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U.S. NUCLEAR REGULATORY COMMISSION DOCKET 50-410 LICENSE NPF-69 NINE MILE POINT NUCLEAR STATION UNIT 2 UPDATED SAFETY ANALYSIS REPORT OCTOBER 2022 REVISION 25
NMP Unit 2 USAR Chapter 3 LIST OF EFFECTIVE FIGURES Chapter 03 EF 3-1 Rev. 25, October 2022 Figure No.
Revision Number Figure No.
Revision Number 3.2-1 A21 3.6A-38 R07 3.6A-39 R07 3.5-1 A04 3.6A-40 R07 3.5-2 A00 3.6A-41 R07 3.5-3 A00 3.6A-42 R07 3.5-4 A00 3.6A-43 R07 3.5-5 A00 3.6A-44 R07 3.6A-45 R07 3.6A-1 A00 3.6A-46 R07 3.6A-2 R15 3.6A-47 R07 3.6A-3 A00 3.6A-48 R07 3.6A-4 A00 3.6A-49 R07 3.6A-5 A00 3.6A-50 A27 3.6A-6 A00 3.6A-51 A27 3.6A-7 A00 3.6A-52 R23 3.6A-8 A00 3.6A-53 R16 3.6A-9 A00 3.6A-54 A27 3.6A-10 A00 3.6A-55 R00 3.6A-11 A00 3.6A-56 R02 3.6A-12 R07 3.6A-57 R15 3.6A-13 R07 3.6A-58 R02 3.6A-14 R07 3.6A-59 R00 3.6A-15 R07 3.6A-60 R23 3.6A-16 R07 3.6A-17 R07 3.6B-1 A24 3.6A-18 R07 3.6B-2 A00 3.6A-19 R07 3.6B-3 A00 3.6A-20 R07 3.6A-21 R07 3.7A-1 A00 3.6A-22 R07 3.7A-2 A00 3.6A-23 R07 3.7A-3 A26 3.6A-24 R07 3.7A-4 A26 3.6A-25 R07 3.7A-5 A22 3.6A-26 R07 3.7A-6 A22 3.6A-27 R07 3.7A-7 A22 3.6A-28 R07 3.7A-8 A22 3.6A-29 R07 3.7A-9 A22 3.6A-30 R07 3.7A-10 A22 3.6A-31 R07 3.7A-11 A22 3.6A-32 R07 3.7A-12 A22 3.6A-33 R07 3.7A-13 A22 3.6A-34 R07 3.7A-14 A22 3.6A-35 R07 3.7A-15 A22 3.6A-36 R07 3.7A-16 A22 3.6A-37 R07 3.7A-17 A22
NMP Unit 2 USAR Chapter 3 LIST OF EFFECTIVE FIGURES (Contd.)
Chapter 03 EF 3-2 Rev. 25, 2022 Figure No.
Revision Number Figure No.
Revision Number 3.7A-18 A23 3.8-19 Sh 2 A00 3.7A-19 A00 3.8-20 A00 3.7A-20 A20 3.8-21 A00 3.7A-21 A23 3.8-22 R04 3.7A-22 A23 3.8-23 R04 3.7A-23 A23 3.7A-24 A23 3.9A-1 A08 3.7A-25 A23 3.9A-2 A12 3.7A-26 A23 3.9A-3 A12 3.7A-27 A20 3.9A-4 A12 3.7A-28 A20 3.9A-5 R00 3.7A-29 A20 3.9A-6 R00 3.7A-30 A20 3.9A-7 R00 3.7A-31 A20 3.9A-8 R00 3.7A-32 A23 3.9A-9 R00 3.7A-33 A05 3.9A-10 R00 3.7A-34 A18 3.9A-11 R00 3.7A-35 R00 3.9A-12 R15 3.7A-36 Sh 1 R00 3.9A-13 R15 3.7A-36 Sh 2 R00 3.9A-14 R15 3.9A-15 R15 3.7B-1 A00 3.9A-16 R15 3.7B-2 A00 3.9A-17 R00 3.9A-18 R15 3.8-1 A00 3.9A-19 R00 3.8-2 A00 3.9A-20 R00 3.8-3 A00 3.9A-21 R00 3.8-3a R04 3.9A-22 R00 3.8-4 A00 3.9A-23 R00 3.8-5 A00 3.9A-24 R00 3.8-6 A00 3.9A-25 R00 3.8-7 A00 3.9A-26 R00 3.8-8 R07 3.9A-27 R00 3.8-9 A00 3.9A-28 R00 3.8-10 R15 3.9A-29 R00 3.8-11 A00 3.9A-30 R00 3.8-12 A00 3.9A-31 R00 3.8-13 A00 3.9A-32 R00 3.8-14 A00 3.9A-33 R00 3.8-15 A00 3.9A-34 R00 3.8-16 A00 3.9A-35 R15 3.8-17 A00 3.9A-36 R15 3.8-18 Sh 1 A00 3.9A-37 R15 3.8-18 Sh 2 A00 3.9A-38 R15 3.8-19 Sh 1 A16 3.9A-39 R15
NMP Unit 2 USAR Chapter 3 LIST OF EFFECTIVE FIGURES (Contd.)
Chapter 03 EF 3-3 Rev. 25, 2022 Figure No.
Revision Number Figure No.
Revision Number 3.9A-40 R15 3A.4-1 A00 3.9A-41 R15 3A.4-2 A00 3.9A-42 R15 3A.4-3 A00 3.9A-43 R15 3A.4-4 A00 3.9A-44 R15 3.9A-45 R15 3A.6-1 A00 3.9A-46 R15 3A.6-2 A00 3.9A-47 R15 3.9A-48 R15 3A.9-1 A00 3.9A-49 R00 3A.9-2 A00 3.9A-50 R00 3A.9-3 A00 3.9A-51 R00 3A.9-4 A00 3.9A-52 R00 3A.9-5 A00 3.9A-53 R00 3A.9-6 A00 3.9A-54 R00 3A.9-7 A00 3.9A-55 R00 3A.10-1 A00 3.9A-56 R00 3A.10-2 A00 3.9A-57 R00 3A.10-3 A00 3.9A-58 R00 3A.10-4 A27 3.9A-59 R00 3A.12-1 R00 3.9A-60 R00 3A.13-1 A00 3.9A-61 R00 3A.13-2 A03 3.9A-62 R00 3A.14-1 A00 3.9A-63 R00 3A.14-2 A00 3.9A-64 R00 3A.15-1 A00 3.9A-65 R00 3A.15-2 A00 3.9A-66 R00 3A.15-3 A00 3.9A-67 R00 3A.18-1 A05 3A.18-2 A05 3.9B-1 R04 3A.20-1 A00 3.9B-2 A26 3A.20-2 A00 3.9B-3 A00 3A.20-3 A00 3.9B-4 A00 3A.20-4 A00 3.9B-5 A00 3A.20-5 A00 3A.21-1 A00 3A.1-1 A00 3A.21-2 A00 3A.21-3 A00 3A.2-1 A00 3A.21-4 A00 3A.2-2 A00 3A.24-1 A00 3A.24-2 A00 3A.3-1 A00 3A.24-3 A00 3A.3-2 A00 3A.26-1 A03 3A.26-2 A03
NMP Unit 2 USAR Chapter 3 LIST OF EFFECTIVE FIGURES (Contd.)
Chapter 03 EF 3-4 Rev. 25, 2022 Figure No.
Revision Number Figure No.
Revision Number 3B-1 Sh 1 R00 3B-37 R00 3B-1 Sh 2 R01 3B-38 R00 3B-1 Sh 3 R00 3B-39 R00 3B-1 Sh 4 R00 3B-40 R00 3B-1 Sh 5 R00 3B-41 R00 3B-2 Sh 1 R00 3B-42 R00 3B-2 Sh 2 R01 3B-43 R00 3B-2 Sh 3 R02 3B-44 R00 3B-2 Sh 4 R00 3B-45 R00 3B-2 Sh 5 R00 3B-46 R00 3B-3 R00 3B-47 R00 3B-4 R00 3B-48 R00 3B-5 R00 3B-49 R22 3B-6 R00 3B-50 R00 3B-7 R00 3B-51 R00 3B-8 R00 3B-52 R00 3B-9 R00 3B-53 R00 3B-10 R00 3B-54 R00 3B-11 R00 3B-55 R00 3B-12 R00 3B-56 R00 3B-13 R00 3B-14 R00 3C.3-1 A12 3B-15 R00 3C.3-2 A12 3B-16 R00 3C.3-3 A12 3B-17 R00 3B-18 R00 3B-19 R00 3B-20 R00 3B-21 R00 3B-22 R00 3B-23 R00 3B-24 R00 3B-25 R00 3B-26 R00 3B-27 R00 3B-28 R00 3B-29 R00 3B-30 R00 3B-31 R00 3B-32 R00 3B-33 R00 3B-34 R00 3B-35 R00 3B-36 R00
NMP Unit 2 USAR CHAPTER 3 - DESIGN OF STRUCTURES, COMPONENTS, EQUIPMENT, AND SYSTEMS TABLE OF CONTENTS Section Title Chapter 03 3-i Rev. 25, October 2022 3.1 CONFORMANCE WITH NRC GENERAL DESIGN CRITERIA 3.1.1 Summary Description 3.1.2 Criterion Conformance 3.1.2.1 Quality Standards and Records (Criterion 1) 3.1.2.2 Design Basis for Protection Against Natural Phenomena (Criterion 2) 3.1.2.3 Fire Protection (Criterion 3) 3.1.2.4 Environmental and Missile Design Bases (Criterion 4) 3.1.2.5 Sharing of Structures, Systems, and Components (Criterion 5) 3.1.2.6 (Not Promulgated by NRC) 3.1.2.7 (Not Promulgated by NRC) 3.1.2.8 (Not Promulgated by NRC) 3.1.2.9 (Not Promulgated by NRC) 3.1.2.10 Reactor Design (Criterion 10) 3.1.2.11 Reactor Inherent Protection (Criterion 11) 3.1.2.12 Suppression of Reactor Power Oscillations (Criterion 12) 3.1.2.13 Instrumentation and Control (Criterion 13) 3.1.2.14 Reactor Coolant Pressure Boundary (Criterion 14) 3.1.2.15 Reactor Coolant System Design (Criterion 15) 3.1.2.16 Containment Design (Criterion 16 3.1.2.17 Electric Power Systems (Criterion 17) 3.1.2.18 Inspection and Testing of Electric Power Systems (Criterion 18) 3.1.2.19 Control Room (Criterion 19) 3.1.2.20 Protection System Functions (Criterion 20) 3.1.2.21 Protection System Reliability and Testability (Criterion 21) 3.1.2.22 Protection System Independence (Criterion 22) 3.1.2.23 Protection System Failure Modes (Criterion 23) 3.1.2.24 Separation of Protection and Control Systems (Criterion 24) 3.1.2.25 Protection System Requirements for Reactivity Control Malfunctions (Criterion 25) 3.1.2.26 Reactivity Control System Redundancy and Capability (Criterion 26) 3.1.2.27 Combined Reactivity Control Systems Capability (Criterion 27) 3.1.2.28 Reactivity Limits (Criterion 28) 3.1.2.29 Protection Against Anticipated Operational Occurrences (Criterion 29) 3.1.2.30 Quality of Reactor Coolant Pressure Boundary (Criterion 30) 3.1.2.31 Fracture Prevention of Reactor Coolant Pressure Boundary (Criterion 31)
NMP Unit 2 USAR DESIGN OF STRUCTURES, COMPONENTS, EQUIPMENT, AND SYSTEMS TABLE OF CONTENTS (Cont'd)
Section Title Chapter 03 3-ii Rev. 25, October 2022 3.1.2.32 Inspection of Reactor Coolant Pressure Boundary (Criterion 32) 3.1.2.33 Reactor Coolant Makeup (Criterion 33) 3.1.2.34 Residual Heat Removal (RHR) (Criterion 34) 3.1.2.35 Emergency Core Cooling System (ECCS)
(Criterion 35) 3.1.2.36 Inspection of Emergency Core Cooling System (ECCS) (Criterion 36) 3.1.2.37 Testing of Emergency Core Cooling System (ECCS)
