13 (T-24)3.5.1-53ETable 3.5.2-1: Primary Containment (Continued)Structure and/or Component or CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG-1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 449 of 488Aging Management Review SummaryTorus manwayPB, SSRCarbon steelProtected from weatherLoss of materialCII-IWEContainment leak rateII.B1.1-2 (C-19)3.5.1-5ETorus mechanical penetrations PB, SSRCarbon steelProtected from weatherLoss of materialCII-IWEContainment leak rateII.B4-1 (C-12)3.5.1-18ETorus ring girderSSRCarbon steelProtected from weatherLoss of materialCII-IWE Containment leak rateII.B1.1-2(C-19)3.5.1-5ETorus ring girderSSRCarbon steelExposed to fluid environmentLoss of materialCII-IWEContainment leak rateII.B1.1-2(C-19)3.5.1-5ETorus shellHS, PB, SSRCarbon steelProtected from weatherCracking - FatigueTLAA-metal
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| fatigueII.B1.1-4 (C-21)3.5.1-8ETorus shellHS, PB, SSRCarbon steelProtected from weatherLoss of materialCII-IWEContainment leak rateII.B1.1-2 (C-19)3.5.1-5ETorus shellHS, PB, SSRCarbon steelExposed to fluid environmentLoss of materialCII-IWEContainment leak rateII.B1.1-2 (C-19)3.5.1-5ETorus thermowellPB, SSRCarbon steelProtected from weatherLoss of materialCII-IWEContainment leak rateII.B1.1-2 (C-19)3.5.1-5ETable 3.5.2-1: Primary Containment (Continued)Structure and/or Component or CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG-1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 450 of 488Aging Management Review SummaryVent header supportSSRCarbon steelExposed to fluid environmentLoss of materialISI-IWFIII.B1.1-13 (T-24)3.5.1-53EDrywell sumpFLB, SSRConcreteProtected from weatherNoneStructures monitoring I, 501Equipment hatch concrete plug EN, MB, SSRConcreteProtected from weatherNoneStructures monitoring I, 501Floor slabs, wallsEN, FLB, MB, SSRConcreteProtected from weatherNoneStructures monitoring I, 501FoundationEN, FLB, MB, PB, SSRConcreteProtected from weatherNoneStructures monitoring I, 501Reactor vessel support pedestalSSRConcreteProtected from weatherNoneStructures monitoring I, 501Sacrificial shield wall (concrete portion)
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| EN, MB, SSRConcreteProtected from weatherNoneStructures monitoring I, 501Drywell floor liner sealEN, SSRElastomerProtected from weatherCrackingChange in material propertiesStructures monitoringII.B4-7 (C-18)3.5.1-16EPrimary containment electrical penetration seals and sealantPB, SSRElastomerProtected from weatherCrackingChange in material propertiesContainment leak rateII.B4-7 (C-18)3.5.1-16ETable 3.5.2-1: Primary Containment (Continued)Structure and/or Component or CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG-1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 451 of 488Aging Management Review Summary Lubrite sliding supportsSSRLubriteProtected from weatherNoneISI-IWF Structures monitoring I, 501Table 3.5.2-1: Primary Containment (Continued)Structure and/or Component or CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG-1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 452 of 488Aging Management Review SummaryTable 3.5.2-2Reactor BuildingSummary of Aging Management EvaluationTable 3.5.2-2: Reactor BuildingStructure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG-1801 Vol. 2 ItemTable 1 Item NotesBlowout or blow-off panels EN, PB, SSRCarbon steelProtected from weatherLoss of material Structures MonitoringIII.A1-12 (T-11)3.5.1-25CBlowout or blow-off panels EN, PB, SSRCarbon steelExposed to weatherLoss of material Structures MonitoringIII.A1-12 (T-11)3.5.1-25CEquipment lock (sliding doors)
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| EN, MB, PB, SSRCarbon steelProtected from weatherLoss of material Structures Monitoring Periodic surveillance and preventive maintenanceIII.A1-12 (T-11)3.5.1-25CMetal partition wallsEN, FBCarbon steelProtected from weatherLoss of material Structures monitoringFire protectionIII.A1-12(T-11)3.5.1-25CMetal sidingEN, FB, PBAluminumExposed to weatherNoneNoneFNew fuel storage
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| racksEN, SSRAluminumProtected from weatherNoneNoneIII.B5-2(TP-8)3.5.1-58CRCIC steel enclosureEN, FB, SNSCarbon steelProtected from weatherLoss of materialStructures monitoringFire protectionIII.A1-12(T-11)3.5.1-25C Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 453 of 488Aging Management Review SummaryReactor building crane, rails, and girders SNSCarbon steelProtected from weatherLoss of material Periodic surveillance and preventive maintenanceVII.B-3 (A-07)3.3.1-73ERefueling platformSNSCarbon steelProtected from weatherLoss of material Periodic surveillance and preventive maintenanceVII.B-3 (A-07)3.3.1-73 ESpent fuel pool liner plate and gatesEN, SSRStainless steelExposed to fluid environmentLoss of material Water chemistry control-BWRSpent fuel pool level monitoring per Tech Spec and monitoring leak chase from the channel leakageIII.A5-13 (T-14)3.5.1-46CSpent fuel pool storage racksSSRStainless steelExposed to fluid environmentLoss of material Water chemistry control-BWR HStructural steel:
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| beams, columns, plates, trusses EN, MB, SNS, SSRCarbon steelProtected from weatherLoss of material Structures monitoringIII.A1-12 (T-11)3.5.1-25CBeams, columns, floor slabs, and interior walls EN, FB, FLB, MB, SNS, SSRConcreteProtected from weatherNoneStructures monitoringFire protection I, 501Table 3.5.2-2: Reactor Building (Continued)Structure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG-1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 454 of 488Aging Management Review SummaryBiological shield wall EN, MB, SSRConcreteProtected from weatherNoneStructures monitoring I, 501Exterior walls below elev 254'FLB, PB, SSRConcreteExposed to weatherNoneStructures monitoring I, 501Exterior walls above elev 254'FB, MB, PB, SSRConcreteExposed to weatherNoneStructures monitoringFire protection I, 501FoundationFLB, PB, SSRConcreteExposed to weatherNoneStructures monitoring I, 501Masonry walls EN, FB, MB, SNS, SSR Concrete blockProtected from weatherCracking Masonry wall Fire protectionIII.A1-11 (T-12)3.5.1-43ANew fuel storage vaultEN, MB, SSRConcreteExposed to weatherNoneStructures monitoring I, 501Spent fuel pool bottom slab and walls EN, MB, SNS, SSRConcreteProtected from weatherNoneStructures monitoring I, 501SumpSSRConcreteExposed to fluid environmentNoneStructures monitoring I, 501Table 3.5.2-2: Reactor Building (Continued)Structure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG-1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 455 of 488Aging Management Review SummaryTable 3.5.2-3Intake StructureSummary of Aging Management EvaluationTable 3.5.2-3: Intake StructureStructure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG-1801 Vol. 2 ItemTable 1 Item NotesMetal sidingSREAluminumExposed to weatherNoneNoneFStructural steel: beams, columns, plates EN, SNS, SSRCarbon steelProtected from weatherLoss of material Structures monitoringIII.A6-11 (T-21)3.5.1-47EStructural steel:
