6 to Updated Final Safety Analysis Report, Chapter 1, Introduction and General Description of Plant

ML21305A105
Person / Time
Site:	Diablo Canyon
Issue date:	10/11/2021
From:	Pacific Gas & Electric Co
To:	Office of Nuclear Reactor Regulation
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ML21306A142	List: DCL-21-074, 6 to Updated Final Safety Analysis Report, Figure 3.2-4, Sheet 1 of 16, Drawing 102004-3, Turbine Steam Supply System ML21305A089 ML21305A090 ML21305A091 ML21305A092 ML21305A093 ML21305A094 ML21305A095 ML21305A096 ML21305A097 ML21305A098 ML21305A099 ML21305A101 ML21305A102 ML21305A103 ML21305A104 ML21305A105 ML21305A106 ML21305A112 ML21305A113 ML21305A114 ML21305A115 ML21305A116 ML21305A117 ML21305A118 ML21305A119 ML21305A120 ML21305A121 ML21305A122 ML21305A123 ML21305A124 ML21305A125 ML21305A126 ML21305A127 ML21305A128 ML21305A129 ML21305A130 ML21305A131 ML21305A132 ML21305A133 ML21305A134 ML21305A135 ML21305A136 ML21305A137 ML21305A138 ML21305A139 ML21305A140 ML21305A141 ML21305A142 ML21305A143 ... further results
References
DCL-21-074
Download: ML21305A105 (102)
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Text

Diablo Canyon Power Plant Units 1 and 2 Final Safety Analysis Report Update Revision 26 September 2021 Docket No. 50-275 Docket No. 50-323

DIABLO CANYON POWER PLANT UNITS 1 AND 2 FSAR UPDATE CONTENTS Chapter 1 - INTRODUCTION AND GENERAL DESCRIPTION OF PLANT 1.1 Introduction 1.2 General Plant Description 1.3 Comparison Tables 1.4 Identification of Agents and Contractors 1.5 Requirements for Further Technical Information 1.6 Material Incorporated by Reference Tables for Chapter 1 Figures for Chapter 1 Chapter 2 - SITE CHARACTERISTICS 2.1 Geography and Demography 2.2 Nearby Industrial, Transportation, and Military Facilities 2.3 Meteorology 2.4 Hydrologic Engineering 2.5 Geology and Seismology Tables for Chapter 2 Figures for Chapter 2 Chapter 3 - DESIGN OF STRUCTURES, COMPONENTS, EQUIPMENT, AND SYSTEMS 3.1 Conformance with AEC General Design Criteria 3.2 Classification of Structures, Systems, and Components 3.3 Wind and Tornado Loadings 3.4 Water Level (Flood) Design 3.5 Missile Protection 3.6 Protection Against Dynamic Effects Associated with the Postulated Rupture of Piping 3.7 Seismic Design 3.8 Design of PG&E Design Class I Structures 3.9 Mechanical Systems and Components 3.10 Seismic Design of PG&E Design Class I Instrumentation, HVAC, and Electrical Equipment 3.11 Environmental Design of Mechanical and Electrical Equipment Tables for Chapter 3 Figures for Chapter 3 Appendices for Chapter 3 i Revision 26 September 2021

DIABLO CANYON POWER PLANT UNITS 1 AND 2 FSAR UPDATE CONTENTS Chapter 4 - REACTOR 4.1 Summary Description 4.2 Mechanical Design 4.3 Nuclear Design 4.4 Thermal and Hydraulic Design Tables for Chapter 4 Figures for Chapter 4 Chapter 5 - REACTOR COOLANT SYSTEM 5.1 Summary Description 5.2 Integrity of the Reactor Coolant Pressure Boundary 5.3 Thermal Hydraulic System Design 5.4 Reactor Pressure Vessel and Appurtenances 5.5 Component and Subsystem Design 5.6 Instrumentation Requirements Tables for Chapter 5 Figures for Chapter 5 Chapter 6 - ENGINEERED SAFETY FEATURES 6.1 General 6.2 Containment Systems 6.3 Emergency Core Cooling System 6.4 Habitability Systems 6.5 Auxiliary Feedwater System Tables for Chapter 6 Figures for Chapter 6 Appendices for Chapter 6 Chapter 7 - INSTRUMENTATION AND CONTROLS 7.1 Introduction 7.2 Reactor Trip System 7.3 Engineered Safety Features Actuation System 7.4 Systems Required for Safe Shutdown 7.5 Safety-Related Display Instrumentation 7.6 All Other Instrumentation Systems Required for Safety 7.7 Control Systems Not Required for Safety ii Revision 26 September 2021

DIABLO CANYON POWER PLANT UNITS 1 AND 2 FSAR UPDATE CONTENTS Chapter 7 (continued)

Tables for Chapter 7 Figures for Chapter 7 Chapter 8 - ELECTRIC POWER 8.1 Introduction 8.2 Offsite Power System 8.3 Onsite Power Systems Tables for Chapter 8 Figures for Chapter 8 Appendices for Chapter 8 Chapter 9 - AUXILIARY SYSTEMS 9.1 Fuel Storage and Handling 9.2 Water Systems 9.3 Process Auxiliaries 9.4 Heating, Ventilation, and Air-Conditioning (HVAC) Systems 9.5 Other Auxiliary Systems Tables for Chapter 9 Figures for Chapter 9 Appendices for Chapter 9 Chapter 10 - STEAM AND POWER CONVERSION SYSTEM 10.1 Summary Description 10.2 Turbine-Generator 10.3 Main Steam System 10.4 Other Features of Steam and Power Conversion System Tables for Chapter 10 Figures for Chapter 10 Chapter 11 - RADIOACTIVE WASTE MANAGEMENT 11 Radioactive Waste Management 11.1 Source Terms 11.2 Liquid RadWaste System 11.3 Gaseous RadWaste System 11.4 Process and Effluent Radiological Monitoring System iii Revision 26 September 2021