(Criterion 37) 3.1.2.38 Containment Heat Removal (Criterion 38) 3.1.2.39 Inspection of Containment Heat Removal System (Criterion 39) 3.1.2.40 Testing of Containment Heat Removal System (Criterion 40) 3.1.2.41 Containment Atmosphere Cleanup (Criterion 41) 3.1.2.42 Inspection of Containment Atmosphere Cleanup Systems (Criterion 42) 3.1.2.43 Testing of Containment Atmospheric Cleanup Systems (Criterion 43) 3.1.2.44 Cooling Water (Criterion 44) 3.1.2.45 Inspection of Cooling Water System (Criterion 45) 3.1.2.46 Testing of Cooling Water System (Criterion 46) 3.1.2.47 (Not Promulgated by NRC) 3.1.2.48 (Not Promulgated by NRC) 3.1.2.49 (Not Promulgated by NRC) 3.1.2.50 Containment Design Basis (Criterion 50) 3.1.2.51 Fracture Prevention of Containment Pressure Boundary (Criterion 51) 3.1.2.52 Capability for Containment Leakage Rate Testing (Criterion 52) 3.1.2.53 Provisions for Containment Testing and Inspection (Criterion 53) 3.1.2.54 Piping Systems Penetrating Containment (Criterion 54) 3.1.2.55 Reactor Coolant Pressure Boundary Penetrating Containment (Criterion 55) 3.1.2.56 Primary Containment Isolation (Criterion 56) 3.1.2.57 Closed System Isolation Valves (Criterion 57) 3.1.2.58 (Not Promulgated by NRC) 3.1.2.59 (Not Promulgated by NRC) 3.1.2.60 Control of Releases of Radioactive Materials to the Environment (Criterion 60) 3.1.2.61 Fuel Storage and Handling and Radioactivity Control (Criterion 61) 3.1.2.62 Prevention of Criticality in Fuel Storage and Handling (Criterion 62) 3.1.2.63 Monitoring Fuel and Waste Storage (Criterion 63) 3.1.2.64 Monitoring Radioactivity Releases (Criterion 64)
NMP Unit 2 USAR DESIGN OF STRUCTURES, COMPONENTS, EQUIPMENT, AND SYSTEMS TABLE OF CONTENTS (Cont'd)
Section Title Chapter 03 3-iii Rev. 25, October 2022 3.2 CLASSIFICATION OF STRUCTURES, SYSTEMS, AND COMPONENTS 3.2.1 Seismic Classification 3.2.2 System Quality Group Classifications 3.2.3 Quality Assurance 3.2.4 Correlation of Safety Classes with Industry Codes 3.3 WIND AND TORNADO LOADINGS 3.3.1 Wind Loadings 3.3.1.1 Design Wind Velocity 3.3.1.1.1 Basis for Design Wind Velocity Selection 3.3.1.1.2 Vertical Velocity Distribution and Gust Factor 3.3.1.2 Determination of Applied Forces 3.3.2 Tornado Loadings 3.3.2.1 Applicable Design Parameters 3.3.2.2 Determination of Forces on Structures 3.3.2.2.1 Transformation of Tornadic Winds 3.3.2.2.2 Venting of Structures 3.3.2.2.3 Missile Impact Loads 3.3.2.2.4 Tornado Load Combinations 3.3.2.3 Effect of Failure of Structures or Components Not Designed for Tornado Loads 3.3.3 References 3.4 WATER LEVEL (FLOOD) DESIGN 3.4.1 Flood Protection 3.4.1.1 Flood Protection Measures for Category I Structures 3.4.1.1.1 Identification of Safety-Related Systems and Components 3.4.1.1.2 Description of Structures Housing Safety-Related Equipment 3.4.1.1.3 Means of Providing Flood Protection 3.4.1.1.4 Procedures Required for Cold Shutdown of Reactor in Flood 3.4.1.1.5 Identity of Safety-Related Systems or Components Capable of Functioning in Flooded or Partially-Flooded Conditions 3.4.1.2 Permanent Dewatering System 3.4.2 Analytic and Test Procedures 3.4.3 References 3.5 MISSILE PROTECTION 3.5.1 Missile Selection and Description 3.5.1.1 Internally-Generated Missiles 3.5.1.1.1 Locations of Structures, Systems, and Components 3.5.1.1.2 Applicable Seismic Category and Quality Group Classifications
NMP Unit 2 USAR DESIGN OF STRUCTURES, COMPONENTS, EQUIPMENT, AND SYSTEMS TABLE OF CONTENTS (Cont'd)
Section Title Chapter 03 3-iv Rev. 25, October 2022 3.5.1.1.3 Piping and Instrumentation Drawings 3.5.1.1.4 Identification of Missiles, Their Sources, and Basis of Selection 3.5.1.1.5 Missile Protection Provided 3.5.1.2 Internally-Generated Missiles (Inside Containment) 3.5.1.3 Turbine Missiles 3.5.1.3.1 Turbine Placement and Orientation 3.5.1.3.2 Missile Identification, Characteristics, and Target Description 3.5.1.3.3 Probability Analysis 3.5.1.3.4 Turbine Overspeed Protection 3.5.1.3.5 Turbine Valve Testing 3.5.1.3.6 Turbine Characteristics 3.5.1.4 Missiles Generated by Natural Phenomena 3.5.1.5 Missiles Generated by Events Near the Site 3.5.1.6 Aircraft Hazards 3.5.2 Structures, Systems, and Components to be Protected from Externally-Generated Missiles 3.5.3 Barrier Design Procedures 3.5.4 References 3.6 PROTECTION AGAINST DYNAMIC EFFECTS ASSOCIATED WITH THE POSTULATED RUPTURE OF PIPING 3.6A PROTECTION AGAINST EFFECTS ASSOCIATED WITH THE POSTULATED RUPTURE OF PIPING (SWEC SCOPE OF SUPPLY) 3.6A.1 Postulated Piping Failures in Fluid Systems Inside and Outside the Containment 3.6A.1.1 Design Bases 3.6A.1.2 Description of Piping Failures 3.6A.1.3 Safety Evaluation 3.6A.1.3.1 Approach 3.6A.1.3.2 Protection Methods 3.6A.1.3.3 Specific Protection Measures 3.6A.2 Determination of Break Locations and Dynamic Effects Associated with the Postulated Rupture of Piping 3.6A.2.1 Criteria Used to Define Break and Crack Location and Configuration 3.6A.2.1.1 Definition of High-Energy Fluid System 3.6A.2.1.2 Definition of Moderate-Energy Fluid System 3.6A.2.1.3 Postulated Pipe Breaks and Cracks 3.6A.2.1.4 Exemptions from Pipe Whip Protection Requirements 3.6A.2.1.5 Postulated Pipe Break Locations 3.6A.2.1.6 Design Basis Break/Crack Types and Orientation 3.6A.2.2 Analytical Methods to Define Forcing Functions and Response Models 3.6A.2.2.1 Introduction 3.6A.2.2.2 Time-Dependent Blowdown Force
NMP Unit 2 USAR DESIGN OF STRUCTURES, COMPONENTS, EQUIPMENT, AND SYSTEMS TABLE OF CONTENTS (Cont'd)
Section Title Chapter 03 3-v Rev. 25, October 2022 3.6A.2.2.3 Simplified Blowdown Analysis 3.6A.2.2.4 Lumped-Parameter Dynamic Analysis 3.6A.2.2.5 Energy Balance Analysis 3.6A.2.2.6 Local Pipe Indentation 3.6A.2.2.7 Concrete Barrier Impact 3.6A.2.3 Dynamic Analysis Methods to Verify Integrity and Operability 3.6A.2.3.1 Jet Impingement Analysis 3.6A.2.3.2 Pipe Rupture Restraints 3.6A.2.4 Guard Pipe Assembly Design Criteria 3.6A.2.5 Material for the Operating License Review 3.6A.3 References 3.6B PROTECTION AGAINST DYNAMIC EFFECTS ASSOCIATED WITH POSTULATED RUPTURE OF PIPING (GE SCOPE OF SUPPLY) 3.6B.1 Postulated Piping Failures in Fluid Systems Outside Containment 3.6B.2 Determination of Break Locations and Dynamic Effects Associated with the Postulated Rupture of Piping 3.6B.2.1 Criteria Used to Define Break and Crack Location and Configuration 3.6B.2.1.1 Criteria for Recirculation Piping System Inside Containment 3.6B.2.1.1.1 Definition of High-Energy Fluid System 3.6B.2.1.1.2 Definition of Moderate-Energy Fluid System 3.6B.2.1.1.3 Postulated Pipe Breaks and Cracks 3.6B.2.1.1.4 Exemptions from Pipe Whip Protection Requirements 3.6B.2.1.1.5 Location for Postulated Pipe Breaks (ASME Safety Class 1 Piping) 3.6B.2.1.1.6 Other High-Energy Piping and Moderate-Energy Piping 3.6B.2.1.1.7 Regulatory Guide 1.46 3.6B.2.1.1.8 Types of Breaks to Be Postulated in Fluid System Piping 3.6B.2.1.2 Criteria for Piping System in Area of Containment Isolation Valves 3.6B.2.2 Analytical Methods to Define Blowdown Forcing Functions and Response Models 3.6B.2.2.1 Analytical Methods to Define Blowdown Forcing Functions 3.6B.2.2.1.1 Recirculation Piping System 3.6B.2.2.2 Pipe Whip Dynamic Response Analyses 3.6B.2.2.2.1 Recirculation Piping System 3.6B.2.3 Dynamic Analysis Methods to Verify Integrity and Operability 3.6B.2.3.1 Jet Impingement Analyses and Effects on Safety-Related Components
NMP Unit 2 USAR DESIGN OF STRUCTURES, COMPONENTS, EQUIPMENT, AND SYSTEMS TABLE OF CONTENTS (Cont'd)