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| beams, columns, plates EN, SNS, SSRCarbon steelExposed to fluid environmentLoss of material Structures monitoringIII.A6-11 (T-21)3.5.1-47EStructural steel:
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| beams, columns, plates EN, SNS, SSRGalvanized
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| steelExposed to fluid environmentLoss of material Structures monitoringIII.A6-11 (T-21)3.5.1-47EStructural steel:
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| beams, columns, plates EN, SNS, SSRStainless steelExposed to fluid environmentLoss of material Structures monitoringIII.A6-11 (T-21)3.5.1-47EBeams, columns, floor slabs, interior walls EN, FB, FLB, SNS, SSRConcreteProtected from weatherNoneStructures monitoringFire protection I, 501Exterior walls below grade (SW area)SSRConcreteExposed to fluid environmentLoss of material Structures monitoringIII.A6-7 (T-20)3.5.1-45EExterior walls below grade (CWS area)FLB, SNSConcreteExposed to fluid environmentLoss of material Structures monitoringIII.A6-7 (T-20)3.5.1-45E Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 456 of 488Aging Management Review SummaryExterior walls above grade (CWS area)SNSConcreteExposed to weatherNoneStructures monitoring I, 501Exterior walls above grade (SW area)FB, FLB, MB, SSRConcreteExposed to weatherNoneStructures monitoringFire protection I, 501FoundationEN, SNS, SSRConcreteExposed to fluid environmentLoss of material Structures monitoringIII.A6-7(T-20)3.5.1-45EInterior walls below gradeFLB, SSRConcreteExposed to fluid environmentLoss of material Structures monitoringIII.A6-7 (T-20)3.5.1-45EMasonry walls EN, FB, SRE Concrete blockProtected from weatherCracking Masonry wallFire protectionIII.A6-10 (T-12)3.5.1-43ARoof slabFB, MB, SNS,SRE, SSRConcreteProtected from weatherNoneStructures monitoringFire protection I, 501Table 3.5.2-3: Intake Structure (Continued)Structure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG-1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 457 of 488Aging Management Review SummaryTable 3.5.2-4Process FacilitiesSummary of Aging Management EvaluationTable 3.5.2-4: Process FacilitiesStructure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG 1801 Vol. 2 ItemTable 1 Item NotesBlowout or blow-off panels EN, PB, SNS, SSRAluminumProtected from weatherNoneNoneIII.B5-2(TP-8)3.5.1-58CBlowout or blow-off panels EN, PB, SNS, SSRAluminumExposed to weatherNoneNoneI, 503Blowout or blow-off panels EN, PB, SNS, SSRCarbon steelProtected from weatherLoss of material Structures monitoringIII.A3-12 (T-11)3.5.1-25CControl room ceiling support systemSNSCarbon steelProtected from weatherLoss of materialStructures monitoringIII.A3-12 (T-11)3.5.1-25CCrane rails and girders SNSCarbon steelProtected from weatherLoss of material Structures monitoring VII.B-3 (A-07)3.3.1-73EMetal partition wallsEN, SNS, SSRCarbon steelProtected from weatherLoss of materialStructures monitoringIII.A3-12 (T-11)3.5.1-25CMetal sidingEN, PBAluminumExposed to weatherNoneNoneFSteel pilesSNSCarbon steelExposed to weatherNoneNoneI, 504Structural steel:
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| beams, columns, plates EN, SNS, SSRCarbon steelExposed to fluid environmentLoss of material Structures monitoringIII.A6-11 (T-21)3.5.1-47E Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 458 of 488Aging Management Review SummaryStructural steel: beams, columns, plates EN, SNS, SSRCarbon steelProtected from weatherLoss of material Structures monitoringIII.A1-12III.A3-12(T-11)3.5.1-25AStructural steel:
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| beams, columns, plates EN, SNS, SSRCarbon steelExposed to weatherLoss of material Structures monitoringIII.A1-12III.A3-12(T-11)3.5.1-25CTurbine north shield wall MBCarbon steelProtected from weatherLoss of material Structures monitoringIII.A3-12 (T-11)3.5.1-25CBeams, columns, floor slab, interior walls EN, FB, FLB MB, PB, SNS, SSRConcreteProtected from weatherNoneStructures monitoringFire protection I, 501Exterior walls above grade HS, SNSConcreteExposed to fluid environmentLoss of material Structures monitoringIII.A6-7 (T-20)3.5.1-45EExterior walls above grade FLB, MB, SNS, SSRConcreteExposed to weatherNoneStructures monitoring I, 501Exterior walls below grade HS, SNS, SSRConcreteExposed to fluid environmentLoss of material Structures monitoringIII.A6-7 (T-20)3.5.1-45EFoundation (cooling tower)EN, HS, SNSConcreteExposed to fluid environmentLoss of material Structures monitoringIII.A6-7 (T-20)3.5.1-45EFoundationsFLB, SNS, SSRConcreteExposed to weatherNoneStructures monitoring I, 501Table 3.5.2-4: Process Facilities (Continued)Structure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG 1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 459 of 488Aging Management Review SummaryMasonry wall EN, FB, FLB, MB, SRE Concrete blockProtected from weatherCracking Masonry wallFire protectionIII.A1-11III.A3-11 (T-12)3.5.1-43APlant stackEN, SNS, SSRConcreteProtected from weatherNoneStructures monitoring I, 501Plant stackEN, SNS, SSRConcreteExposed to weatherNoneStructures monitoring I, 501Roof slabEN, FB, MB, PB, SNS, SRE, SSRConcreteExposed to weatherNoneStructures monitoring Fire protection I, 501Turbine west shield wall ENConcrete Protected from weatherNoneStructures monitoring I, 501Cooling cell No. 2-1HS, SNSWoodExposed to fluid environmentLoss of material Cracking and change in material propertiesStructures monitoring JCooling cell No. 2-1HS, SNSWoodExposed to weatherLoss of materialCracking and change in material propertiesStructures monitoring JTable 3.5.2-4: Process Facilities (Continued)Structure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG 1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 