DIABLO CANYON POWER PLANT UNITS 1 AND 2 FSAR UPDATE CONTENTS Chapter 11 (continued) 11.5 Solid RadWaste System 11.6 Offsite Radiological Monitoring Program Tables for Chapter 11 Figures for Chapter 11 Chapter 12 - RADIATION PROTECTION 12.1 Radiation Shielding 12.2 Ventilation 12.3 Radiation Protection Program Tables for Chapter 12 Figures for Chapter 12 Chapter 13 - CONDUCT OF OPERATIONS 13.1 Organizational Structure 13.2 Training Program 13.3 Emergency Planning 13.4 Review and Audit 13.5 Plant Procedures and Programs 13.6 Plant Records 13.7 Physical Security Tables for Chapter 13 Figures for Chapter 13 Chapter 14 - INITIAL TESTS AND OPERATION 14.1 Test Program 14.2 Augmentation of Applicant's Staff for Initial Tests and Operation 14.3 Postcommercial Operational Test Program Tables for Chapter 14 Figures for Chapter 14 iv Revision 26 September 2021

DIABLO CANYON POWER PLANT UNITS 1 AND 2 FSAR UPDATE CONTENTS Chapter 15 - ACCIDENT ANALYSES 15 Accident Analyses 15.1 Condition I - Normal Operation and Operational Transients (Initial Conditions) 15.2 Condition II - Faults of Moderate Frequency 15.3 Condition III - Infrequent Faults 15.4 Condition IV - Limiting Faults 15.5 Radiological Consequences of Plant Accidents Tables for Chapter 15 Figures for Chapter 15 Chapter 16 - TECHNICAL SPECIFICATIONS AND EQUIPMENT CONTROL GUIDELINES 16.1 Technical Specifications and Equipment Control Guidelines Table for Chapter 16 Chapter 17 - QUALITY ASSURANCE 17.0 Quality Assurance Program 17.1 Organization 17.2 Quality Assurance Program 17.3 Design Control 17.4 Procurement Document Control 17.5 Instructions, Procedures, and Drawings 17.6 Document Control 17.7 Control of Purchased Material, Equipment, and Services 17.8 Identification and Control of Materials, Parts, and Components 17.9 Special Processes 17.10 Inspection 17.11 Test Control 17.12 Control of Measuring and Test Equipment 17.13 Handling, Storage, and Shipping 17.14 Inspection, Test, and Operating Status 17.15 Control of Nonconforming Conditions 17.16 Corrective Action 17.17 Quality Assurance Records 17.18 Audits 17.19 References v Revision 26 September 2021

DIABLO CANYON POWER PLANT UNITS 1 AND 2 FSAR UPDATE CONTENTS Chapter 17 (continued)

Table for Chapter 17 Figures for Chapter 17 vi Revision 26 September 2021

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CONTENTS Table 2.3-17 22 Table 2.3-71 22 Table 2.3-18 22 Table 2.3-72 22 i thru vi 26 Table 2.3-19 22 Table 2.3-73 22 Table 2.3-20 22 Table 2.3-74 22 INDEX Table 2.3-21 22 Table 2.3-75 22 Removed in Rev 20 Table 2.3-22 22 Table 2.3-76 22 Table 2.3-23 22 Table 2.3-77 22 CHAPTER 1 Table 2.3-24 22 Table 2.3-78 22 Table 2.3-25 22 Table 2.3-79 22 i thru v 24 Table 2.3-26 22 Table 2.3-80 22 1.1-1 thru 1.1-3 24 Table 2.3-27 22 Table 2.3-81 22 1.2-1 thru 1.2-10 24 Table 2.3-28 22 Table 2.3-82 22 1.3-1 23 Table 2.3-29 22 Table 2.3-83 22 1.4-1 thru 1.4-3 23 Table 2.3-30 22 Table 2.3-84 22 1.5-1 23 Table 2.3-31 22 Table 2.3-85 22 1.6-1 thru 1.6-12 26 Table 2.3-32 22 Table 2.3-86 22 Table 1.3-1 -4 Sheets 23 Table 2.3-33 22 Table 2.3-87 22 Table 1.3-2 -4 Sheets 23 Table 2.3-34 22 Table 2.3-88 22 Table 1.4-1 -3 Sheets 23 Table 2.3-35 22 Table 2.3-89 22 Table 1.4-2 -3 Sheets 23 Table 2.3-36 22 Table 2.3-90 22 Table 1.4-3 -3 Sheets 23 Table 2.3-37 22 Table 2.3-91 22 Table 1.5-1 -3 Sheets 23 Table 2.3-38 22 Table 2.3-92 22 Table 1.6-1 -28 Sheets 24 Table 2.3-39 22 Table 2.3-93 22 Figure 1.2-1 18 Table 2.3-40 22 Table 2.3-94 22 Figure 1.2-2 11A Table 2.3-41 -25 Sheets 22 Table 2.3-95 22 Table 2.3-42 22 Table 2.3-96 22 CHAPTER 2 Table 2.3-43 22 Table 2.3-97 22 Table 2.3-44 22 Table 2.3-98 22 i thru xx 25 Table 2.3-45 22 Table 2.3-99 22 2.1-1 thru 2.1-8 24 Table 2.3-46 22 Table 2.3-100 22 2.2-1 thru 2.2-5 24 Table 2.3-47 22 Table 2.3-101 22 2.3-1 thru 2.3-44 24 Table 2.3-48 22 Table 2.3-102 22 2.4-1 thru 2.4-24 24 Table 2.3-49 22 Table 2.3-103 22 2.5-1 thru 2.5-87 25 Table 2.3-50 22 Table 2.3-104 22 Table 2.1-1 22 Table 2.3-51 22 Table 2.3-105 22 Table 2.1-2 22 Table 2.3-52 22 Table 2.3-106 22 Table 2.1-3 22 Table 2.3-53 22 Table 2.3-107 22 Table 2.1-4 22 Table 2.3-54 22 Table 2.3-108 22 Table 2.1-5 22 Table 2.3-55 22 Table 2.3-109 22 Table 2.3-1 22 Table 2.3-56 22 Table 2.3-110 22 Table 2.3-2 22 Table 2.3-57 22 Table 2.3-111 22 Table 2.3-3 22 Table 2.3-58 22 Table 2.3-112 22 Table 2.3-4 22 Table 2.3-59 22 Table 2.3-113 22 Table 2.3-6 22 Table 2.3-60 22 Table 2.3-114 22 Table 2.3-7 22 Table 2.3-61 22 Table 2.3-115 22 Table 2.3-8 22 Table 2.3-62 22 Table 2.3-116 22 Table 2.3-9 22 Table 2.3-63 22 Table 2.3-117 22 Table 2.3-10 22 Table 2.3-64 22 Table 2.3-118 22 Table 2.3-11 22 Table 2.3-65 22 Table 2.3-119 22 Table 2.3-12 22 Table 2.3-66 22 Table 2.3-120 22 Table 2.3-13 22 Table 2.3-67 22 Table 2.3-121 22 Table 2.3-14 22 Table 2.3-68 22 Table 2.3-122 22 Table 2.3-15 22 Table 2.3-69 22 Table 2.3-123 22 Table 2.3-16 22 Table 2.3-70 22 Table 2.3-124 22 1 Revision 26 September 2021