Section Title Chapter 03 3-vi Rev. 25, October 2022 3.6B.2.3.2 Pipe Whip Effects on Safety-Related Components 3.6B.2.3.2.1 Pipe Whip Effects Following a Postulated Rupture of the Recirculation Piping System 3.6B.2.3.3 Load Combinations and Design Criteria for Pipe Whip Restraints 3.6B.2.3.3.1 Recirculation Piping System Pipe Whip Restraints 3.6B.2.4 Material to Be Submitted for the Operating License Review 3.6B.2.4.1 Implementation of Criteria for Pipe Break and Crack Location and Orientation 3.6B.2.4.2 Implementation of Special Protection Criteria 3.6B.2.4.3 Summary of Jet Effects Analyses Results 3.6B.3 References 3.7 SEISMIC DESIGN 3.7A SEISMIC DESIGN (SWEC SCOPE OF SUPPLY) 3.7A.1 Seismic Input 3.7A.1.1 Design Response Spectra 3.7A.1.2 Design Response Spectrum Derivation 3.7A.1.3 Critical Damping Values 3.7A.1.3.1 Structures 3.7A.1.3.2 Equipment 3.7A.1.3.3 Piping 3.7A.1.4 Support Media for Category I Structures 3.7A.2 Seismic System Analysis 3.7A.2.1 Seismic Analysis Methods 3.7A.2.2 Natural Frequencies and Response Loads 3.7A.2.3 Procedures Used for Modeling 3.7A.2.4 Soil/Structure Interaction 3.7A.2.4.1 Rock/Structure Interaction 3.7A.2.5 Development of Floor Response Spectra 3.7A.2.6 Three Components of Earthquake Motion 3.7A.2.7 Combination of Modal Responses 3.7A.2.8 Interaction of Non-Category I Structures with Category I Structures 3.7A.2.9 Effects of Parameter Variations on Floor Response Spectra 3.7A.2.10 Use of Constant Vertical Static Factors 3.7A.2.11 Method Used to Account for Torsional Effects 3.7A.2.12 Comparison of Responses 3.7A.2.13 Methods for Seismic Analysis of Dams 3.7A.2.14 Determination of Category I Structure Overturning Moments 3.7A.2.15 Analysis Procedure for Damping 3.7A.3 Seismic Subsystem Analysis 3.7A.3.1 Seismic Analysis Methods 3.7A.3.1.1 Seismic Qualification of Components 3.7A.3.1.2 Seismic Qualification of Piping Systems 3.7A.3.1.3 Other Dynamic Loads
NMP Unit 2 USAR DESIGN OF STRUCTURES, COMPONENTS, EQUIPMENT, AND SYSTEMS TABLE OF CONTENTS (Cont'd)
Section Title Chapter 03 3-vii Rev. 25, October 2022 3.7A.3.2 Determination of Number of Equivalent Stress Cycles 3.7A.3.3 Procedure Used for Modeling 3.7A.3.3.1 Summary 3.7A.3.3.2 Geometric Boundaries of Analytical Models 3.7A.3.3.3 Model 3.7A.3.3.4 Selection of Mass Points 3.7A.3.3.5 Number of Modes and Cutoff Frequency 3.7A.3.4 Basis for Selection of Frequencies 3.7A.3.4.1 Components 3.7A.3.4.2 Piping 3.7A.3.5 Use of Equivalent Static Load Method of Analysis 3.7A.3.6 Three Components of Earthquake Motion 3.7A.3.7 Combination of Modal Responses 3.7A.3.8 Analytical Procedures for Piping 3.7A.3.8.1 Introduction 3.7A.3.8.2 Analytical Techniques 3.7A.3.8.3 Dynamic Analysis 3.7A.3.9 Multiply Supported Equipment Components with Distinct Inputs 3.7A.3.10 Use of Constant Vertical Static Factors 3.7A.3.11 Torsional Effects of Eccentric Masses 3.7A.3.12 Buried Category I Piping Systems and Tunnels 3.7A.3.13 Interaction of Other Piping with Category I Piping 3.7A.3.14 Seismic Analyses for Reactor Internals 3.7A.3.15 Analysis Procedure for Damping 3.7A.4 Criteria for Seismic Instrumentation Program 3.7A.4.1 Comparison with Regulatory Guide 1.12 3.7A.4.2 Location and Description of Instrumentation 3.7A.4.2.1 Triaxial Time History Accelerograph 3.7A.4.2.2 Triaxial Peak Accelerograph 3.7A.4.2.3 Triaxial Response Spectrum Recorder 3.7A.4.2.4 Triaxial Seismic Switch 3.7A.4.3 Main Control Room Operator Notification 3.7A.4.4 Comparison of Measured and Predicted Responses 3.7A.4.5 Inservice Surveillance Requirements 3.7A.5 References 3.7B SEISMIC DESIGN (GE SCOPE OF SUPPLY) 3.7B.1 Seismic Input 3.7B.1.1 Design Response Spectra 3.7B.1.2 Design Time History 3.7B.1.3 Critical Damping Values 3.7B.1.4 Supporting Media for Category I Structures 3.7B.2 Seismic System Analysis 3.7B.2.1 Seismic Analysis Methods 3.7B.2.1.1 The Equations of Dynamic Equilibrium 3.7B.2.1.2 Solution of the Equations of Motion by Mode Superposition 3.7B.2.1.3 Analysis by Response Spectrum Method
NMP Unit 2 USAR DESIGN OF STRUCTURES, COMPONENTS, EQUIPMENT, AND SYSTEMS TABLE OF CONTENTS (Cont'd)
Section Title Chapter 03 3-viii Rev. 25, October 2022 3.7B.2.1.4 Multi support Excitation Analysis of Systems, Components, and Equipment 3.7B.2.1.5 Dynamic Analysis of Category I Systems, Components, and Equipment 3.7B.2.1.6 Seismic Qualification by Testing 3.7B.2.2 Natural Frequencies and Response Loads 3.7B.2.3 Procedure Used for Modeling 3.7B.2.3.1 Modeling Techniques for Category I Systems, Components, and Equipment 3.7B.2.3.2 Modeling of Reactor Pressure Vessel and Internals 3.7B.2.4 Soil-Structure Interaction 3.7B.2.5 Development of Floor Response Spectra 3.7B.2.6 Three Components of Earthquake Motion (NSSS) 3.7B.2.7 Combination of Modal Responses (NSSS) 3.7B.2.8 Interaction of Non-Category I Structures with Category I Structures 3.7B.2.9 Effects of Parameter Variations on Floor Response Spectra 3.7B.2.10 Use of Constant Vertical Static Factors (NSSS) 3.7B.2.11 Method Used to Account for Torsional Effects NSSS) 3.7B.2.12 Comparison of Responses (NSSS) 3.7B.2.13 Methods for Seismic Analysis of Dams 3.7B.2.14 Determination of Category I Structure Overturning Moments 3.7B.2.15 Analysis Procedure for Damping 3.7B.3 Seismic Subsystem Analysis 3.7B.3.1 Seismic Analysis Methods 3.7B.3.2 Determination of Number of Earthquake Cycles 3.7B.3.2.1 Piping Systems 3.7B.3.2.2 Other Equipment and Components 3.7B.3.3 Procedure Used for Modeling 3.7B.3.3.1 Modeling of Piping Systems 3.7B.3.3.2 Modeling Equipment 3.7B.3.3.3 Field Location of Supports and Restraints 3.7B.3.4 Basis of Selection of Frequencies 3.7B.3.5 Use of Equivalent Static Load Method of Analysis 3.7B.3.6 Three Components of Earthquake Motion 3.7B.3.6.1 Response Spectrum Method 3.7B.3.6.2 Time-History Method 3.7B.3.7 Combination of Modal Responses 3.7B.3.7.1 Square Root of the Sum of the Squares Method 3.7B.3.7.2 Double Sum Method 3.7B.3.8 Analytical Procedure for Piping 3.7B.3.9 Multiply Supported Equipment Components with Distinct Inputs 3.7B.3.10 Use of Constant Vertical Static Factors 3.7B.3.11 Torsional Effects of Eccentric Masses 3.7B.3.12 Buried Category I Piping Systems and Tunnels 3.7B.3.13 Interaction of Other Piping with Category I Piping
NMP Unit 2 USAR DESIGN OF STRUCTURES, COMPONENTS, EQUIPMENT, AND SYSTEMS TABLE OF CONTENTS (Cont'd)
Section Title Chapter 03 3-ix Rev. 25, October 2022 3.7B.3.14 Seismic Analysis for Reactor Internals 3.7B.3.15 Analysis Procedures for Damping 3.7B.4 Seismic Instrumentation 3.7B.5 Reference 3.8 DESIGN OF SEISMIC CATEGORY I STRUCTURES 3.8.1 Concrete Containment 3.8.1.1 Description of the Containment 3.8.1.1.1 Reinforcing Steel Arrangement 3.8.1.1.2 Steel Liner and Penetrations 3.8.1.2 Applicable Codes, Standards, and Specifications 3.8.1.3 Loads and Load Combinations 3.8.1.3.1 Primary Containment Structure 3.8.1.3.2 Steel Liner and Penetrations 3.8.1.4 Design and Analysis Procedure 3.8.1.4.1 Concrete Primary Containment Structure 3.8.1.4.2 Steel Liner and Penetrations 3.8.1.5 Structural Acceptance Criteria 3.8.1.5.1 Primary Containment Structure 3.8.1.5.2 Steel Liner and Penetrations 3.8.1.6 Materials, Quality Control, and Construction Techniques 3.8.1.6.1 Concrete Primary Containment Structure 3.8.1.6.2 Steel Liner and Penetrations 3.8.1.6.3 Exceptions and/or Clarifications to ASME Code 3.8.1.7 Testing and In-service Inspection 3.8.1.7.1 Concrete Containment 3.8.1.7.2 Steel Liner and Penetrations 3.8.2 Not Applicable 3.8.3 Concrete and Steel Internal Structures of the Primary Containment 3.8.3.1 Description of Internal Structures 3.8.3.1.1 Drywell Floor 3.8.3.1.2 Reactor Vessel Pedestal 3.8.3.1.3 Biological Shield Wall 3.8.3.1.4 Star Truss 3.8.3.1.5 Floors 3.8.3.2 Applicable Codes, Standards, and Specifications 3.8.3.2.1 Biological Shield Wall 3.8.3.2.2 Star Truss 3.8.3.3 Loads and Loading Combinations 3.8.3.3.1 Drywell Floor and Reactor Vessel Pedestal 3.8.3.3.2 Biological Shield Wall 3.8.3.3.3 Star Truss 3.8.3.4 Design and Analysis Procedures 3.8.3.4.1 Drywell Floor 3.8.3.4.2 Reactor Pedestal 3.8.3.4.3 Biological Shield Wall 3.8.3.4.4 Star Truss
NMP Unit 2 USAR DESIGN OF STRUCTURES, COMPONENTS, EQUIPMENT, AND SYSTEMS TABLE OF CONTENTS (Cont'd)