460 of 488Aging Management Review SummaryCooling cell No. 2-2SNSWoodExposed to fluid environmentLoss of materialCracking and change in material propertiesStructures monitoring JCooling cell No. 2-2SNS WoodExposed to weatherLoss of materialCracking and change in material propertiesStructures monitoring JCooling tower fillHSPVCExposed to fluid environmentCrackingChange in material propertiesStructures monitorng JPipe supports SNSWoodExposed to fluid environmentLoss of materialCracking and change in material propertiesStructures monitoring JPipe supports SNS WoodExposed to weatherLoss of materialCracking and change in material propertiesStructures monitoring JTable 3.5.2-4: Process Facilities (Continued)Structure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG 1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 461 of 488Aging Management Review SummaryTable 3.5.2-5Yard StructuresSummary of Aging Management EvaluationTable 3.5.2-5: Yard StructuresStructure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG 1801 Vol. 2 ItemTable 1 Item NotesCST enclosureENCarbon steelProtected from weatherLoss of material Structures monitoringIII.A3-12 (T-11)3.5.1-25C CO 2 tank enclosureSRECarbon steelProtected from weatherLoss of material Structures monitoringIII.A3-12 (T-11)3.5.1-25CFuel oil transfer pump house structural steel EN, MB, SSRCarbon steelProtected from weatherLoss of material Structures monitoringIII.A3-12 (T-11)3.5.1-25CJohn Deere diesel
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| buildingSRECarbon steelProtected from weatherLoss of material Structures monitoringIII.A3-12 (T-11)3.5.1-25C N 2 tank steel supportsSNSCarbon steelExposed to weatherLoss of material Structures monitoringIII.A3-12 (T-11)3.5.1-25C N 2 tank steel supportsSNSStainless steelExposed to weatherNoneNoneI, 503 N 2 tank enclosureSNSCarbon steelProtected from weatherLoss of material Structures monitoringIII.A3-12 (T-11)3.5.1-25CSwitchyard relay houseSRECarbon steelProtected from weatherLoss of material Structures monitoringIII.A3-12 (T-11)3.5.1-25CTransmission towersSREGalvanized steelExposed to weatherNoneNoneI, 503Vernon Dam structural steelSRECarbon steelExposed to weatherLoss of material Vernon Dam FERC inspectionIII.A6-11 (T-21)3.5.1-47E Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 462 of 488Aging Management Review SummaryVernon Dam structural steelSRECarbon steelProtected from weatherLoss of material Vernon Dam FERC inspectionIII.A6-11 (T-21)3.5.1-47EVernon Dam structural steelSRECarbon steelExposed to fluid environmentLoss of material Vernon Dam FERC inspectionIII.A6-11 (T-21)3.5.1-47ECST enclosure wallEN, MB, SNSConcreteExposed to weatherNoneStructures monitoring I, 501Duct banksENConcreteExposed to weather NoneStructures monitoring I, 501Foundation (tanks, startup transformer, switchyard relay house, transmission towers, Vernon-tie transformer, John Deere diesel building)
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| SNS, SRE, SSRConcreteExposed to weatherNoneStructures monitoring I, 501Fuel oil tank exterior walls above gradeMB, SSRConcreteExposed to weatherNoneStructures monitoring I, 501Fuel oil tank exterior walls below gradeMB, SSRConcreteExposed to weatherNoneStructures monitoring I, 501Fuel oil transfer pump house exterior wallFLB, MB, SSRConcreteExposed to weather NoneStructures monitoring I, 501Fuel oil tranfer pump house roof slabMB, SSRConcreteExposed to weatherNoneStructures monitoring I, 501Table 3.5.2-5: Yard Structures (Continued)Structure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG 1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 463 of 488Aging Management Review SummaryManholes and handholesENConcreteExposed to weatherNonePeriodic surveillance and preventive maintenance I, 501 N 2 tank restraining wall SNSConcreteExposed to weatherNoneStructures monitoring I, 501TrenchesEN, FLB, MB, SSRConcreteExposed to weatherNoneStructuers monitoring I, 501Vernon Dam external walls above/below gradeSREConcreteExposed to fluid environmentLoss of material Vernon dam FERC inspectionIII.A6-7 (T-20)3.5.1-45EVernon Dam external walls, floor slabs and
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| interior wallsSREConcreteProtected from weatherNoneVernon dam FERC inspection I, 501Vernon Dam masonry wallsSREConcrete brickExposed to weatherCracking Vernon dam FERC inspectionIII.A6-10 (T-12)3.5.1-43ETable 3.5.2-5: Yard Structures (Continued)Structure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG 1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 464 of 488Aging Management Review SummaryTable 3.5.2-6Bulk CommoditiesSummary of Aging Management EvaluationTable 3.5.2-6: Bulk CommoditiesStructure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG 1801 Vol. 2 ItemTable 1 Item NotesAnchorage / embedments SNS, SRE, SSRCarbon steelProtected from weatherLoss of material Structures monitoringIII.B2-10 III.B3-7 III.B4-10III.B5-7(T-30)3.5.1-39AISI-IWFIII.B1.1-13 III.B1.2-10 III.B1.3-10 (T-24)3.5.1-53EAnchorage /
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| embedments SNS, SRE, SSRCarbon steelExposed to weatherLoss of material Structures monitoringIII.B2-10 III.B3-7 III.B4-10 III.B5-7 (T-30)3.5.1-39AISI-IWFIII.B1.1-13 III.B1.2-10 III.B1.3-10 (T-24)3.5.1-53EAnchorage /
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| embedments SNS, SRE, SSRCarbon steelExposed to fluid environmentLoss of material Structures monitoringIII.A6-11(T-21)3.5.1-47E Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 465 of 488Aging Management Review SummaryAnchorage / embedments SNS, SRE, SSRCarbon steelExposed to fluid environmentLoss of material Water chemistry control - BWRISI-IWFIII.B1.1-11 (TP-10)3.5.1-49EAnchorage / embedments SNS, SRE, SSRStainless steelExposed to fluid environmentLoss of material Water chemistry control - BWRISI-IWFIII.B1.1-11 (TP-10)3.5.1-49EBase platesSNS, SRE, SSRCarbon steelProtected from weatherLoss of materialStructures monitoringIII.B2-10 III.B3-7 III.B4-10III.B5-7(T-30)3.5.1-39AISI-IWFIII.B1.1-13 III.B1.2-10 III.B1.3-10 (T-24)3.5.1-53EBase platesSNS, SRE, SSRCarbon steelExposed to weatherLoss of material Structures monitoringIII.B2-10 III.B3-7 III.B4-10 III.B5-7 (T-30)3.5.1-39AISI-IWFIII.B1.1-13 III.B1.2-10 III.B1.3-10 (T-24)3.5.1-53ETable 3.5.2-6: Bulk Commodities (Continued)Structure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG 1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 