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Table 2.3-125 22 Figure 2.5-2 11 Table 3.2-3 -60 Sheets 25 Table 2.3-126 22 Figure 2.5-3 11 Table 3.2 2 Sheets 24 Table 2.3-127 22 Figure 2.5-4 11 Table 3.3-1 23 Table 2.3-128 22 Figure 2.5-5 -2 Sheets 11 Table 3.3-2 -4 Sheets 23 Table 2.3-129 22 Figure 2.5-6 11 Table 3.3-3 -3 Sheets 23 Table 2.3-130 22 Figure 2.5-7 11 Table 3.3-4 -2 Sheets 23 Table 2.3-131 22 Figure 2.5-8 11 Table 3.3-5 -2 Sheets 23 Table 2.3-132 22 Figure 2.5-9 11 Table 3.3-6 23 Table 2.3-133 22 Figure 2.5-10 11 Table 3.5-2 11 Table 2.3-134 22 Figure 2.5-11 11 Table 3.5-3 11 Table 2.3-135 22 Figure 2.5-12 11 Table 3.5-4 11 Table 2.3-136 22 Figure 2.5-13 11 Table 3.5-5 22 Table 2.3-137 22 Figure 2.5-14 11 Table 3.5-6 11 Table 2.3-138 22 Figure 2.5-15 11 Table 3.6-1 -9 Sheets 24 Table 2.3-139 22 Figure 2.5-16 11 Table 3.6-2 -3 Sheets 24 Table 2.3-141 22 Figure 2.5-17 11 Table 3.6-6 11 Table 2.3-142 22 Figure 2.5-18 11 Table 3.7-1 11 Table 2.3-144 22 Figure 2.5-19 11 Table 3.7-1A 11 Table 2.3-145 24 Figure 2.5-20 11 Table 3.7-1B 11 Table 2.3-145A 24 Figure 2.5-21 11 Table 3.7-1C 11 Table 2.3-145B 24 Figure 2.5-22 11 Table 3.7-2 11 Table 2.3-146 24 Figure 2.5-23 11 Table 3.7-3 11 Table 2.3-146A 24 Figure 2.5-24 11 Table 3.7-4 11 Table 2.3-147 24 Figure 2.5-25 11 Table 3.7-5 11 Table 2.3-148 24 Figure 2.5-26 11 Table 3.7-6 11 Table 2.3-149 24 Figure 2.5-27 11 Table 3.7-7 11 Table 2.4-1 22 Figure 2.5-28 11 Table 3.7-8 11 Table 2.5-1 -43 Sheets 17 Figure 2.5-29 11 Table 3.7-8A 11 Table 2.5-2 -2 Sheets 11 Figure 2.5-30 11 Table 3.7-8B 11 Table 2.5-3 -2 Sheets 11 Figure 2.5-31 11 Table 3.7-8C 22 Figure 2.1-1 22 Figure 2.5-32 11 Table 3.7-8D 22 Figure 2.1-2 11 Figure 2.5-33 21 Table 3.7-8E 11 Figure 2.1-3 22 Figure 2.5-34 21 Table 3.7-8F 11 Figure 2.1-4 22 Figure 2.5-35 23 Table 3.7-8G 11 Figure 2.1-5 22 Figure 2.5-36 21 Table 3.7-8H 11 Figure 2.1-6 22 Table 3.7-8I 11 Figure 2.1-7 22 CHAPTER 3 Table 3.7-8J 11 Figure 2.1-8 22 Table 3.7-8K 11 Figure 2.1-9 22 i thru xlii 25 Table 3.7-8L -2 Sheets 21 Figure 2.1-14 22 3.1-1 thru 3.1-48 24 Table 3.7-8M -2 Sheets 21 Figure 2.1-15 22 3.2-1 thru 3.2-17 24 Table 3.7-8N -2 Sheets 21 Figure 2.3-1 23 3.3-1 thru 3.3-33 26 Table 3.7-8O 11 Figure 2.3-2 23 3.4-1 thru 3.4-4 24 Table 3.7-8P 23 Figure 2.3-3 11 3.5-1 thru 3.5-17 25 Table 3.7-9 22 Figure 2.3-4 20 3.6-1 thru 3.6-30 24 Table 3.7-10 22 Figure 2.3-5 24 3.7-1 thru 3.7-52 25 Table 3.7-11 11 Figure 2.4-1 -2 Sheets 11 3.8-1 thru 3.8-97 26 Table 3.7-11A 11 Figure 2.4-2 11 3.9-1 thru 3.9-39 24 Table 3.7-11B 11 Figure 2.4-3 11 3.10-1 thru 3.10-40 24 Table 3.7-12 11 Figure 2.4-4 -3 Sheets 11 3.11-1 thru 3.11-13 25 Table 3.7-13 11 Figure 2.4-5 -3 Sheets 11 Table 3.1-1 -2 Sheets 24 Table 3.7-14 11 Figure 2.4-6 -2 Sheets 11 Table 3.1-2 -6 Sheets 23 Table 3.7-15 11 Figure 2.4-9 11 Table 3.2-1 -2 Sheets 22 Table 3.7-16 11 Figure 2.5-1 11 Table 3.2-2 -4 Sheets 25 Table 3.7-17 11 2 Revision 26 September 2021