Section Title Chapter 03 3-x Rev. 25, October 2022 3.8.3.4.5 Floors 3.8.3.5 Structural Acceptance Criteria 3.8.3.6 Materials, Quality Control, and Special Construction Techniques 3.8.3.6.1 Reactor Vessel Pedestal and Drywell Floor 3.8.3.6.2 Biological Shield Wall 3.8.3.6.3 Star Truss 3.8.3.7 Testing and In-service Surveillance Requirements 3.8.4 Other Seismic Category I Structures 3.8.4.1 Description of the Structures 3.8.4.1.1 Reactor Building 3.8.4.1.2 Control Room Building 3.8.4.1.3 Diesel Generator Building 3.8.4.1.4 Screenwell Building 3.8.4.1.5 Intake Structures 3.8.4.1.6 Intake (and Discharge) Tunnels 3.8.4.1.7 Electrical Tunnels and Piping Tunnels 3.8.4.1.8 Main Stack 3.8.4.1.9 Standby Gas Treatment Building and Railroad Access Lock Area 3.8.4.1.10 Auxiliary Service Building 3.8.4.1.11 Radwaste Building 3.8.4.1.12 Turbine Building 3.8.4.2 Applicable Codes, Standards, and Specifications 3.8.4.3 Loads and Load Combinations 3.8.4.4 Design and Analysis Procedures 3.8.4.4.1 Reactor Building 3.8.4.4.2 Control Room Building 3.8.4.4.3 Diesel Generator Building 3.8.4.4.4 Screenwell Building 3.8.4.4.5 Intake Structures 3.8.4.4.6 Intake (and Discharge) Tunnels 3.8.4.4.7 Electrical Tunnels and Piping Tunnels 3.8.4.4.8 Main Stack 3.8.4.4.9 Standby Gas Treatment Building and Railroad Access Lock Area 3.8.4.4.10 Auxiliary Service Building 3.8.4.4.11 Radwaste Building 3.8.4.4.12 Turbine Building 3.8.4.5 Structural Acceptance Criteria 3.8.4.6 Materials, Quality Control, and Special Construction Techniques 3.8.4.6.1 Concrete 3.8.4.6.2 Reinforcing Steel 3.8.4.6.3 Structural Steel 3.8.4.7 Testing and In-service Surveillance Requirements 3.8.5 Foundations and Concrete Supports 3.8.5.1 Description of the Foundation and Supports 3.8.5.1.1 Reactor Building
NMP Unit 2 USAR DESIGN OF STRUCTURES, COMPONENTS, EQUIPMENT, AND SYSTEMS TABLE OF CONTENTS (Cont'd)
Section Title Chapter 03 3-xi Rev. 25, October 2022 3.8.5.1.2 Foundations for Other Structures 3.8.5.2 Applicable Codes, Standards, and Specifications 3.8.5.3 Loads and Load Combinations 3.8.5.4 Design and Analysis Procedures 3.8.5.5 Structural Design Criteria 3.8.5.6 Materials, Quality Control, and Special Construction Techniques 3.8.5.7 Testing and In-service Surveillance Requirements 3.8.6 Reference 3.9 MECHANICAL SYSTEMS AND COMPONENTS 3.9A MECHANICAL SYSTEMS AND COMPONENTS (SWEC SCOPE OF SUPPLY) 3.9A.1 Special Topics for Mechanical Components 3.9A.1.1 Design Transients 3.9A.1.2 Computer Programs Used in Analyses 3.9A.1.3 Experimental Stress Analysis 3.9A.1.4 Consideration for the Evaluation of the Faulted Condition 3.9A.1.4.1 Equipment and Components 3.9A.1.4.1.1 ASME III Compliance 3.9A.1.4.2 Piping Systems 3.9A.1.5 Analysis of Piping Systems 3.9A.1.5.1 Static Analysis 3.9A.1.5.2 Occasional Dynamic Loads Excluding Seismic and Hydrodynamic Inertia Loads 3.9A.1.5.3 Field-Run Piping 3.9A.1.5.4 Load Combinations and Stress Criteria 3.9A.1.6 Safety-Related HVAC Ductwork and Supports 3.9A.2 Dynamic Testing and Analysis 3.9A.2.1 Piping Vibration, Thermal Expansion, and Dynamic Effects 3.9A.2.1.1 Flow Modes 3.9A.2.1.2 Preoperational Vibration Testing 3.9A.2.1.3 Preoperational Thermal Expansion Testing 3.9A.2.1.4 Measurement Locations 3.9A.2.1.5 Acceptance Criteria 3.9A.2.1.6 Corrective Actions 3.9A.2.2 Seismic Qualification of Safety-Related Mechanical Equipment 3.9A.2.2.1 Seismic Qualification Criteria 3.9A.2.2.2 Acceptance Criteria 3.9A.2.2.3 Seismic Qualification of Specific Non-NSSS Mechanical Equipment 3.9A.3 ASME Code Class 1, 2, and 3 Components, Component Supports, and Core Support Structures 3.9A.3.1 Loading Combinations, Design Transients, and Stress Limits
NMP Unit 2 USAR DESIGN OF STRUCTURES, COMPONENTS, EQUIPMENT, AND SYSTEMS TABLE OF CONTENTS (Cont'd)
Section Title Chapter 03 3-xii Rev. 25, October 2022 3.9A.3.1.1 ASME Section III, Class 1 Components 3.9A.3.1.2 ASME Class 2 and 3 Components 3.9A.3.1.3 Compliance with Regulatory Guide 1.48 3.9A.3.2 Pump and Valve Operability Assurance 3.9A.3.2.1 Pump Operability Program 3.9A.3.2.2 Valve Operability Program 3.9A.3.3 Design and Installation Details for Mounting of Pressure-Relief Devices 3.9A.3.4 Component Supports 3.9A.3.4.1 Pipe Supports 3.9A.3.4.2 Pump Supports 3.9A.3.4.3 Other Components Supports 3.9A.4 Control Rod Drive Systems 3.9A.5 Reactor Pressure Vessel Internals 3.9A.6 Inservice Testing of Pumps and Valves 3.9A.6.1 Inservice Testing of Pumps 3.9A.6.2 Inservice Testing of Valves 3.9A.6.3 Relief Requests 3.9A.6.4 Pipe Welds Within Break Exclusion Area 3.9B MECHANICAL SYSTEMS AND COMPONENTS (GE SCOPE OF SUPPLY) 3.9B.1 Special Topics for Mechanical Components 3.9B.1.1 Design Transients 3.9B.1.1.1 Control Rod Drive Transients 3.9B.1.1.2 Control Rod Drive Housing and In-core Housing Transients 3.9B.1.1.3 Hydraulic Control Unit Transients 3.9B.1.1.4 Core Support and Reactor Internals Transients 3.9B.1.1.5 Main Steam System Transients 3.9B.1.1.6 Recirculation System Transients 3.9B.1.1.7 Reactor Assembly Transients 3.9B.1.1.8 Main Steam Isolation Valve Transients 3.9B.1.1.9 Safety/Relief Valve Transients 3.9B.1.1.10 Recirculation Flow Control Valve Transients 3.9B.1.1.11 Recirculation Pump Transients 3.9B.1.1.12 Recirculation Gate Valve Transients 3.9B.1.2 Computer Programs Used in Analysis 3.9B.1.2.1 Reactor Pressure Vessel and Internals 3.9B.1.2.2 Piping 3.9B.1.2.3 Recirculation Pump 3.9B.1.2.4 Emergency Core Cooling System Pumps and Motors 3.9B.1.2.5 RHR Heat Exchangers 3.9B.1.2.6 Dynamic Load Analysis 3.9B.1.3 Experimental Stress Analysis 3.9B.1.3.1 Experimental Stress Analysis of Piping Components 3.9B.1.3.2 Orificed Fuel Support, Vertical and Horizontal Load Tests
NMP Unit 2 USAR DESIGN OF STRUCTURES, COMPONENTS, EQUIPMENT, AND SYSTEMS TABLE OF CONTENTS (Cont'd)
Section Title Chapter 03 3-xiii Rev. 25, October 2022 3.9B.1.4 Considerations for the Evaluation of Faulted Conditions 3.9B.1.4.1 Control Rod Drive System Components 3.9B.1.4.2 Standard Reactor Internal Components 3.9B.1.4.3 Reactor Pressure Vessel Assembly 3.9B.1.4.4 Core Support Structure 3.9B.1.4.5 Recirculation Gate, Safety/Relief Valves, and Main Steam Isolation Valves 3.9B.1.4.6 Recirculation System Flow Control Valve 3.9B.1.4.7 Recirculation Piping 3.9B.1.4.8 Nuclear Steam Supply System Pumps, Heat Exchanger, and Turbine 3.9B.1.4.9 Control Rod Drive Housing Supports 3.9B.1.4.10 Fuel Storage Racks 3.9B.1.4.11 Fuel Assembly (Including Channels) 3.9B.1.4.12 Refueling Equipment 3.9B.2 Dynamic Testing and Analysis 3.9B.2.1 Piping Vibration, Thermal Expansion, and Dynamic Effects 3.9B.2.1.1 Piping Vibration 3.9B.2.1.2 Thermal Expansion Testing of Recirculation Piping 3.9B.2.1.3 Dynamic Effects Testing of Recirculation Piping 3.9B.2.1.4 Test Evaluation and Acceptance Criteria for Recirculation Piping 3.9B.2.1.4.1 Level 1 Criterion 3.9B.2.1.4.2 Level 2 Criteria 3.9B.2.1.4.3 Acceptance Limits 3.9B.2.1.5 Corrective Actions for Recirculation Piping 3.9B.2.1.6 Measurement Locations for Recirculation Piping 3.9B.2.2 Seismic and Hydrodynamic Qualification of Safety-Related Mechanical Equipment 3.9B.2.2.1 Tests and Analysis Criteria and Methods 3.9B.2.2.2 Seismic and Hydrodynamic Load Qualification of Specific NSSS Mechanical Components 3.9B.2.3 Dynamic Response of Reactor Internals Under Operational Flow Transients and Steady-State Conditions 3.9B.2.4 Preoperational Flow-Induced Vibration Testing of Reactor Internals 3.9B.2.5 Dynamic System Analysis of Reactor Internals Under Faulted Conditions 3.9B.2.6 Correlations of Reactor Internals Vibration Tests with Analytical Results 3.9B.3 ASME Section III, Safety Class 1, 2, and 3 Components, Component Supports, and Core Support Structures 3.9B.3.1 Load Combinations, Design Transients, and Stress Limits 3.9B.3.1.1 Plant Conditions
NMP Unit 2 USAR DESIGN OF STRUCTURES, COMPONENTS, EQUIPMENT, AND SYSTEMS TABLE OF CONTENTS (Cont'd)