466 of 488Aging Management Review SummaryBattery racksSSRCarbon steelProtected from weatherLoss of material Structures monitoringIII.B3-7(T-30)3.5.1-39CCable tray SNS, SRE, SSRCarbon steelProtected from weatherLoss of material Structures monitoringIII.B2-10 (T-30)3.5.1-39CCable tray SNS, SRE, SSRGalvanized steelProtected from weatherNoneNoneIII.B2-5(TP-11)3.5.1-58ACable tray support SNS, SRE, SSRCarbon steelProtected from weatherLoss of material Structures monitoringIII.B2-10(T-30)3.5.1-39ACable tray supportSNS, SRE, SSRGalvanized steelProtected from weatherNoneNoneIII.B2-5(TP-11)3.5.1-58AComponent and piping supports ASME Class 1, 2, 3 and MC SNS, SRE, SSRCarbon steelProtected from weatherLoss of material ISI-IWFIII.B1.1-13III.B1.2-10III.B1.3-10 (T-24)3.5.1-53EComponent and piping supports ASME Class 1, 2, 3 and MC SNS, SRE, SSRCarbon steelExposed to weatherLoss of materialISI-IWFIII.B1.1-13III.B1.2-10III.B1.3-10 (T-24)3.5.1-53ETable 3.5.2-6: Bulk Commodities (Continued)Structure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG 1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 467 of 488Aging Management Review SummaryComponent and piping supports SNS, SRE, SSRCarbon steelExposed to weatherLoss of material Structures monitoringIII.B2-10 III.B3-7 III.B4-10 III.B5-7(T-30)3.5.1-39AComponent and piping supports SNS, SRE, SSRCarbon steelProtected from weatherLoss of material Structures monitoringIII.B2-10 III.B3-7 III.B4-10 III.B5-7(T-30)3.5.1-39AConduitSNS, SRE, SSRGalvanized
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| steelProtected from weatherNoneNoneIII.B2-5(TP-11)3.5.1-58AConduitSNS, SRE, SSRGalvanized
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| steelExposed to weatherNoneNoneI, 503Conduit supportSNS, SRE, SSRCarbon steelProtected from weatherLoss of material Structures monitoringIII.B2-10(T-30)3.5.1-39AConduit supportSNS, SRE, SSRCarbon steelExposed to weatherLoss of material Structures monitoringIII.B2-10 (T-30)3.5.1-39AConduit supportSNS, SRE, SSRGalvanized steelProtected from weatherNoneNoneIII.B2-5(TP-11)3.5.1-58AConduit supportSNS, SRE, SSRGalvanized
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| steelExposed to weatherNoneNoneI, 503Table 3.5.2-6: Bulk Commodities (Continued)Structure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG 1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 468 of 488Aging Management Review SummaryDamper framingFBCarbon steelProtected from weatherLoss of material Fire ProtectionIII.B2-10(T-30)3.5.1-39EElectrical and instrument panels and enclosures EN, SNS, SRE, SSRCarbon steelProtected from weatherLoss of material Structures monitoringIII.B3-7(T-30)3.5.1-39CElectrical and instrument panels and enclosures EN, SNS, SRE, SSRCarbon steelExposed to weatherLoss of materialStructures monitoringIII.B3-7 (T-30)3.5.1-39CElectrical and instrument panels and enclosures EN, SNS, SRE, SSRGalvanized
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| steelProtected from weatherNoneNoneIII.B3-3(TP-11)3.5.1-58AElectrical and instrument panels and enclosures EN, SNS, SRE, SSRGalvanized
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| steelExposed to weatherNoneNoneI, 503Fire doorsFBCarbon steelProtected from weatherLoss of material Fire protectionVII.G-3(A-21)3.3.1-63CFire hose reelsSRECarbon steelProtected from weatherLoss of material Fire protectionIII.B2-10(T-30)3.5.1-39EFlood curbEN, FLBCarbon steelProtected from weatherLoss of material Structures monitoringIII.A1-12 III.A2-12 III.A3-12 (T-11)3.5.1-25CFlood curbEN, FLBGalvanized steelProtected from weatherNoneNoneIII.B5-3(TP-11)3.5.1-58ATable 3.5.2-6: Bulk Commodities (Continued)Structure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG 1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 469 of 488Aging Management Review SummaryFlood, pressure and specialty doors EN, FLB, MB, PBCarbon steelProtected from weatherLoss of material Structures monitoringIII.A1-12III.A2-12 III.A3-12 (T-11)3.5.1-25CFlood, pressure and specialty doors EN, FLB, MB, PBCarbon steelExposed to weatherLoss of materialStructures monitoringIII.A1-12III.A2-12 III.A3-12 (T-11)3.5.1-25CHVAC duct supportsSNS, SSRCarbon steelProtected from weatherLoss of material Structures monitoringIII.B2-10 (T-30)3.5.1-39AHVAC duct supportsSNS, SSRGalvanized steelProtected from weatherNoneNoneIII.B2-5(TP-11)3.5.1-58AInstrument line supports SNS, SRE, SSRCarbon steelProtected from weatherLoss of material Structures monitoringIII.B2-10(T-30)3.5.1-39AInstrument line support SNS, SRE, SSRGalvanized
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| steelProtected from weatherNoneNoneIII.B2-5(TP-11)3.5.1-58AInstrument racks, frames, and tubing trays SNS, SRE, SSRCarbon steelProtected from weatherLoss of material Structures monitoringIII.B3-7(T-30)3.5.1-39AInstrument racks, frames, and tubing trays SNS, SRE, SSRGalvanized
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| steelProtected from weatherNoneNoneIII.B2-5(TP-11)3.5.1-58ATable 3.5.2-6: Bulk Commodities (Continued)Structure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG 1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 470 of 488Aging Management Review SummaryManway hatches and hatch covers EN, FLB, MB, PB, SNS, SRE, SSRCarbon steelProtected from weatherLoss of material Structures monitoringIII.A1-12 III.A2-12 III.A3-12 (T-11)3.5.1-25CIII.A6-11(T-21)3.5.1-47EManway hatches and hatch covers EN, FLB, MB, PB, SNS, SRE, SSRCarbon steelExposed to weatherLoss of material Structures monitoringIII.A1-12 III.A2-12 III.A3-12 (T-11)3.5.1-25CIII.A6-11(T-21)3.5.1-47EMirror insulationINS, SNSStainless steelProtected from weatherNoneNoneIII.B1.3-7(TP-5)3.5.1-59C, 502Missile shieldsEN, MBCarbon steelProtected from weatherLoss of material Structures monitoringIII.B5-7 (T-30)3.5.1-39AMonorailsSNSCarbon steelProtected from weatherLoss of material Structures monitoring VII.B-3 (A-07)3.3.1-73EPenetration sleeves (mechanical/electrical not penetrating primary containment boundary)FLB, SNS, SSRCarbon steelProtected from weatherLoss of material Structures monitoringIII.B2-10(T-30)3.5.1-39CTable 3.5.2-6: Bulk Commodities (Continued)Structure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG 1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 471 of 488Aging Management Review SummaryPipe whip restraintsEN, SNS, SSR Carbon steelProtected from weatherLoss of material Structures