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Table 3.7-18 11 Table 3.9-4 -3 Sheets 22 Figure 3.7-3 11 Table 3.7-19 11 Table 3.9-5 -2 Sheets 22 Figure 3.7-4 11 Table 3.7-20 11 Table 3.9-6 -3 Sheets 22 Figure 3.7-4A 11 Table 3.7-21 11 Table 3.9-7 -2 Sheets 22 Figure 3.7-4B 11 Table 3.7-22 22 Table 3.9-8 -3 Sheets 22 Figure 3.7-4C 11 Table 3.7-23 11 Table 3.9-9 -25 Sheets 24 Figure 3.7-4D 11 Table 3.7-23A -2 Sheets 11 Table 3.9-10 11 Figure 3.7-4E 11 Table 3.7-23B 11 Table 3.9-11 -3 Sheets 24 Figure 3.7-4F 11 Table 3.7-23C -2 Sheets 11 Table 3.9-12 -5 Sheets 22 Figure 3.7-4G 11 Table 3.7-23D 11 Table 3.10-1 -2 Sheets 23 Figure 3.7-4H 11 Table 3.7-23E 22 Table 3.10-2 -4 Sheets 24 Figure 3.7-4I 11 Table 3.7-23F 22 Table 3.10-3 -34 Sheets 24 Figure 3.7-4J 11 Table 3.7-23G 11 Figure 3.3-1 13 Figure 3.7-4K 11 Table 3.7-23H 11 Figure 3.3-2 13 Figure 3.7-4L 11A Table 3.7-23I 11 Figure 3.3-3 11 Figure 3.7-4M 11A Table 3.7-23J 11 Figure 3.3-4 -2 Sheets 11 Figure 3.7-4N 11 Table 3.7-24 19 Figure 3.5-1 20 Figure 3.7-4O 11 Table 3.8-1 -2 Sheets 23 Figure 3.5-2 11 Figure 3.7-4P 11 Table 3.8-2 -5 Sheets 23 Figure 3.6-1 11 Figure 3.7-4Q 11 Table 3.8-3 -10 Sheets 23 Figure 3.6-3 11 Figure 3.7-4R 11 Table 3.8-4 11 Figure 3.6-3A 11 Figure 3.7-4S 11A Table 3.8-5 -3 Sheets 11 Figure 3.6-3B 11 Figure 3.7-4T 11 Table 3.8-5A 11 Figure 3.6-3C 11 Figure 3.7-5 11 Table 3.8-5B 12 Figure 3.6-4 12 Figure 3.7-5A 11 Table 3.8-6 -3 Sheets 23 Figure 3.6-16 11 Figure 3.7-5B 11 Table 3.8-6A 21 Figure 3.5-17 11 Figure 3.7-5C 11 Table 3.8-6B 11 Figure 3.6-18 11 Figure 3.7-5D 11 Table 3.8-7 22 Figure 3.6-19 11 Figure 3.7-5E 11 Table 3.8-8 11 Figure 3.6-20 11 Figure 3.7-6 11 Table 3.8-9 23 Figure 3.6-21 11 Figure 3.7-7 11 Table 3.8-10 11 Figure 3.6-22 11 Figure 3.7-7A 21 Table 3.8-11 11 Figure 3.6-23 11 Figure 3.7-8 11 Table 3.8-12 11 Figure 3.6-24 12 Figure 3.7-9 11 Table 3.8-13 11 Figure 3.6-25 11 Figure 3.7-10 11 Table 3.8-14 11 Figure 3.6-26 22 Figure 3.7-11 11 Table 3.8-15 11 Figure 3.6-28 22 Figure 3.7-12 11 Table 3.8-16 11 Figure 3.6-29 22 Figure 3.7-12A 11 Table 3.8-17 11 Figure 3.6-30 22 Figure 3.7-12B 11 Table 3.8-18 11 Figure 3.6-31 11 Figure 3.7-12C 11 Table 3.8-19 11 Figure 3.6-32 24 Figure 3.7-12D 11 Table 3.8-20 23 Figure 3.6-33 11 Figure 3.7-12E 11 Table 3.8-21 11 Figure 3.6-34 11 Figure 3.7-12F 11 Table 3.8-22 11 Figure 3.6-35 11 Figure 3.7-12G 11 Table 3.8-23 11 Figure 3.6-36 11 Figure 3.7-12H 11 Table 3.8-23A 11 Figure 3.6-37 11 Figure 3.7-12I 11 Table 3.8-24 23 Figure 3.6-38 12 Figure 3.7-12J 11 Table 3.8-25 11 Figure 3.6-39 11 Figure 3.7-12K 11 Table 3.8-26 11 Figure 3.6-40 12 Figure 3.7-12L 11 Table 3.8-27 11 Figure 3.6-41 11 Figure 3.7-12M 11 Table 3.8-27A 11 Figure 3.6-42 12 Figure 3.7-12N 11 Table 3.8-28 11 Figure 3.6-43 22 Figure 3.7-12O 11 Table 3.9-1 -2 Sheets 22 Figure 3.6-44 22 Figure 3.7-12P 11 Table 3.9-2 -3 Sheets 22 Figure 3.7-1 11 Figure 3.7-12Q 11 Table 3.9-3 -2 Sheets 23 Figure 3.7-2 11 Figure 3.7-12R 11 3 Revision 26 September 2021