Section Title Chapter 03 3-xiv Rev. 25, October 2022 3.9B.3.1.2 Reactor Pressure Vessel Assembly 3.9B.3.1.3 Main Steam Piping 3.9B.3.1.4 Recirculation Loop Piping 3.9B.3.1.5 Recirculation System Valves 3.9B.3.1.6 Recirculation Pump 3.9B.3.1.7 Standby Liquid Control Tank 3.9B.3.1.8 Residual Heat Removal Heat Exchangers 3.9B.3.1.9 RCIC Turbine 3.9B.3.1.10 RCIC Pump 3.9B.3.1.11 ECCS Pumps 3.9B.3.1.12 Standby Liquid Control Pump 3.9B.3.1.13 Main Steam Isolation and Safety/Relief Valves 3.9B.3.1.14 Reactor Water Cleanup System Pump and Heat Exchangers 3.9B.3.2 Pump and Valve Operability Assurance 3.9B.3.2.1 ECCS Pumps and Motors 3.9B.3.2.2 SLC Pump and Motor Assembly and RCIC Pump Assembly 3.9B.3.2.3 NSSS Valves 3.9B.3.2.3.1 Safety Class 1 Active Valves 3.9B.3.2.3.2 Safety Class 2 and 3 Active Valves 3.9B.3.3 Design and Installation of Pressure Relief Devices 3.9B.3.3.1 Main Steam Safety/Relief Valves 3.9B.3.4 Component Supports 3.9B.3.4.1 Piping 3.9B.3.4.2 Reactor Pressure Vessel Stabilizer 3.9B.3.4.3 NSSS Floor-Mounted Equipment (Pumps, Heat Exchanger, and RCIC Turbine) 3.9B.3.4.4 Supports for ASME Safety Class 1, 2, and 3 Active Components 3.9B.3.4.5 Bolting Support 3.9B.4 Control Rod Drive System 3.9B.4.1 Descriptive Information on CRD System 3.9B.4.2 Applicable CRD System Design Specifications 3.9B.4.3 Design Loads, Stress Limits, and Allowable Deformation 3.9B.4.4 CRD Performance Assurance Program 3.9B.5 Reactor Core Support Structures and Pressure Vessel Internals 3.9B.5.1 Design Arrangements 3.9B.5.1.1 Core Support Structures 3.9B.5.1.2 Reactor Vessel Internals 3.9B.5.2 Design Loading Conditions 3.9B.5.2.1 Events to Be Evaluated 3.9B.5.2.2 Pressure Differential During Rapid Depressurization 3.9B.5.2.3 Recirculation Line and Steam Line Break 3.9B.5.3 Design Bases 3.9B.5.3.1 Safety Design Bases 3.9B.5.3.2 Power Generation Design Bases
NMP Unit 2 USAR DESIGN OF STRUCTURES, COMPONENTS, EQUIPMENT, AND SYSTEMS TABLE OF CONTENTS (Cont'd)
Section Title Chapter 03 3-xv Rev. 25, October 2022 3.9B.5.3.3 Design Loading Categories 3.9B.5.3.4 Response of Internals Due to Inside Steam Break Accident 3.9B.5.3.5 Stress, Deformation, and Fatigue Limits for Engineered Safety Feature Reactor Internals (Except Core Support Structure) 3.9B.5.3.6 Stress, Deformation, and Fatigue Limits for Core Support Structures 3.9B.6 References 3.10 SEISMIC QUALIFICATION OF CATEGORY I INSTRUMENTATION AND ELECTRICAL EQUIPMENT 3.10A SEISMIC QUALIFICATION OF CATEGORY I INSTRUMENTATION AND ELECTRICAL EQUIPMENT (SWEC SCOPE OF SUPPLY) 3.10A.1 Seismic Qualification Criteria
- 3.
3.10A.2 Methods and Procedures for Qualifying Electrical Equipment and Instrumentation 3.10A.2.1 Testing 3.10A.2.2 Prototype Testing 3.10A.2.3 Analysis 3.10A.2.4 Combined Analysis and Testing 3.10A.3 Methods and Procedures of Analysis or Testing of Supports of Electrical Equipment and Instrumentation 3.10A.4 Operating License Review 3.10B SEISMIC AND HYDRODYNAMIC QUALIFICATIONS OF SEISMIC CATEGORY I INSTRUMENTATION AND ELECTRICAL EQUIPMENT (GE SCOPE OF SUPPLY) 3.10B.1 Dynamic Qualification Criteria 3.10B.1.1 Seismic Category I Equipment Identification 3.10B.1.2 Dynamic Design Criteria 3.10B.1.2.1 NSSS Equipment 3.10B.2 Methods and Procedures for Qualifying Electrical Equipment and Instrumentation 3.10B.2.1 Methods of Showing NSSS Equipment Compliance with IEEE-344-1975 and Regulatory Guide 1.100 3.10B.2.2 Testing Procedures for Qualifying Electrical Equipment and Instrumentation 3.10B.2.3 Qualification of Valve Operators 3.10B.2.4 Qualification of NSSS Motors 3.10B.3 Methods and Procedure of Analysis or Testing of Supports of Electrical Equipment and Instrumentation 3.10B.3.1 Dynamic Analysis and Testing Procedures 3.10B.3.1.1 Panel-Mounted Equipment 3.10B.4 Operating License Review
NMP Unit 2 USAR DESIGN OF STRUCTURES, COMPONENTS, EQUIPMENT, AND SYSTEMS TABLE OF CONTENTS (Cont'd)
Section Title Chapter 03 3-xvi Rev. 25, October 2022 3.11 ENVIRONMENTAL QUALIFICATION OF ELECTRICAL EQUIPMENT 3.11.1 Equipment Identification and Environmental Conditions 3.11.2 Qualification Tests and Analyses 3.11.2.1 Qualification 3.11.2.2 Method of Qualification of Class 1E Equipment and Components 3.11.3 Qualification Test Results 3.11.4 Loss of Heating, Ventilating, and Air Conditioning 3.11.5 Estimated Chemical and Radiation Environment 3.11.5.1 Chemical Environment 3.11.5.2 Radiation Environment 3.11.6 Submergence 3.11.7 References APPENDIX 3A COMPUTER PROGRAMS FOR DYNAMIC AND STATIC ANALYSIS OF CATEGORY I STRUCTURES, EQUIPMENT, AND COMPONENTS APPENDIX 3B PRESSURE ANALYSIS FOR SUBCOMPARTMENTS OUTSIDE CONTAINMENT APPENDIX 3C FAILURE MODE ANALYSIS FOR PIPE BREAKS AND CRACKS APPENDIX 3D UNIT 2 ASSESSMENT OF GENERAL DESIGN CRITERIA 51 TO 10CFR50 APPENDIX 3E CLASSIFICATION OF STRESSES IN COMPONENT/PIPING SUPPORTS DUE TO LOADS FROM SEISMIC ANCHOR MOTION AND THERMAL GROWTH OF PIPING
NMP Unit 2 USAR LIST OF TABLES Table Number Title Chapter 03 3-xvii Rev. 25, October 2022 3.2-1 EQUIPMENT AND STRUCTURE CLASSIFICATION 3.2-2 CODE GROUP DESIGNATIONS, INDUSTRY CODES, AND STANDARDS FOR MECHANICAL COMPONENTS 3.2-3
SUMMARY
OF SAFETY CLASS DESIGN REQUIREMENTS 3.2-4 REACTOR COOLANT PRESSURE BOUNDARY CLASS I EQUIPMENT CODE APPLICATION 3.3-1 DYNAMIC WIND PRESSURE FOR CATEGORY I STRUCTURES 3.4-1 FLOOD PROTECTION FOR SAFETY-RELATED STRUCTURES AND SYSTEMS 3.4-2 PENETRATIONS THROUGH EXTERIOR WALLS OF REACTOR BUILDING BELOW DBFL 3.4-3 PENETRATIONS THROUGH EXTERIOR WALLS OF CONTROL AND TURBINE BUILDINGS BELOW DBFL 3.4-4 PENETRATIONS THROUGH EXTERIOR WALLS OF RADWASTE BUILDING AND SCREENWELL BUILDING BELOW DBFL 3.4-5 PENETRATIONS THROUGH EXTERIOR WALLS OF PIPE TUNNELS BELOW DBFL 3.4-6 PENETRATIONS THROUGH EXTERIOR WALLS OF DIESEL GENERATOR BUILDING AND MAIN STACK BELOW DBFL 3.4-7 PERFORMANCE OF WATER STOP MATERIAL IN EXPECTED ENVIRONMENT 3.5-1 SAFETY-RELATED STRUCTURES, SYSTEMS, AND COMPONENTS 3.5-2
SUMMARY
OF FORCES AND STRESSES ACTING ON THERMOWELL WELDS IN THE VARIOUS HIGH-ENERGY SYSTEMS 3.5-3 DAMAGE PROBABILITY DUE TO LOW-TRAJECTORY TURBINE MISSILES FROM UNIT 2 STRIKING PLANT REGIONS AT UNIT 2 (Manufacturer's Probability) 3.5-4 DAMAGE PROBABILITY DUE TO LOW-TRAJECTORY TURBINE MISSILES FROM UNIT 1 STRIKING PLANT REGIONS AT UNIT 2 (Manufacturer's Probability) 3.5-5 DAMAGE PROBABILITY DUE TO LOW-TRAJECTORY TURBINE MISSILES FROM JAMES A. FITZPATRICK POWER STATION
NMP Unit 2 USAR LIST OF TABLES Table Number Title Chapter 03 3-xviii Rev. 25, October 2022 STRIKING PLANT REGIONS AT UNIT 2 (Manufacturer's Probability) 3.5-6 DAMAGE PROBABILITY DUE TO LOW-TRAJECTORY TURBINE MISSILES FROM UNIT 2 STRIKING PLANT REGIONS AT UNIT 2 (NRC Probability) 3.5-7 DAMAGE PROBABILITY DUE TO LOW-TRAJECTORY TURBINE MISSILES FROM UNIT 1 STRIKING PLANT REGIONS AT UNIT 2 (NRC Probability) 3.5-8 DAMAGE PROBABILITY DUE TO LOW-TRAJECTORY TURBINE MISSILES FROM JAMES A. FITZPATRICK POWER STATION STRIKING PLANT REGIONS AT UNIT 2 (NRC Probability) 3.5-9 DAMAGE PROBABILITY DUE TO HIGH-TRAJECTORY TURBINE MISSILES FROM UNIT 2 STRIKING PLANT REGIONS AT UNIT 2 (Manufacturer's Probability) 3.5-10 DAMAGE PROBABILITY DUE TO HIGH-TRAJECTORY TURBINE MISSILES FROM UNIT 1 STRIKING PLANT REGIONS AT UNIT 2 (Manufacturer's Probability) 3.5-11 DAMAGE PROBABILITY DUE TO HIGH-TRAJECTORY TURBINE MISSILES FROM JAMES A. FITZPATRICK POWER STATION STRIKING PLANT REGIONS AT UNIT 2 (Manufacturer's Probability) 3.5-12 DAMAGE PROBABILITY DUE TO HIGH-TRAJECTORY TURBINE MISSILES FROM UNIT 2 STRIKING PLANT REGIONS AT UNIT 2 (NRC Probability) 3.5-13 DAMAGE PROBABILITY DUE TO HIGH-TRAJECTORY TURBINE MISSILES FROM UNIT 1 STRIKING PLANT REGIONS AT UNIT 2 (NRC Probability) 3.5-14 DAMAGE PROBABILITY DUE TO HIGH-TRAJECTORY TURBINE MISSILES FROM JAMES A. FITZPATRICK POWER STATION STRIKING PLANT REGIONS AT UNIT 2 (NRC Probability) 3.5-15 SUM OF DAMAGE PROBABILITY DUE TO LOW-AND HIGH-TRAJECTORY TURBINE MISSILES GENERATED FROM TURBINES AT UNITS 1 AND 2 AND JAMES A.