monitoringIII.B5-7(T-30)3.5.1-39AStairway, handrail, platform, decking, and ladder (including torus catwalk)SNSCarbon steelProtected from weatherLoss of material Structures monitoringIII.B5-7(T-30)3.5.1-39AStairway, handrail, platform, decking, and ladder (including torus catwalk)SNSGalvanized steelProtected from weatherNoneNoneIII.B5-3(TP-11)3.5.1-58AVents and louversSNS, SRE, SSRAluminumExposed to weatherNoneNoneI, 503Vents and louversSNS, SRE, SSRCarbon steelProtected from weatherLoss of material Structures monitoringIII.A1-12III.A3-12 (T-11)3.5.1-25CVents and louversSNS, SRE, SSRCarbon steelExposed to weatherLoss of material Structures monitoringIII.A1-12 III.A3-12 (T-11)3.5.1-25CAnchor boltsSNS, SRE, SSRCarbon steel (threaded fasteners) Protected from weatherLoss of material ISI-IWFIII.B1.1-13III.B1.2-10III.B1.3-10 (T-24)3.5.1-53ETable 3.5.2-6: Bulk Commodities (Continued)Structure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG 1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 472 of 488Aging Management Review SummaryAnchor boltsSNS, SRE, SSRCarbon steel (threaded fasteners) Protected from weatherLoss of material Structures monitoringIII.B2-10III.B3-7III.B4-10 III.B5-7(T-30)3.5.1-39AAnchor boltsSNS, SRE, SSRCarbon steel (threaded fasteners) Exposed to weatherLoss of materialISI-IWFIII.B1.1-13III.B1.2-10 III.B1.3-10 (T-24)3.5.1-53EAnchor boltsSNS, SRE, SSRCarbon steel (threaded fasteners) Exposed to weatherLoss of materialStructures monitoringIII.B2-10 III.B3-7 III.B4-10 III.B5-7 (T-30)3.5.1-39AAnchor boltsSNS, SRE, SSRStainless steel (threaded fasteners)Exposed to weatherNoneNoneI, 503ASME Class 1, 2, 3 and MC Supports
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| boltingSNS, SRE, SSRCarbon steel (threaded fasteners) Protected from weatherLoss of materialISI-IWFIII.B1.1-13III.B1.2-10 III.B1.3-10 (T-24)3.5.1-53ETable 3.5.2-6: Bulk Commodities (Continued)Structure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG 1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 473 of 488Aging Management Review SummaryASME Class 1, 2, 3 and MC Supports
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| boltingSNS, SRE, SSRCarbon steel (threaded fasteners) Exposed to weatherLoss of materialISI-IWFIII.B1.1-13III.B1.2-10 III.B1.3-10 (T-24)3.5.1-53EStructural boltingSNS, SRE, SSRCarbon steel (threaded fasteners) Protected from weatherLoss of material Structures monitoringIII.B2-10 III.B3-7 III.B4-10 III.B5-7 (T-30)3.5.1-39AStructural boltingSNS, SRE, SSRCarbon steel (threaded fasteners)Exposed to weatherLoss of material Structures monitoringIII.B2-10 III.B3-7 III.B4-10 III.B5-7 (T-30)3.5.1-39AStructural boltingSNS, SRE, SSRCarbon steel (threaded fasteners)Exposed to fluid environmentLoss of material Structures monitoringIII.A6-11(T-21)3.5.1-47EStructural boltingSNS, SRE, SSRStainless steel (threaded fasteners)Protected from weatherNoneNoneIII.B2-8III.B3-5 III.B4-8 III.B5-5 (TP-5)3.5.1-59ATable 3.5.2-6: Bulk Commodities (Continued)Structure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG 1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 474 of 488Aging Management Review SummaryStructural boltingSNS, SRE, SSRStainless steel (threaded fasteners)Exposed to weatherNoneNoneI, 503Structural boltingSNS, SRE, SSRGalvanized steelProtected from weatherNoneNoneIII.B5-3(TP-11)3.5.1-58AStructural boltingSNS, SRE, SSRGalvanized steelExposed to weatherNoneNoneI, 503Equipment pads/foundationsSNS, SRE, SSRConcreteProtected from weatherNoneStructures monitoring I, 501Equipment pads/foundationsSNS, SRE, SSRConcreteExposed to weatherNoneStructures monitoring I, 501Fire proofing FBPyrocreteProtected from weatherNoneStructures monitoringFire protection I, 501Flood curbsFLBConcreteProtected from weatherNoneStructures monitoring I, 501Manway hatches and hatch covers EN, FB, FLB, MB, PB, SNS, SRE, SSRConcreteProtected from weatherNoneStructures monitoringFire protection I, 501Missile shieldsMBConcreteProtected from weatherNoneStructures monitoring I, 501Table 3.5.2-6: Bulk Commodities (Continued)Structure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG 1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 475 of 488Aging Management Review SummarySupport pedestals SNS, SRE, SSRConcreteProtected from weatherNoneStructures monitoring I, 501Support pedestals SNS, SRE, SSRConcreteExposed to weatherNoneStructures monitoring I, 501Support pedestals SNS, SRE, SSRConcreteExposed to fluid environmentLoss of materialStructures monitoringIII.A6-7(T-20)3.5.1-45EFire stopsFB, PBCera blanketProtected from weatherCracking/delaminationSeparationFire protectionJFire wrapFBCerafiber, cera blanketProtected from weatherLoss of materialFire protectionJInsulationINS, SNSFiberglass/calcium silicate StratafabProtected from weatherNoneNoneJ, 502Penetration sealant (fire, flood, radiation)
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| EN, FB, FLB, PB, SNSElastomerProtected from weatherCrackingChange in material propertiesFire protectionStructures monitoringVII.G-1(A-19)3.3.1-61CTable 3.5.2-6: Bulk Commodities (Continued)Structure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG 1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 476 of 488Aging Management Review SummarySeals and gaskets (doors, manways and
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| hatches)PB, SSRRubberProtected from weatherCrackingChange in material properties Periodic surveillance and preventive maintenanceII.B4-7(C-18)3.5.1-16EStructures monitoringIII.A6-12(TP-7)3.5.1-44Seismic isolation jointFB, SSRElastomersProtected from weatherCrackingChange in material propertiesFire protectionVII.G-1(A-19)3.3.1-61CWater stopsFLBPVCProtected from weatherNoneNoneJTable 3.5.2-6: Bulk Commodities (Continued)Structure and/or Component/CommodityIntended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramNUREG 1801 Vol. 2 ItemTable 1 Item Notes Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 477 of 488Aging Management Review Summary3.6ELECTRICAL AND INSTRUMENTATION AND CONTROLS3.6.1IntroductionThis section provides the results of the aging management review for electrical components which are subject to aging management review. Consistent with the methods described in NEI 95-10, the electrical and I&C aging management reviews focus on commodity groups rather than systems. The following electrical commodity groups requiring aging management review are addressed in this section.