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Figure 3.7-12S 11 Figure 3.7-26 11 Figure 3.8-71 11 Figure 3.7-13 11 Figure 3.7-27 11 Figure 3.8-75 11 Figure 3.7-13A 11 Figure 3.7-27A 20 Figure 3.8-76 11 Figure 3.7-13B 11 Figure 3.7-27B 20 Figure 3.8-77 11 Figure 3.7-14 11 Figure 3.7-27C 19 Figure 3.8-78 11 Figure 3.7-15 11 Figure 3.7-27D 20 Figure 3.8-79 11 Figure 3.7-15A 11 Figure 3.7-27E 20 Figure 3.8-80 11 Figure 3.7-15B 11 Figure 3.7-27F 23 Figure 3.8-81 11 Figure 3.7-15C 11 Figure 3.7-28 11 Figure 3.8-82 11 Figure 3.7-15D 11 Figure 3.7-29 11 Figure 3.9-1 11 Figure 3.7-15E 11 Figure 3.8-1 23 Figure 3.9-2 11 Figure 3.7-15F 11 Figure 3.8-2 23 Figure 3.9-3 11 Figure 3.7-15G 22 Figure 3.8-3 23 Figure 3.9-4 11 Figure 3.7-15H 11 Figure 3.8-4 23 Appendix 3.1A-1 thru 41 24 Figure 3.7-15I 11 Figure 3.8-5 23 Figure 3.7-16 11 Figure 3.8-6 23 CHAPTER 4 Figure 3.7-17 11 Figure 3.8-7 23 Figure 3.7-18 11 Figure 3.8-8 23 i thru xi 24 Figure 3.7-19 11 Figure 3.8-9 23 4.1-1 thru 4.1-3 24 Figure 3.7-20 11 Figure 3.8-10 23 4.2-1 thru 4.2-60 24 Figure 3.7-21 11 Figure 3.8-11 23 4.3-1 thru 4.3-40 24 Figure 3.7-21A 11 Figure 3.8-12 23 4.4-1 thru 4.4-42 24 Figure 3.7-21B 11 Figure 3.8-13 23 Table 4.1-1 -7 Sheets 23 Figure 3.7-21C 11 Figure 3.8-14 23 Table 4.1-2 -3 Sheets 23 Figure 3.7-21D 11 Figure 3.8-15 23 Table 4.1-3 12 Figure 3.7-21E 11 Figure 3.8-21 -2 Sheets 11 Table 4.3-1 -2 Sheets 23 Figure 3.7-21F 11 Figure 3.8-22 -2 Sheets 11 Table 4.3-2 23 Figure 3.7-21G 11 Figure 3.8-27 11 Table 4.3-3 23 Figure 3.7-21H 11 Figure 3.8-28 11 Table 4.3-4 23 Figure 3.7-21I 11 Figure 3.8-29 11 Table 4.3-5 11 Figure 3.7-22 11 Figure 3.8-30 11 Table 4.3-6 11 Figure 3.7-23 11 Figure 3.8-31 24 Table 4.3-7 11 Figure 3.7-24 11 Figure 3.8-32 11 Table 4.3-8 11 Figure 3.7-25 11 Figure 3.8-33 11 Table 4.3-9 11 Figure 3.7-25A 11 Figure 3.8-34 11 Table 4.3-10 11 Figure 3.7-25B 11 Figure 3.8-35 11 Table 4.3-11 23 Figure 3.7-25C 11 Figure 3.8-37 11 Table 4.4-1 23 Figure 3.7-25D 11 Figure 3.8-38 11 Table 4.4-2 24 Figure 3.7-25E 11 Figure 3.8-39 11 Table 4.4-3 23 Figure 3.7-25F 11 Figure 3.8-40 11 Table 4.4-4 23 Figure 3.7-25G 11 Figure 3.8-41 11 Figure 4.2-4 24 Figure 3.7-25H 11 Figure 3.8-42 11 Figure 4.2-5 24 Figure 3.7-25I 11 Figure 3.8-43 11 Figure 4.2-6 23 Figure 3.7-25J 11 Figure 3.8-44 11 Figure 4.2-7 23 Figure 3.7-25K 11 Figure 3.8-60 11 Figure 4.2-8 23 Figure 3.7-25L 11 Figure 3.8-61 11 Figure 4.2-9 11 Figure 3.7-25M 11 Figure 3.8-62 11 Figure 4.2-10 11 Figure 3.7-25N 11 Figure 3.8-63 11 Figure 4.2-11 11 Figure 3.7-25O 11 Figure 3.8-64 11 Figure 4.2-12 11 Figure 3.7-25P 11 Figure 3.8-66 11 Figure 4.2-13 11 Figure 3.7-25Q 11 Figure 3.8-67 11 Figure 4.2-14 11 Figure 3.7-25R 11 Figure 3.8-68 11 Figure 4.2-15 24 Figure 3.7-25S 11 Figure 3.8-69 11 Figure 4.2-25 24 Figure 3.7-25T 11 Figure 3.8-70 11 Figure 4.2-26 24 4 Revision 26 September 2021