FITZPATRICK TO PLANT REGIONS OF UNIT 2 (Manufacturer's Probability) 3.5-16 SUM OF DAMAGE PROBABILITY DUE TO LOW-AND HIGH-TRAJECTORY TURBINE MISSILES GENERATED FROM
NMP Unit 2 USAR LIST OF TABLES Table Number Title Chapter 03 3-xix Rev. 25, October 2022 TURBINES AT UNITS 1 AND 2 AND JAMES A.
FITZPATRICK TO PLANT REGIONS OF UNIT 2 (NRC Probability) 3.5-17 TURBINE MISSILE INFORMATION (43-Inch Last Stage Bucket Unit) 3.5-18 TURBINE MISSILE INFORMATION (38-Inch Last Stage Bucket Units) 3.5-19 BASIC ASSUMPTIONS FOR PROBABILITY ANALYSIS OF TURBINE MISSILE STRIKE 3.5-20 DELETED 3.5-21 SELECTED EXTERNAL MISSILES 3.5-22 MISSILE BARRIERS FOR NATURAL PHENOMENA AND TURBINE-GENERATED MISSILES 3.6A-1 COMPARISON OF PIPE RUPTURE CRITERIA 3.6A-2 DELETED thru 3.6A-71 3.6A-72 ESSENTIAL SYSTEMS/COMPONENTS/EQUIPMENT EVALUATED FOR PIPE FAILURES 3.6A-73 HIGH-ENERGY PIPING 3.6B-1 PDA VERIFICATION RESTRAINT DATA 3.6B-2 COMPARISON OF PDA AND NSC CODE 3.7A-1 DAMPING FACTORS 3.7A-2 FOUNDATION/SUPPORT MEDIA FOR CATEGORY 1 STRUCTURES 3.7A-3 PRIMARY CONTAINMENT MODE SHAPES (CRACKED) 3.7A-4 PRIMARY CONTAINMENT MODE SHAPES (UNCRACKED) 3.7A-5 SECONDARY CONTAINMENT MODE SHAPES 3.7A-6 CONTROL AND DIESEL GENERATOR BUILDING MODE SHAPES 3.7A-7 PRIMARY CONTAINMENT MODAL RESPONSES (CRACKED)
NMP Unit 2 USAR LIST OF TABLES Table Number Title Chapter 03 3-xx Rev. 25, October 2022 3.7A-8 PRIMARY CONTAINMENT MODAL RESPONSES (CRACKED) 3.7A-9 SSE ACCELERATION COMPARISON 3.7A-10 TABULATION OF STRUCTURAL GAP AND WORST-CONDITION GAP FOR SSE CONDITION 3.7A-11 DESIGN ATTRIBUTES TO BE REVIEWED FOR VERIFICATION OF LARGE BORE SAFETY-RELATED PIPING AS REQUIRED BY IE BULLETIN 79-14 3.7A-12 DESIGN ATTRIBUTES TO BE REVIEWED FOR VERIFICATION OF SMALL BORE SAFETY-RELATED PIPING AS REQUIRED BY IE BULLETIN 79-14 3.7A-13 COMPARISON OF RESULTS: STATIC VERSUS DYNAMIC ANALYSIS FOR INSTRUMENT PANEL 2DFM-PNL102 3.7B-1 CRITICAL DAMPING RATIOS FOR DIFFERENT MATERIALS 3.7B-2 NUMBER OF DYNAMIC RESPONSE CYCLES EXPECTED DURING A SEISMIC EVENT 3.8-1 LOAD COMBINATIONS FOR CONCRETE PRIMARY CONTAINMENT 3.8-2 LOAD COMBINATIONS FOR CONTAINMENT WALL LINER, FLOOR LINER, CORNER TRANSITION REGIONS, AND EMBEDMENT LINER INSERT PLATES 3.8-3 LOAD COMBINATIONS FOR ACCESS LOCKS AND HATCHES 3.8-4 LOAD COMBINATIONS FOR THE DRYWELL HEAD 3.8-5 LOAD COMBINATIONS AND STRESS LIMITS FOR SAFETY CLASS 1 PIPE PENETRATIONS 3.8-6 LOAD COMBINATIONS AND STRESS LIMITS FOR SAFETY CLASS 2 PIPE PENETRATIONS 3.8-7 LOAD COMBINATIONS AND STRESS LIMITS FOR PENETRATIONS - CLASS MC PORTIONS 3.8-8 STRESS 3.8-9 LOAD COMBINATIONS FOR THE BIOLOGICAL SHIELD WALL 3.8-10 DESIGN STRENGTH FOR LOAD COMBINATIONS ON CATEGORY I STEEL STRUCTURES
NMP Unit 2 USAR LIST OF TABLES Table Number Title Chapter 03 3-xxi Rev. 25, October 2022 3.8-11 REQUIRED STRENGTH FOR LOAD COMBINATIONS ON CATEGORY I CONCRETE STRUCTURES 3.8-12 LOAD COMBINATIONS FOR INTAKE TUNNELS 3.8-13 MAJOR STRUCTURES FOUNDATION SYSTEMS 3.8-14 FACTORS OF SAFETY FOR OVERTURNING, SLIDING AND FLOATATION OF MAJOR CATEGORY I STRUCTURES 3.8-15 PREDICTED STRUCTURAL RESPONSE - CONTAINMENT PRESSURE TEST 3.9A-1 TRANSIENTS AND THE NUMBER OF ASSOCIATED CYCLES CONSIDERED IN THE DESIGN AND FATIGUE ANALYSES OF CLASS 1 PIPING 3.9A-2 LOAD COMBINATIONS AND STRESS LIMITS FOR PIPE STRESS ANALYSIS 3.9A-3 PIPE STRESS ANALYSIS CLASSIFICATIONS FOR ASME CODE CLASSES 1, 2, 3 3.9A-4 BOP SEISMIC/DYNAMIC QUALIFICATION RESULTS -
MECHANICAL EQUIPMENT 3.9A-5 LOAD COMBINATIONS FOR ASME SECTION III CLASS 1 VALVES 3.9A-6 LOAD COMBINATIONS FOR ASME SECTION III CLASS 2 AND 3 AND NON-ASME COMPONENTS 3.9A-7 STRESS LIMITS FOR ASME SECTION III CLASS 1 (NB)
SEISMIC CATEGORY I COMPONENTS (ELASTIC ANALYSIS) 3.9A-8 STRESS LIMITS FOR ASME SECTION III CLASS 2 AND 3 COMPONENTS (ELASTIC ANALYSIS) 3.9A-9
SUMMARY
OF ACTIVE PUMPS (SWEC SCOPE OF SUPPLY) 3.9A-10
SUMMARY
OF SEISMIC STRESS ANALYSIS RESULTS 3.9A-11 DELETED 3.9A-12 ACTIVE VALVES (BOP) 3.9A-13 LOAD COMBINATIONS FOR COMPONENT SUPPORTS AND STRESS LIMITS FOR PLATE AND SHELL-TYPE SUPPORTS 3.9A-14 LOAD CONDITIONS FOR PIPE SUPPORTS
NMP Unit 2 USAR LIST OF TABLES Table Number Title Chapter 03 3-xxii Rev. 25, October 2022 3.9A-15 REQUIREMENTS FOR SAFETY CLASSES 2 AND 3 INSTRUMENT AND PNEUMATIC TUBING AND SUPPORTS 3.9A-16 BASIS FOR DESIGN AND CONSTRUCTION OF ASME AND NON-ASME PIPING SUPPORTS 3.9B-1 PLANT EVENTS 3.9B-2 LOAD COMBINATIONS, STRESS LIMITS, AND ALLOWABLE STRESSES 3.9B-2a CONTROL ROD DRIVE 3.9B-2b CONTROL ROD GUIDE TUBE 3.9B-2c IN-CORE HOUSING 3.9B-2d JET PUMPS 3.9B-2e HIGHEST STRESSED REGION ON THE LPCI COUPLING (ATTACHMENT RING) 3.9B-2f REACTOR PRESSURE VESSEL SUPPORT EQUIPMENT 3.9B-2g CONTROL ROD DRIVE HOUSING 3.9B-2h REACTOR PRESSURE VESSEL AND SHROUD SUPPORT ASSEMBLY 3.9B-2i REACTOR VESSEL INTERNALS AND ASSOCIATED EQUIPMENT 3.9B-2j SAFETY/RELIEF VALVES SPRING-LOADED DIRECT-ACTING TYPE 3.9B-2k REACTOR RECIRCULATION SYSTEM GATE VALVES 3.9B-2L RECIRCULATION FLOW CONTROL VALVE 24-IN SIZE 3.9B-2m ASME SAFETY CLASS 1 RECIRCULATION PIPING AND PIPE MOUNTED EQUIPMENT HIGHEST STRESS
SUMMARY
3.9B-2n REACTOR REFUELING AND SERVICING EQUIPMENT 3.9B-2o FUEL ASSEMBLY 3.9B-2p RECIRCULATION PUMP 3.9B-2q STANDBY LIQUID CONTROL TANK
NMP Unit 2 USAR LIST OF TABLES Table Number Title Chapter 03 3-xxiii Rev. 25, October 2022 3.9B-2r RESIDUAL HEAT REMOVAL HEAT EXCHANGER 3.9B-2s RCIC TURBINE 3.9B-2t RCIC PUMP 3.9B-2u ECCS PUMPS 3.9B-2v STANDBY LIQUID CONTROL PUMP 3.9B-2w DELETED 3.9B-2x REACTOR WATER CLEANUP 3.9B-2y CRD HOUSING SUPPORTS 3.9B-2z MAIN STEAM ISOLATION VALVES 3.9B-3 NSSS ASSESSMENT AGAINST REGULATORY GUIDE 1.48 3.9B-4 GE-SUPPLIED SEISMIC ACTIVE PUMPS AND VALVES 3.9B-5 DEFORMATION LIMIT (FOR SAFETY CLASS REACTOR INTERNAL STRUCTURES ONLY) 3.9B-6 PRIMARY STRESS LIMIT (FOR SAFETY CLASS REACTOR INTERNAL STRUCTURES ONLY) 3.9B-7 BUCKLING STABILITY LIMIT (FOR SAFETY CLASS REACTOR INTERNAL STRUCTURES ONLY) 3.9B-8 FATIGUE LIMIT (FOR SAFETY CLASS REACTOR INTERNAL STRUCTURES ONLY) 3.9B-9 CORE SUPPORT STRUCTURES STRESS CATEGORIES AND LIMITS OF STRESS INTENSITY FOR SERVICE LEVELS A AND B (NORMAL AND UPSET) CONDITIONS 3.9B-10 CORE SUPPORT STRUCTURES STRESS CATEGORIES AND LIMITS OF STRESS INTENSITY FOR SERVICE LEVEL C (EMERGENCY) CONDITIONS 3.9B-11 CORE SUPPORT STRUCTURES STRESS CATEGORIES AND LIMITS OF STRESS INTENSITY FOR SERVICE LEVEL D (FAULT) CONDITION 3.10A-1 CLASS 1E ELECTRICAL EQUIPMENT QUALIFICATION RESULTS