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| *insulated cables and connections
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| *phase bus*switchyard bus
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| *high voltage insulatorsTable3.6.1, Summary of Aging Management Programs for Electrical Components Evaluated in Chapter VI of NUREG-1801, provides the summary of the programs evaluated in NUREG-1801 for the electrical and I&C components. This table uses the format described in the introduction to Section 3. Hyperlinks are provided to the program evaluations in Appendix B.3.6.2ResultsTable3.6.2-1, Electrical and I&C Components - Summary of Aging Management Evaluation, summarizes the results of aging management reviews and the NUREG-1801 comparison for electrical and I&C components.3.6.2.1Materials, Environment, Aging Effects Requiring Management, and Aging Management ProgramsThe following sections list the materials, environments, aging effects requiring management, and aging management programs for electrical and I&C components subject to aging management review. Programs are described in Appendix B. Further details are provided in the system tables.Materials Electrical and I&C components subject to aging management review are constructed of the following materials.
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| *aluminum*copper and copper alloys
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| *galvanized metal
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| *organic polymers
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| *steel and steel alloysEnvironmentElectrical and I&C components subject to aging management review are exposed to the following environments.
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| *heat and air
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| *radiation and air Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 478 of 488Aging Management Review Summary
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| *moisture and voltage stress
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| *outdoor weatherAging Effects Requiring ManagementThe following aging effects associated with electrical and I&C components require management.
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| *reduced insulation resistance (IR)Loss of circuit continuity is listed in NUREG-1801 as an aging effect resulting from corrosion of connector contact surfaces.Aging Management ProgramsThe following programs will manage the effects of aging on electrical and I&C components:
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| *non-EQ insulated cables and connections
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| *non-EQ instrumentation circuit cables
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| *non-EQ inaccessible medium-voltage cables3.6.2.2Further Evaluation of Agi ng Management as Recommended by NUREG-1801NUREG-1801 indicates that further evaluation is necessary for certain aging effects and other issues. Section 3.6.2.2 of NUREG-1800 discusses these aging effects th at require further evaluation. The following sections, numbered corresponding to the discussions in NUREG-1800, explain the VYNPS approach to these areas requiring further evaluation. Programs are described in Appendix B of this application.3.6.2.2.1Electrical Equipment Subject to Environmental QualificationEnvironmental qualification is a TLAA as defined in 10CFR54.3. TLAAs are evaluated in accordance with 10CFR54.21(c). The evaluation of this TLAA is addressed in Section 4.4.3.6.2.2.2Degradation of Insulator Quality due to Presence of Any Salt Deposits and Surface Contamination, and Loss of Material due to Mechanical WearThe discussion in NUREG-1800 concerns effects of these aging mechanisms on high voltage insulators.A high voltage insulator consists of insulating material to support a high voltage conductor and separate the conductor from other conductors and objects. Ceramic and glass porcelain insulators with galvanized hardware are the most common. The insulators evaluated for VYNPS license renewal are those used to support uninsulated, high-voltage electrical components such as transmission conductors and switchyard buses.Various airborne materials such as dust, salt and industrial effluents can contaminate insulator surfaces. The buildup of surface contamination is gradual and in most areas Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 479 of 488Aging Management Review Summarywashed away by rain while, the glazed insulator surface aids this contamination removal. A large buildup of contamination enables the conductor voltage to track along the surface more easily and can lead to insulator flashover. Surface contamination can be a problem in areas where there are greater concentrations of airborne particles, such as near facilities that discharge soot or near the seacoast where salt spray is prevalent. VYNPS is not located near the seacoast where salt spray is considered. At VYNPS contamination build-up on insulators is not a concern.
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| Therefore, surface contamination is not an applicable aging mechanism for high-voltage insulators at VYNPS.Porcelain is essentially a hardened, opaque glass. As with any glass, if subjected to enough force it will crack or break. The most common cause for cracking or breaking of an insulator is being struck by an object (e.g., a rock or bullet), but cracking and breaking caused by physical damage is not an aging effect and is not subject to AMR. Cracks have occurred with insulators when the cement that binds the parts together expands enough to crack the porcelain. An improper manufacturing process, which makes the cement more susceptible to moisture penetration, causes cement growth. Porcelain cracking caused by cement growth has occurred only in isolated batches of insulators used in strain applications. Utilities replace high voltage insulators in a timely manner, and by tracking dates of manufacturing and manufacturer brands, problem insulators are replaced prior to failure.Cement growth is only an applicable aging mechanism for specific insulators used in strain applications. No such insulators are included in the AMR. Therefore, cracking due to cement growth is not an applicable aging effect for the insulators.Mechanical wear is an aging effect for strain and suspension insulators in that they are subject to movement. Wear has not been apparent during routine inspections. Flashovers from lightning strikes can burn off galvanizing allowing rust to form. If left unmanaged for the period of extended operation surface rust would not cause a loss of intended function and thus is not a significant concern. Loss of material due to wear will not cause a loss of intended function of the insulators. Therefore, loss of material is not an applicable aging effect for insulators.There are no aging effects requiring management for VYNPS high-voltage insulators.3.6.2.2.3Loss of Material due to Wind Induced Abrasion and Fatigue, Loss of Conductor Strength due to Corrosion, and Increased Resistance of Connection due to Oxidation or Loss of Pre-loadTransmission conductors are uninsulated, stranded electrical cables used outside buildings in high voltage applications. The transmission conductor commodity group includes the associated fastening hardware, but excludes the high-voltage insulators.