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Figure 4.3-1 11 Figure 4.4-12 24 Table 5.5-2 23 Figure 4.3-2 24 Figure 4.4-13 24 Table 5.5-3 -2 Sheets 24 Figure 4.3-3 11 Figure 4.4-14 24 Table 5.5-5 -2 Sheets 23 Figure 4.3-4 24 Figure 4.4-15 24 Table 5.5-6 24 Figure 4.3-5 24 Figure 4.4-16 11 Table 5.5-7 23 Figure 4.3-6 11 Figure 4.4-17 11 Table 5.5-8 14 Figure 4.3-7 11 Figure 4.4-18 24 Table 5.5-9 23 Figure 4.3-8 11 Figure 4.4-19 24 Table 5.5-10 -2 Sheets 12 Figure 4.3-9 11 Figure 4.4-20 24 Table 5.5-11 18 Figure 4.3-10 11 Table 5.5-12 12 Figure 4.3-11 11 CHAPTER 5 Table 5.5-13 23 Figure 4.3-12 11 Table 5.5-14 11 Figure 4.3-13 11 i thru xix 25 Table 5.5-15 11 Figure 4.3-14 11 5.1-1 thru 5.1-28 26 Table 5.5-16 23 Figure 4.3-15 24 5.2-1 thru 5.2-90 24 Table 5.5-17 24 Figure 4.3-16 24 5.3-1 thru 5.3-2 23 Figure 5.1-2 22 Figure 4.3-17 24 5.4-1 thru 5.4-7 24 Figure 5.1-2a 22 Figure 4.3-21 24 5.5-1 thru 5.5-55 25 Figure 5.2-1 11 Figure 4.3-22 24 5.6-1 thru 5.6-4 23 Figure 5.2-2 24 Figure 4.3-23 11 Table 5.0-1 -4 Sheets 24 Figure 5.2-2A 24 Figure 4.3-25 24 Table 5.1-1 -2 Sheets 22 Figure 5.2-3 19 Figure 4.3-26 24 Table 5.2-1 -2 Sheets 23 Figure 5.2-4 11 Figure 4.3-27 24 Table 5.2-2 -2 Sheets 24 Figure 5.2-7 21 Figure 4.3-28 11 Table 5.2-3 20 Figure 5.2-8 11 Figure 4.3-29 11 Table 5.2-4 -2 Sheets 23 Figure 5.2-9 11 Figure 4.3-30 11 Table 5.2-5 -2 Sheets 24 Figure 5.2-10 11 Figure 4.3-31 11 Table 5.2-6 -2 Sheets 24 Figure 5.2-11 11 Figure 4.3-32 11 Table 5.2-6a 24 Figure 5.2-12 11 Figure 4.3-33 11 Table 5.2-7 24 Figure 5.2-13 11 Figure 4.3-34 11 Table 5.2-8 -2 Sheets 23 Figure 5.2-14 19 Figure 4.3-35 11 Table 5.2-8a 23 Figure 5.2-15 11 Figure 4.3-36 11 Table 5.2-9 -3 Sheets 23 Figure 5.2-16 11 Figure 4.3-37 24 Table 5.2-10 11A Figure 5.2-17 11 Figure 4.3-38 24 Table 5.2-11 23 Figure 5.2-18 11 Figure 4.3-39 24 Table 5.2-12 -2 Sheets 23 Figure 5.2-19 11 Figure 4.3-40 24 Table 5.2-13 19 Figure 5.3-1 21 Figure 4.3-41 24 Table 5.2-14 19 Figure 5.4-1 20 Figure 4.3-42 24 Table 5.2-15 12 Figure 5.4-2 20 Figure 4.3-43 24 Table 5.2-16 -4 Sheets 23 Figure 5.4-3 22 Figure 4.3-44 11 Table 5.2-17A 23 Figure 5.5-1 11 Figure 4.3-45 11 Table 5.2-17B 23 Figure 5.5-2 11 Figure 4.3-46 11 Table 5.2-18A 23 Figure 5.5-3 11 Figure 4.3-47 11 Table 5.2-18B 21 Figure 5.5-4 19 Figure 4.4-1 24 Table 5.2-19A 15 Figure 5.5-8 11 Figure 4.4-2 24 Table 5.2-19B 23 Figure 5.5-9 11 Figure 4.4-3 24 Table 5.2-20A 15 Figure 5.5-10 19 Figure 4.4-4 24 Table 5.2-20B 15 Figure 5.5-11 18 Figure 4.4-5 24 Table 5.2-21A 20 Figure 5.5-12 11 Figure 4.4-6 24 Table 5.2-21B 20 Figure 5.5-14 20 Figure 4.4-7 24 Table 5.2-22 21 Figure 5.5-18 19 Figure 4.4-8 24 Table 5.2-23 16 Figure 4.4-9 24 Table 5.4-1 24 CHAPTER 6 Figure 4.4-10 24 Table 5.4-2 23 Figure 4.4-11 24 Table 5.5-1 23 i thru xxiii 25 5 Revision 26 September 2021

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6.1-1 thru 6.1-5 24 Figure 6.2-12 11 Figure 6.2-62 23 6.2-1 thru 6.2-114 25 Figure 6.2-13 22 Figure 6.2-63 23 6.3-1 thru 6.3-69 26 Figure 6.2-15 11 Figure 6.2-64 23 6.4-1 thru 6.4-15 25 Figure 6.2-16 12 Figure 6.2-65 23 6.5-1 thru 6.5-24 26 Figure 6.2-17 11 Figure 6.2-66 23 Table 6.1-1 -12 Sheets 24 Figure 6.2-18 -2 Sheets 11 Figure 6.2-67 23 Table 6.2-25 22 Figure 6.2-19, Sheet 1 24 Figure 6.2-68 23 Table 6.2-26 -3 Sheets 24 Figure 6.2-19, Sheet 2 26 Figure 6-2-69 23 Table 6.2-27 22 Figure 6.2-19, Sheet 3 26 Figure 6.2-70 23 Table 6.2-29 22 Figure 6.2-19, Sheet 4 24 Figure 6.2-71 23 Table 6.2-30 11 Figure 6.2-19, Sheet 5 26 Figure 6.2-72 23 Table 6.2-32 24 Figure 6.2-19, Sheet 5A 26 Figure 6.2-73 23 Table 6.2-33 24 Figure 6.2-19, Sheet 6 26 Figure 6.2-74 23 Table 6.2-34 24 Figure 6.2-19, Sheet 7 24 Figure 6.3-1 11 Table 6.2-35 24 Figure 6.2-19, Sheet 8 26 Figure 6.3-2 18 Table 6.2-37 11 Figure 6.2-19, Sheet 8A 26 Figure 6.3-3 11 Table 6.2-38 22 Figure 6.2-19, Sheet 9 26 Figure 6.3-4 22 Table 6.2-39 -24 Sheets 24 Figure 6.2-19, Sheet 10 24 Figure 6.3-5 20 Table 6.2-40 -2 Sheets 22 Figure 6.2-19, Sheet 11 24 Figure 6.5-3, Sheet 1 12 Table 6.2-41 14 Figure 6.2-19, Sheet 12 24 Figure 6.5-3, Sheet 2 20 Table 6.2-42 -2 Sheets 14 Figure 6.2-19, Sheet 13 26 Appendix 6.2D-1 thru 32 25 Table 6.2-43 24 Figure 6.2-19, Sheet 13A 26 Table 6.2D-1 23 Table 6.2-44 24 Figure 6.2-19, Sheet 14 24 Table 6.2D-2 18 Table 6.2-45 22 Figure 6.2-19, Sheet 15 24 Table 6.2D-3 -4 Sheets 23 Table 6.2-47 -2 Sheets 11 Figure 6.2-19, Sheet 16 24 Table 6.2D-4 23 Table 6.2-48 -2 Sheets 19 Figure 6.2-19, Sheet 17 24 Table 6.2D-5 23 Table 6.2-57 -2 Sheets 23 Figure 6.2-19, Sheet 18 24 Table 6.2D-6 -5 Sheets 24 Table 6.2-58 -2 Sheets 23 Figure 6.2-19, Sheet 19 24 Table 6.2D-7-5 Sheets 24 Table 6.2-59 -2 Sheets 23 Figure 6.2-19, Sheet 20 24 Table 6.2D-8 -2 Sheets 24 Table 6.2-60 -2 Sheets 23 Figure 6.2-19, Sheet 21 26 Table 6.2D-9 -3 Sheets 24 Table 6.2-61 -2 Sheets 23 Figure 6.2-19, Sheet 21A 26 Table 6.2D-10 24 Table 6.2-62 23 Figure 6.2-19, Sheet 22 24 Table 6.2D-11 23 Table 6.2-63 -3 Sheets 23 Figure 6.2-19, Sheet 23 24 Table 6.2D-12 23 Table 6.2-64 23 Figure 6.2-19, Sheet 24 24 Table 6.2D-13 23 Table 6.2-65 23 Figure 6.2-19, Sheet 25 24 Table 6.2D-15 24 Table 6.2-66 23 Figure 6.2-20 11 Table 6.2D-17 -2 Sheets 24 Table 6.2-67 23 Figure 6.2-21 11 Table 6.2D-18 18 Table 6.3-1 -3 Sheets 26 Figure 6.2-22 16 Table 6.2D-19 18 Table 6.3-2 12 Figure 6.2-23 11 Table 6.2D-20 22 Table 6.3-3 -2 Sheets 12 Figure 6.2-24 11 Table 6.2D-21 23 Table 6.3-5 -6 Sheets 24 Figure 6.2-25 14 Table 6.2D-22 25 Table 6.3-6 12 Figure 6.2-26 14 Table 6.2D-23 23 Table 6.3-7 -4 Sheets 25 Figure 6.2-27 14 Table 6.2D-24 23 Table 6.3-8 12 Figure 6.2-28 14 Figure 6.2D-1 23 Table 6.3-9 11 Figure 6.2-29 14 Figure 6.2D-2 23 Table 6.3-10 11 Figure 6.2-53 23 Figure 6.2D-3 18 Table 6.3-11 18 Figure 6.2-54 23 Figure 6.2D-4 22 Table 6.3-12 -2 Sheets 16 Figure 6.2-55 23 Figure 6.2D-5 18 Table 6.3-13 -3 Sheets 22 Figure 6.2-56 23 Figure 6.2D-6 24 Table 6.3-14 22 Figure 6.2-57 23 Figure 6.2D-7 24 Table 6.5-1 -2 Sheets 26 Figure 6.2-58 23 Figure 6.2D-8A 24 Table 6.5-2 -2 Sheets 26 Figure 6.2-59 23 Figure 6.2D-9 24 Table 6.5-3 22 Figure 6.2-60 23 Figure 6.2D-10 24 Figure 6.2-10 11 Figure 6.2-61 23 6 Revision 26 September 2021