NMP Unit 2 USAR LIST OF TABLES Table Number Title Chapter 03 3-xxiv Rev. 25, October 2022 3.10B-1 ESSENTIAL CLASS 1E ELECTRICAL COMPONENTS AND INSTRUMENTS SEISMIC QUALIFICATION TEST
SUMMARY
NMP Unit 2 USAR LIST OF FIGURES Figure Number Title Chapter 03 3-xxv Rev. 25, October 2022 3.2-1 GROUP CLASSIFICATION DIAGRAM 3.5-1 TURBINE PLACEMENT AND ORIENTATION 3.5-2 TURBINE MISSILE REFERENCED COORDINATE SYSTEM 3.5-3 SOLID ANGLE ON A UNIT SPHERE 3.5-4 TOP VIEW OF IDEALIZED TARGET 3.5-5 SIDE VIEW OF IDEALIZED TARGET 3.6A-1 AREAS OF ANALYSIS 3.6A-2 STEADY STATE BLOWDOWN FORCES VS FRICTION PARAMETER 3.6A-3 DYNAMIC ANALYSIS MODEL RHS (LPCI) RESTRAINT 2RHS*PRR004 3.6A-4 FLUID BLOWDOWN FORCES USED FOR 2RHS*PRR004 RESTRAINT ANALYSIS 3.6A-5 RESTRAINT (2RHS*PRR004) REACTION LOAD 3.6A-6 ENERGY BALANCE SAMPLE PROBLEM 3.6A-7 PIPE CRUSH BUMPER 3.6A-8 TWO-PIN LAMINATED PIPE RUPTURE RESTRAINT (SMALL LINES) 3.6A-9 TWO-PIN LAMINATED PIPE RUPTURE RESTRAINT (LARGE LINES) 3.6A-10 OMNI-DIRECTIONAL PIPE RUPTURE RESTRAINT 3.6A-11 LIMIT STOP RESTRAINT 3.6A-12 DELETED thru 3.6A-51 3.6A-52 HIGH ENERGY PIPING COMPOSITE PLAN EL 175'-0" AND 215'-0" 3.6A-53 HIGH ENERGY PIPING COMPOSITE PLAN EL 240'-0" 3.6A-54 HIGH ENERGY PIPING COMPOSITE PLAN EL 261'-0"
NMP Unit 2 USAR LIST OF FIGURES Figure Number Title Chapter 03 3-xxvi Rev. 25, October 2022 3.6A-55 HIGH ENERGY PIPING COMPOSITE PLAN EL 289'-0" 3.6A-56 HIGH ENERGY PIPING COMPOSITE PLAN EL 306'-6" 3.6A-57 HIGH ENERGY PIPING COMPOSITE PLAN EL 328'-10" 3.6A-58 HIGH ENERGY PIPING COMPOSITE SECTION 1-1 3.6A-59 HIGH ENERGY PIPING COMPOSITE SECTION 2-2 3.6A-60 HIGH ENERGY PIPING COMPOSITE SECTIONS 3-3 AND 4-4 3.6B-1 TYPICAL RESTRAINT FORCE - DEFLECTION CURVE 3.6B-2 TYPICAL PIPE WHIP RESTRAINT CONFIGURATION 3.6B-3 BREAK LOCATIONS AND RESTRAINTS ANALYZED, PDA VERIFICATION PROGRAM 3.7A-1 HORIZONTAL SSE DESIGN RESPONSE SPECTRA NORMALIZED TO 0.15 G 3.7A-2 VERTICAL SSE DESIGN RESPONSE SPECTRA NORMALIZED TO 0.15 G 3.7A-3 HORIZONTAL SSE DESIGN RESPONSE SPECTRUM AND RESPONSE SPECTRUM DERIVED FROM HORIZONTAL SSE SYNTHETIC TIME HISTORY (EAST-WEST EARTHQUAKE)
BASED ON 1.0 PERCENT DAMPING RATIO 3.7A-4 HORIZONTAL SSE DESIGN RESPONSE SPECTRUM AND RESPONSE SPECTRUM DERIVED FROM HORIZONTAL SSE SYNTHETIC TIME HISTORY (EAST-WEST EARTHQUAKE)
BASED ON 2.0 PERCENT DAMPING RATIO 3.7A-5 HORIZONTAL SSE DESIGN RESPONSE SPECTRUM AND RESPONSE SPECTRUM DERIVED FROM HORIZONTAL SSE SYNTHETIC TIME HISTORY (EAST-WEST EARTHQUAKE)
BASED ON 5.0 PERCENT DAMPING RATIO 3.7A-6 HORIZONTAL SSE DESIGN RESPONSE SPECTRUM AND RESPONSE SPECTRUM DERIVED FROM HORIZONTAL SSE SYNTHETIC TIME HISTORY (EAST-WEST EARTHQUAKE)
BASED ON 7.0 PERCENT DAMPING RATIO 3.7A-7 HORIZONTAL SSE DESIGN RESPONSE SPECTRUM AND RESPONSE SPECTRUM DERIVED FROM HORIZONTAL SSE SYNTHETIC TIME HISTORY (EAST-WEST EARTHQUAKE)
BASED ON 10.0 PERCENT DAMPING RATIO
NMP Unit 2 USAR LIST OF FIGURES Figure Number Title Chapter 03 3-xxvii Rev. 25, October 2022 3.7A-8 HORIZONTAL SSE DESIGN RESPONSE SPECTRUM AND RESPONSE SPECTRUM DERIVED FROM HORIZONTAL SSE SYNTHETIC TIME HISTORY (NORTH-SOUTH EARTHQUAKE)
BASED ON 1.0 PERCENT DAMPING RATIO 3.7A-9 HORIZONTAL SSE DESIGN RESPONSE SPECTRUM AND RESPONSE SPECTRUM DERIVED FROM HORIZONTAL SSE SYNTHETIC TIME HISTORY (NORTH-SOUTH EARTHQUAKE)
BASED ON 2.0 PERCENT DAMPING RATIO 3.7A-10 HORIZONTAL SSE DESIGN RESPONSE SPECTRUM AND RESPONSE SPECTRUM DERIVED FROM HORIZONTAL SSE SYNTHETIC TIME HISTORY (NORTH-SOUTH EARTHQUAKE)
BASED ON 5.0 PERCENT DAMPING RATIO 3.7A-11 HORIZONTAL SSE DESIGN RESPONSE SPECTRUM AND RESPONSE SPECTRUM DERIVED FROM HORIZONTAL SSE SYNTHETIC TIME HISTORY (NORTH-SOUTH EARTHQUAKE)
BASED ON 7.0 PERCENT DAMPING RATIO 3.7A-12 HORIZONTAL SSE DESIGN RESPONSE SPECTRUM AND RESPONSE SPECTRUM DERIVED FROM HORIZONTAL SSE SYNTHETIC TIME HISTORY (NORTH-SOUTH EARTHQUAKE)
BASED ON 10.0 PERCENT DAMPING RATIO 3.7A-13 VERTICAL SSE DESIGN RESPONSE SPECTRUM AND RESPONSE SPECTRUM DERIVED FROM VERTICAL SSE SYNTHETIC TIME HISTORY BASED ON 1.0 PERCENT DAMPING RATIO 3.7A-14 VERTICAL SSE DESIGN RESPONSE SPECTRUM AND RESPONSE SPECTRUM DERIVED FROM VERTICAL SSE SYNTHETIC TIME HISTORY BASED ON 2.0 PERCENT DAMPING RATIO 3.7A-15 VERTICAL SSE DESIGN RESPONSE SPECTRUM AND RESPONSE SPECTRUM DERIVED FROM VERTICAL SSE SYNTHETIC TIME HISTORY BASED ON 5.0 PERCENT DAMPING RATIO 3.7A-16 VERTICAL SSE DESIGN RESPONSE SPECTRUM AND RESPONSE SPECTRUM DERIVED FROM VERTICAL SSE SYNTHETIC TIME HISTORY BASED ON 7.0 PERCENT DAMPING RATIO 3.7A-17 VERTICAL SSE DESIGN RESPONSE SPECTRUM AND RESPONSE SPECTRUM DERIVED FROM VERTICAL SSE SYNTHETIC TIME HISTORY BASED ON 10.0 PERCENT DAMPING RATIO
NMP Unit 2 USAR LIST OF FIGURES Figure Number Title Chapter 03 3-xxviii Rev. 25, October 2022 3.7A-18 DYNAMIC MODEL FOR SEISMIC ANALYSIS OF PRIMARY CONTAINMENT 3.7A-19 DYNAMIC MODEL FOR SEISMIC ANALYSIS OF REACTOR BUILDING WALL 3.7A-20 DYNAMIC MODEL FOR SEISMIC ANALYSIS OF THE CONTROL AND DIESEL GENERATOR BUILDINGS 3.7A-21 SSE PRIMARY CONTAINMENT CRACKED CONDITION ACCELERATION PROFILE (G) EAST-WEST DIRECTION 3.7A-22 SSE PRIMARY CONTAINMENT CRACKED CONDITION ACCELERATION PROFILE (Gs) VERTICAL DIRECTION 3.7A-23 SSE PRIMARY CONTAINMENT CRACKED CONDITION ACCELERATION PROFILE (Gs) NORTH-SOUTH DIRECTION 3.7A-24 SSE PRIMARY CONTAINMENT UNCRACKED CONDITION ACCELERATION PROFILE (Gs) EAST-WEST DIRECTION 3.7A-25 SSE PRIMARY CONTAINMENT UNCRACKED CONDITION ACCELERATION PROFILE (Gs) VERTICAL DIRECTION 3.7A-26 SSE PRIMARY CONTAINMENT UNCRACKED CONDITION ACCELERATION PROFILE (Gs) NORTH-SOUTH DIRECTION 3.7A-27 SSE REACTOR BUILDING WALL ACCELERATION PROFILE (Gs) EAST-WEST DIRECTION 3.7A-28 SSE REACTOR BUILDING WALL ACCELERATION PROFILE (Gs) VERTICAL DIRECTION 3.7A-29 SSE REACTOR BUILDING WALL ACCELERATION PROFILE (Gs) NORTH-SOUTH DIRECTION 3.7A-30 SSE CONTROL AND DIESEL GENERATOR BUILDINGS ACCELERATION PROFILE (Gs) EAST-WEST DIRECTION 3.7A-31 SSE CONTROL AND DIESEL GENERATOR BUILDINGS ACCELERATION PROFILE (Gs) VERTICAL DIRECTION 3.7A-32 SSE CONTROL AND DIESEL GENERATOR BUILDINGS ACCELERATION PROFILE (Gs) NORTH-SOUTH DIRECTION 3.7A-33 PLAN AND SECTIONS FOR DUCTLINES 907, 922, ELECTRICAL MANHOLE #1, AND DIESEL GENERATOR BUILDING FLOOR SLABS