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| Major active equipment assemblies include their associated transmission conductor terminations. Transmission conductors are subject to aging management review if they are necessary for recovery of offsite power following an SBO. At VYNPS, transmission conductors located between switchyard breakers K-1/K-186 and startup transformers Vermont Yankee License Renewal ProjectLRPD-06 Revision 0Page 480 of 488Aging Management Review SummaryT-3-1A/T-3-1B support recovery from an SBO event. Other transmission conductors are not subject to aging management review since they do not perform a license renewal intended function.Switchyard bus is uninsulated, un-enclosed, rigid electrical conductors used in medium and high voltage applications. Switchyard bus includes the hardware used to secure the bus to high-voltage insulators. VYNPS switchyard bus establishes electrical connections to disconnect switches, switchyard breakers, and transformers. Switchyard bus located at the disconnect switches at the Vernon Hydroelectric Station switchyard are necessary for connecting the alternate AC power source from the Vernon dam to essential station switchgear are subject to aging management review. Also, switchyard bus located at the switchyard breakers K-1/K-186 and at startup transformers T-3-1A/T-3-1B that support recovery from an SBO event are subject to aging management review. Other switchyard bus does not require aging management review since they do not perform a license renewal intended function.Connection surface oxidation for aluminum switchyard bus is not applicable since switchyard bus connections requiring AMR are welded connections. For ambient environmental conditions at VYNPS, no aging effects have been identified that could cause a loss of intended function for the period of extended operation. Vibration is not applicable since flexible connectors connect switchyard bus. Therefore, there are no aging effects requiring management for aluminum switchyard bus.3.6.2.2.4Quality Assurance for Aging Management of Nonsafety-Related ComponentsSee Appendix B Section B.0.3 for discussion of VYNPS quality assurance procedures and administrative controls for aging management programs.3.6.2.3Time-Limited Aging AnalysisThe only TLAAs identified for the electrical and I&C commodity components are evaluations for environmental qualification (EQ). The EQ TLAA is evaluated in Section 4.4 of this application.3.6.3ConclusionThe electrical and I&C components that are subject to aging management review have been identified in accordance with the requirements of 10CFR54.21(a)(1). The aging management programs selected to manage aging effects for the electrical and I&C components are identified in Section 3.6.2.1 and in the following tables. A description of aging management programs is provided in Appendix B, along with the demonstration that the identified aging effects will be managed for the period of extended operation.Based on the demonstrations provided in Appendix B, the effects of aging associated with electrical and I&C components will be managed such that there is reasonable assurance the intended functions will be maintained consistent with the current licensing basis during the period of extended operation.
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| Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 481 of 488Aging Management Review SummaryTable 3.6.1Summary of Aging Management Programs for the Electrical and I&C ComponentsEvaluated in Chapter VI of NUREG-1801Table 3.6.1: Electrical Components, NUREG-1801 Vol. 1Item NumberComponentAging Effect/MechanismAging Management Programs Further Evaluation RecommendedDiscussion3.6.1-1Electrical equipment subject to 10CFR 50.49 environmental
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| qualification (EQ) requirementsDegradation due to various aging mechanismsEnvironmental qualification of electric components Yes, TLAAEQ equipment is not subject to aging management review because it is replaced based on qualified life. EQ analyses are evaluated as TLAAs in Section 4.4.3.6.1-2Electrical cables, connections and fuse holders (insulation) not subject to 10CFR 50.49 EQ requirementsReduced insulation resistance (IR) and electrical failure due to various physical, thermal, radiolytic, photolytic and chemical mechanismsElectrical cables and connections not subject to 10CFR 50.49 EQ requirements NoConsistent wit h NUREG-1801. The non-EQ insulated cables and connections program will manage the effects of aging.3.6.1-3Conductor insulation for electrical cables and connections used in instrumentation circuits not subject to 10CFR 50.49 EQ requirements that are sensitive to reduction in conductor insulation resistance (IR) Reduced insulation resistance (IR) and electrical failure due to various physical, thermal, radiolytic, photolytic and chemical mechanismsElectrical cables and connections used in instrumentation circuits not subject to 10CFR 50.49 EQ requirementsNoConsistent wit h NUREG-1801. Management of aging effects will be provided by the non-EQ instrumentation circuits test review program.
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| This program includes review of calibration and su rveillance testing results of instrumentation circuits.
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| Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 482 of 488Aging Management Review Summary3.6.1-4Conductor insulation for inaccessible medium-voltage (2kV to 35kV) cables (e.g.,
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| installed in conduit or direct buried) not subject to 10CFR 50.49 EQ requirementsLocalized damage and breakdown of insulation leading to electrical failure due to moisture intrusion, water treesInaccessible medium-voltage cables not subject to 10CFR 50.49 EQ requirementsNoConsistent wit h NUREG-1801. The non-EQ inaccessible medium-voltage cable program will manage the effects of aging.
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| This program includes inspection of medium-voltage cables exposed to significant moisture and voltage and testing as required.3.6.1-5PWR only3.6.1-6Fuse holders (not part of a larger assembly) -
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| metallic clampFatigue due to ohmic heating, thermal cycling, electrical transients, frequent manipulation, vibration, chemical contamination, corrosion, and oxidationFuse holdersNoNUREG-1801 aging effect is not applicable to VYNPS. A review of VYNPS documents indicated that fuse holders utilizing metallic clamps are either part of an active device or located in circuits that perform no license renewal intended function. Therefore, fuse holders with metallic clamps at VYNPS are not subject to aging management review.Table 3.6.1: Electrical Components, NUREG-1801 Vol. 1 (Continued)Item NumberComponentAging Effect/MechanismAging Management Programs Further Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 483 of 488Aging Management Review Summary3.6.1-7Metal enclosed bus - Bus / connectionsLoosening of bolted connections due to thermal cycling and ohmic heatingMetal Enclosed BusNoNUREG-1801 aging effect is not applicable to VYNPS. An evaluation of phase bus for VYNPS determined that VYNPS does not have any phase bus that supports a license renewal function.