DCPP UNITS 1 & 2 FSAR UPDATE LIST OF CURRENT PAGES Page No. Rev. Page No. Rev. Page No. Rev.

Table 8.3-8 -5 Sheets 12 Figure 9.1-2B 15 Table 8.3-9 11 Figure 9.1-4 19 Table 8.3-10 11 Figure 9.1-5 18 Table 8.3-11 12 Figure 9.1-6 19 CHAPTER 7 Table 8.3-12 23 Figure 9.1-7 19 Figure 8.1-2 22 Figure 9.1-8 11 i thru xvii 25 Figure 8.3-21 11 Figure 9.1-9 25 7.1-1 thru 7.1-9 24 Figure 8.3-22 11 Figure 9.1-10 11 7.2-1 thru 7.2-53 24 Figure 8.3-23 11 Figure 9.1-11 11 7.3-1 thru 7.3-32 24 Figure 8.3-24 11 Figure 9.1-12 11 7.4-1 thru 7.4-18 25 Figure 8.3-25 11 Figure 9.1-12A 11 7.5-1 thru 7.5-26 24 Figure 8.3-26 11 Figure 9.1-13 11 7.6-1 thru 7.6-12 24 Figure 8.3-27 11 Figure 9.1-14 11 7.7-1 thru 7.7-34 24 Figure 8.3-28 11 Figure 9.1-15 20 Table 7.1-1 -3 Sheets 22 Appendix 8.3B-1 thru 2 21 Figure 9.1-16 11 Table 7.2-1 -3 Sheets 20 Appendix 8.3C-1 thru 3 15 Figure 9.1-17 11 Table 7.2-2 -2 Sheets 12 Figure 9.1-18 11 Table 7.3-1 11 CHAPTER 9 Figure 9.1-19 19 Table 7.3-2 -2 Sheets 11 Figure 9.1-20 19 Table 7.3-3 -2 Sheets 23 i thru xv 25 Figure 9.1-21 19 Table 7.5-1 -4 Sheets 16 9.1-1 thru 9.1-69 25 Figure 9.1-24 19 Table 7.5-2 -4 Sheets 17 9.2-1 thru 9.2-64 26 Figure 9.2-2 12 Table 7.5-3 -8 Sheets 18 9.3-1 thru 9.3-100 26 Figure 9.2-3 12 Table 7.5-4 -2 Sheets 22 9.4-1 thru 9.4-91 25 Figure 9.3-5 11 Table 7.5-5 -2 Sheets 23 9.5-1 thru 9.5-34 25 Figure 9.4-4 20 Table 7.5-6 -14 Sheets 24 Table 9.1-1 -2 Sheets 22 Figure 9.4-5 11 Table 7.7-1 -2 Sheets 23 Table 9.1-2 -3 Sheets 16 Figure 9.4-6 16 Figure 7.2-2 22 Table 9.2-1 12 Figure 9.4-7 25 Figure 7.2-4 11 Table 9.2-2 21 Figure 9.4-11 11 Figure 7.2-5 11 Table 9.2-3 22 Figure 9.5-5 23 Figure 7.2-6 -2 Sheets 11 Table 9.2-4 20 Figure 7.5-1 19 Table 9.2-5 -2 Sheets 20 CHAPTER 10 Figure 7.5-1B 19 Table 9.2-6 15 Figure 7.5-2 12 Table 9.2-7 -3 Sheets 23 i thru vii 24 Figure 7.7-1 11 Table 9.2-9 -3 Sheets 23 10.1-1 thru 10.1-2 24 Figure 7.7-2 16 Table 9.3-1 -2 Sheets 26 10.2-1 thru 10.2-12 24 Figure 7.7-3 11 Table 9.3-2 11 10.3-1 thru 10.3-18 24 Figure 7.7-4 16 Table 9.3-5 22 10.4-1 thru 10.4-48 24 Figure 7.7-5 21 Table 9.3-6 -8 Sheets 25 Table 10.0-1 -5 Sheets 24 Figure 7.7-8 21 Table 9.3-7 -2 Sheets 20 Table 10.1-1 23 Figure 7.7-9 11 Table 9.3-8 14 Table 10.1-2 19 Table 9.4-1 -2 Sheets 23 Table 10.3-1 22 CHAPTER 8 Table 9.4-2 -5 Sheets 24 Table 10.3-2 23 Table 9.4-5 22 Table 10.4-1 22 i thru vii 25 Table 9.4-6 -2 Sheets 22 Figure 10.2-1 18 8.1-1 thru 8.1-6 24 Table 9.4-7 22 Figure 10.3-6 11 8.2-1 thru 8.2-16 26 Table 9.4-8 -3 Sheets 22 Figure 10.4-2 11 8.3-1 thru 8.3-93 24 Table 9.4-9 13 Figure 10.4-3 11 Table 8.1-1 -4 Sheets 24 Table 9.4-10 -2 Sheets 24 Table 8.3-1 -3 Sheets 25 Table 9.4-11 20 CHAPTER 11 Table 8.3-2 18 Table 9.4-12 22 Table 8.3-3 23 Table 9.5-2 11A i thru xxii 24 Table 8.3-4 23 Figure 9.1-2 22 11.1-1 thru 11.1-7 24 Table 8.3-5 23 Figure 9.1-2A 16 11.2-1 thru 11.2-28 24 7 Revision 26 September 2021