NMP Unit 2 USAR LIST OF FIGURES Figure Number Title Chapter 03 3-xxix Rev. 25, October 2022 3.7A-34 ALTERNATIVE DAMPING VALUES PER ASME CODE CASE N-411 3.7A-35 RELATIVE DISPLACEMENT BETWEEN REACTOR BUILDING AND PRIMARY CONTAINMENT 3.7A-36 JUSTIFICATION OF STATIC COEFFICIENT OF 1.3 (SHEETS 1 AND 2) 3.7B-1 SEISMIC ANALYTICAL MODEL FOR NSSS COMPONENTS 3.7B-2 REACTOR PRESSURE VESSEL AND INTERNALS SEISMIC MODEL 3.8-1 PRIMARY CONTAINMENT LINER ELEVATION AND DETAILS 3.8-2 PRIMARY CONTAINMENT LINER FLOOR 3.8-3 PRIMARY CONTAINMENT WALL SECTION VIEW 3.8-3a PRIMARY CONTAINMENT WALL REINFORCING DETAILS EL 175'-0" TO 241'-1" AZIMUTH 180° TO 360° 3.8-4 PRIMARY CONTAINMENT WALL STRUCTURAL DETAILS AROUND DRYWELL ACCESS HATCHES 3.8-5 PRIMARY CONTAINMENT TYPICAL BEAM SEAT DETAILS 3.8-6 COMBINATION EQUIPMENT HATCH AND PERSONAL AIRLOCK AND ESCAPE AIRLOCK - PRIMARY CONTAINMENT 3.8-7 CONTROL ROD DRIVE REMOVAL HATCH AND SUPPRESSION POOL ACCESS HATCH 3.8-8 DRYWELL HEAD AND FINGER PIN CLOSURE DETAILS 3.8-9 OTHER PIPING AND INSTRUMENT PENETRATIONS THROUGH PRIMARY CONTAINMENT 3.8-10 THERMALLY HOT AND THERMALLY COLD PIPING PENETRATIONS THROUGH PRIMARY CONTAINMENT 3.8-11 PRIMARY CONTAINMENT AND INTERNAL STRUCTURES 3.8-12 ARRANGEMENT OF PENETRATIONS THROUGH DRYWELL FLOOR 3.8-13 TYPICAL REINFORCING BAR DETAILS FOR DRYWELL FLOOR 3.8-14 TYPICAL REINFORCING BAR DETAILS FOR RPV PEDESTAL
NMP Unit 2 USAR LIST OF FIGURES Figure Number Title Chapter 03 3-xxx Rev. 25, October 2022 3.8-15 BIOLOGICAL SHIELD WALL - DETAILS 3.8-16 RING GIRDER, STAR TRUSS AND STABILIZER ARRANGEMENT 3.8-17 TYPICAL DETAILS AT CONSTRUCTION JOINTS AND SPACES BETWEEN BUILDING AND ROCK SURFACE 3.8-18 EXTERIOR REACTOR BUILDING WALL TYPICAL REINFORCING ARRANGEMENT (SHEETS 1 AND 2) 3.8-19 SPENT FUEL POOL GIRDERS PLAN AND ELEVATION (SHEETS 1 AND 2) 3.8-20 REINFORCEMENT REACTOR BUILDING MAT 3.8-21 TYPICAL DETAIL WALL/COLUMN TO FOUNDATION MAT JUNCTION 3.8-22 CONTAINMENT MAT - TOP REINFORCING DETAILS 3.8-23 CONTAINMENT MAT - BOTTOM REINFORCING DETAILS 3.9A-1 TYPICAL SAFETY CLASSES 2 AND 3 TUBE SUPPORTS AND MARKING 3.9A-2 TYPICAL PLATE AND SHELL TYPE SUPPORT JURISDICTIONAL BOUNDARIES 3.9A-3 TYPICAL PLATE AND SHELL TYPE SUPPORT JURISDICTIONAL BOUNDARIES 3.9A-4 TYPICAL LINEAR TYPE SUPPORT JURISDICTIONAL BOUNDARIES 3.9A-5 PIPE SUPPORT JURISDICTIONAL BOUNDARIES 3.9A-6 RRS OF ACC. PRIMARY CONT. (EL 196.67 FT) 3.9A-7 RRS OF ACC. PRIMARY CONT. (EL 196.67 FT) 3.9A-8 RRS OF ACC. SHIELD WALL (EL 315.08 FT) 3.9A-9 RRS OF ACC. SHIELD WALL (EL 315.08 FT) 3.9A-10 RRS OF ACC. RPV SHELL (EL 332.70 FT) 3.9A-11 RRS OF ACC. RPV SHELL (EL 332.70 FT) 3.9A-12 RRS OF ACC. PRIMARY CONT. (EL 196.67 FT)
NMP Unit 2 USAR LIST OF FIGURES Figure Number Title Chapter 03 3-xxxi Rev. 25, October 2022 3.9A-13 RRS OF ACC. PRIMARY CONT. (EL 196.67 FT) 3.9A-14 RRS OF ACC. SHIELD WALL (EL 315.08 FT) 3.9A-15 RRS OF ACC. SHIELD WALL (EL 315.08 FT) 3.9A-16 RRS OF ACC. RPV SHELL (EL 332.70 FT) 3.9A-17 RRS OF ACC. RPV SHELL (EL 332.70 FT) 3.9A-18 RRS OF ACC. PRIMARY CONT. (EL 206.11 FT) 3.9A-19 RRS OF ACC. PRIMARY CONT. (EL 206.11 FT) 3.9A-20 RRS OF ACC. SHIELD WALL OUT (EL 315.23 FT) 3.9A-21 RRS OF ACC. SHIELD WALL OUT (EL 315.23 FT) 3.9A-22 RRS OF ACC. RPV SHELL (EL 315.08 FT) 3.9A-23 RRS OF ACC. RPV SHELL (EL 315.08 FT) 3.9A-24 RRS OF ACC. SECONDARY CONT. (EL 175) AT MAT 3.9A-25 RRS OF ACC. SECONDARY CONT. (EL 175) AT MAT 3.9A-26 RRS OF ACC. PRIMARY CONT. (EL 206.11 FT) 3.9A-27 RRS OF ACC. PRIMARY CONT. (EL 206.11 FT) 3.9A-28 RRS OF ACC. SHIELD WALL OUT (EL 315.23 FT) 3.9A-29 RRS OF ACC. SHIELD WALL OUT (EL 315.23 FT) 3.9A-30 RRS OF ACC. RPV SHELL (EL 315.08 FT) 3.9A-31 RRS OF ACC. RPV SHELL (EL 315.08 FT) 3.9A-32 RRS OF ACC. SECONDARY CONT. (EL 175) AT MAT 3.9A-33 RRS OF ACC. SECONDARY CONT. (EL 175) AT MAT 3.9A-34 RRS OF ACC. PRIMARY CONT. (EL 206.11 FT) 3.9A-35 RRS OF ACC. PRIMARY CONT. (EL 206.11 FT) 3.9A-36 RRS OF ACC. SHIELD WALL OUT (EL 315.23 FT) 3.9A-37 RRS OF ACC. SHIELD WALL OUT (EL 315.23 FT)
NMP Unit 2 USAR LIST OF FIGURES Figure Number Title Chapter 03 3-xxxii Rev. 25, October 2022 3.9A-38 RRS OF ACC. RPV SHELL (EL 315.08 FT) 3.9A-39 RRS OF ACC. RPV SHELL (EL 315.08 FT) 3.9A-40 RRS OF ACC. SECONDARY CONT. (EL 175) AT MAT 3.9A-41 RRS OF ACC. SECONDARY CONT. (EL 175) AT MAT 3.9A-42 RRS OF ACC. PRIMARY CONT. (EL 206.11 FT) 3.9A-43 RRS OF ACC. PRIMARY CONT. (EL 206.11 FT) 3.9A-44 RRS OF ACC. SHIELD WALL OUT (EL 315.23 FT) 3.9A-45 RRS OF ACC. SHIELD WALL OUT (EL 315.23 FT) 3.9A-46 RRS OF ACC. RPV SHELL (EL 315.08 FT) 3.9A-47 RRS OF ACC. RPV SHELL (EL 315.08 FT) 3.9A-48 RRS OF ACC. PRIMARY CONT. (EL 176.0 FT) AT MAT 3.9A-49 RRS OF ACC. PRIMARY CONT. (EL 176.0 FT) AT MAT 3.9A-50 ARS OF ACCELERATION PRIMARY CONT. EL 196.67 FT 3.9A-51 ARS OF ACCELERATION PRIMARY CONT. EL 196.67 FT 3.9A-52 ARS OF ACCELERATION PRIMARY CONT. EL 196.67 FT 3.9A-53 ARS OF ACCELERATION PRIMARY CONT. EL 196.67 FT 3.9A-54 ARS OF ACCELERATION PRIMARY CONT. EL 196.67 FT 3.9A-55 ARS OF ACCELERATION PRIMARY CONT. EL 196.67 FT 3.9A-56 ARS OF ACCELERATION SHIELD WALL EL 315.09 FT 3.9A-57 ARS OF ACCELERATION SHIELD WALL EL 315.09 FT 3.9A-58 ARS OF ACCELERATION SHIELD WALL EL 315.09 FT 3.9A-59 ARS OF ACCELERATION SHIELD WALL EL 315.09 FT 3.9A-60 ARS OF ACCELERATION SHIELD WALL EL 315.09 FT 3.9A-61 ARS OF ACCELERATION SHIELD WALL EL 315.09 FT 3.9A-62 ARS OF ACCELERATION RPV SHELL EL 332.70 FT
NMP Unit 2 USAR LIST OF FIGURES Figure Number Title Chapter 03 3-xxxiii Rev. 25, October 2022 3.9A-63 ARS OF ACCELERATION RPV SHELL EL 332.70 FT 3.9A-64 ARS OF ACCELERATION RPV SHELL EL 332.70 FT 3.9A-65 ARS OF ACCELERATION RPV SHELL EL 332.70 FT 3.9A-66 ARS OF ACCELERATION RPV SHELL EL 332.70 FT 3.9A-67 ARS OF ACCELERATION RPV SHELL EL 332.70 FT 3.9B-1 DELETED 3.9B-2 REACTOR INTERNALS FLOW PATHS FOLLOWING A POSTULATED RECIRCULATION LINE BREAK 3.9B-3 FUEL SUPPORT PIECES 3.9B-4 JET PUMP 3.9B-5 PRESSURE NODES USED FOR DEPRESSURIZATION ANALYSIS