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| Therefore, phase bus at VY is not subject to aging management review.3.6.1-8Metal enclosed bus - Insulation / insulatorsEmbrittlement, cracking, melting, discoloration, swelling, or loss of dielectric strength leading to reduced IR; electrical failure due to thermal/
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| thermoxidative degradation of organics /
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| thermoplastics, radiation-induced oxidation; moisture/debris intrusion, and ohmic heating Metal Enclosed BusNoNUREG-1801 aging effect is not applicable to VYNPS. An evaluation of metal enclosed bus for VYNPS determined that VYNPS does not have any phase bus that supports a license renewal function. Therefore, metal enclosed bus at VY is not subject to aging management review.Table 3.6.1: Electrical Components, NUREG-1801 Vol. 1 (Continued)Item NumberComponentAging Effect/MechanismAging Management Programs Further Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 484 of 488Aging Management Review Summary3.6.1-9Metal enclosed bus - Enclosure assembliesLoss of material due to general corrosionStructures monitoring programNoNUREG-1801 aging effect is not applicable to VYNPS. An evaluation of metal enclosed bus for VYNPS determined that VYNPS does not have any phase bus that supports a license renewal function. Therefore, metal enclosed bus at VY is not subject to aging management review.3.6.1-10Metal enclosed bus - Enclosure assembliesHardening and loss of strength / elastomers degradationStructures monitoring programNoNUREG-1801 aging effect is not applicable to VYNPS. An evaluation of metal enclosed bus for VYNPS determined that VYNPS does not have any phase bus that supports a license renewal function. Therefore, metal enclosed bus at VY is not subject to aging management review.3.6.1-11High voltage insulators Degradation of insulation quality due to presence of any salt deposits and surface contamination; loss of material caused by mechanical wear due to wind blowing on transmission conductorsPlant specificYes, plant specificNUREG-1801 aging effect is not applicable to VYNPS. See Section 3.6.2.2.2 for further evaluation.Table 3.6.1: Electrical Components, NUREG-1801 Vol. 1 (Continued)Item NumberComponentAging Effect/MechanismAging Management Programs Further Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 485 of 488Aging Management Review Summary3.6.1-12Transmission conductors and connections; Switchyard bus and connectionsLoss of material due to wind induced abrasion and fatigue; loss of conductor strength due to
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| corrosion; increased resistance of connection due to oxidation or loss of preload Plant specificYes, plant specificNUREG-1801 aging effect is not applicable to VYNPS. See Section 3.6.2.2.3 for further evaluation.3.6.1-13Cable connections metallic partsLoosening of bolted connections due to thermal cycling, ohmic heating, electrical transients, vibration, chemical contamination, corrosion, and oxidationElectrical cable connections not subject to 10 CFR 50.49 environmental qualification requirementsNoNUREG-1801 aging effect is not applicable to VYNPS. Cable connections outside of active devices are taped or sleeved for protection. Operating experience with metallic parts of electrical cable connections at VYNPS indicated no aging effects requiring management.3.6.1-14Fuse holders (not part of a larger assembly) -
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| Insulation materialNoneNoneNA - No AEM or AMPConsistent wit h NUREG-1801.Table 3.6.1: Electrical Components, NUREG-1801 Vol. 1 (Continued)Item NumberComponentAging Effect/MechanismAging Management Programs Further Evaluation RecommendedDiscussion Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 486 of 488Aging Management Review SummaryNotes for Table 3.6.2-1Generic notesA.Consistent with NUREG-1801 item for component, material, environment, and aging effect. AMP is consistent with NUREG-1801 AMP.B.Consistent with NUREG-1801 item for component, material, environment, and aging effect.
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| AMP has exceptions to NUREG-1801 AMP.C.Component is different, but consistent with NUREG-1801 item for material, environment, and aging effect. AMP is consistent with NUREG-1801 AMP.D.Component is different, but consistent with NUREG-1801 item for material, environment, and aging effect. AMP has exceptions to NUREG-1801 AMP.E.Consistent with NUREG-1801 material, environment, and aging effect but a different aging management program is credited.F.Material not in NUREG-1801 for this component.G.Environment not in NUREG-1801 for this component and material.
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| H.Aging effect not in NUREG-1801 for this component, material and environment combination.I.Aging effect in NUREG-1801 for th is component, material and environmen t combination is not applicable.J.Neither the component nor the material and environment combination is evaluated in NUREG-1801.Plant-specific notes None Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 487 of 488Aging Management Review SummaryTable 3.6.2-1Electrical ComponentsSummary of Aging Management EvaluationTable 3.6.2-1: Electrical ComponentsComponent TypeComponent Intended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramsNUREG-1801 Vol. 2 ItemTable 1 Item NotesCable connections (metallic parts)CEVarious metals used
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| for electrical connections Heat and airOutdoor weatherNoneNone IElectrical cables and connections not subject to 10 CFR 50.49 EQ requirements (includes electrical penetration conductors and connections)CEInsulation material -
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| various organic polymersHeat and airRadiation and airReduced insulation resistance (IR)
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| Non-EQ insulated cables and connections VI.A-2 (L-01)VI.A-6 (LP-03)3.6.1-2AElectrical cables not subject to 10 CFR 50.49 environmental
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| qualification requirements used in instrumentation circuitsCEInsulation material -
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| various organic polymersHeat and airRadiation and airReduced insulation resistance (IR)
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| Non-EQ instrumentation circuit cables VI.A-3(L-02)3.6.1-3A Vermont Yankee License Renewal ProjectLRPD-06Revision 0Page 488 of 488Aging Management Review SummaryFuse holders (insulation material)INInsulation material-various organic polymersIndoor airNoneNoneVI.A-7(LP-02)3.6.1-14AHigh voltage insulatorsINPorcelain, cementOutdoor weatherNoneNone IInaccessible medium-voltage (4.16kV to 22kV) cables (e.g.,
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| installed underground in conduit or direct buried) not subject to 10 CFR 50.49 EQ requirementsCEInsulation material -
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| various organic polymersMoisture and voltage stressReduced insulation resistance (IR)
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| Non-EQ inaccessible medium-voltage
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| cable VI.A-4(L-03)3.6.1-4 ASwitchyard bus (switchyard bus for SBO), connectionsCEAluminum, copperOutdoor weatherNoneNone ITransmission conductorsCEAluminum, steel, steel
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| alloyHeat and airOutdoor weatherNoneNone ITable 3.6.2-1: Electrical Components (Continued)Component TypeComponent Intended FunctionMaterialEnvironment Aging Effect Requiring Management Aging Management ProgramsNUREG-1801 Vol. 2 ItemTable 1 Item Notes}}
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