DCPP UNITS 1 & 2 FSAR UPDATE LIST OF CURRENT PAGES Page No. Rev. Page No. Rev. Page No. Rev.

11.3-1 thru 11.3-17 24 Table 11.2-18 23 Table 11.4-3 11 11.4-1 thru 11.4-28 24 Table 11.2-19 23 Table 11.5-1 23 11.5-1 thru 11.5-11 24 Table 11.2-20 23 Table 11.5-2 -2 Sheets 23 11.6-1 thru 11.6-5 24 Table 11.2-21 -2 Sheets 23 Table 11.5-4 23 Table 11.0-1 -4 Sheets 24 Table 11.2-22 23 Table 11.5-5 19 Table 11.1-1 24 Table 11.2-23 23 Table 11.6-4 -5 Sheets 23 Table 11.1-2 24 Table 11.2-24 -2 Sheets 23 Table 11.6-11 -2 Sheets 12 Table 11.1-2A 24 Table 11.2-25 -2 Sheets 23 Table 11.6-13 11 Table 11.1-3 24 Table 11.2-26 -2 Sheets 23 Table 11.6-14 11 Table 11.1-4 24 Table 11.3-1 -2 Sheets 22 Figure 11.1-1 23 Table 11.1-5 24 Table 11.3-2 23 Figure 11.2-2 23 Table 11.1-6 24 Table 11.3-3 -2 Sheets 23 Figure 11.2-3 23 Table 11.1-7 24 Table 11.3-4 23 Figure 11.2-4 11 Table 11.1-8 24 Table 11.3-5 23 Figure 11.2-5 11 Table 11.1-9 24 Table 11.3-6 23 Figure 11.2-6 23 Table 11.1-10 24 Table 11.3-7 23 Figure 11.2-7 23 Table 11.1-11 23 Table 11.3-8 23 Figure 11.2-8 23 Table 11.1-11A 24 Table 11.3-9 23 Figure 11.2-9 11 Table 11.1-12 24 Table 11.3-10 23 Figure 11.3-4 22 Table 11.1-13 23 Table 11.3-11 23 Figure 11.4-1 -2 Sheets 23 Table 11.1-14 23 Table 11.3-12 23 Figure 11.5-1 11 Table 11.1-15 23 Table 11.3-13 -2 Sheets 23 Figure 11.5-3 20 Table 11.1-16 23 Table 11.3-14 -2 Sheets 23 Figure 11.5-4 16 Table 11.1-17 23 Table 11.3-15 23 Figure 11.5-6 23 Table 11.1-18 23 Table 11.3-16 23 Figure 11.5-7 11 Table 11.1-19 23 Table 11.3-17 23 Figure 11.5-8 11 Table 11.1-20 23 Table 11.3-18 23 Figure 11.5-9 11 Table 11.1-21 23 Table 11.3-19 23 Figure 11.5-10 11 Table 11.1-22 23 Table 11.3-20 23 Figure 11.5-11 11 Table 11.1-23 23 Table 11.3-21 23 Figure 11.5-12 11 Table 11.1-24 23 Table 11.3-22 23 Table 11.1-25 23 Table 11.3-23 23 Table 11.1-26 23 Table 11.3-24 23 Table 11.1-27 23 Table 11.3-25 23 CHAPTER 12 Table 11.1-28 23 Table 11.3-26 23 Table 11.1-29 23 Table 11.3-27 23 i thru viii 24 Table 11.1-30 23 Table 11.3-28 23 12.1-1 thru 12.1-17 24 Table 11.1-31 23 Table 11.3-29 23 12.2-1 thru 12.2-12 24 Table 11.2-1 -2 Sheets 23 Table 11.3-30 23 12.3-1 thru 12.3-8 24 Table 11.2-2 23 Table 11.3-31 23 Table 12.0-1 23 Table 11.2-3 -2 Sheets 23 Table 11.3-32 23 Table 12.1-1 24 Table 11.2-4 -2 Sheets 23 Table 11.3-33 23 Table 12.1-2 20 Table 11.2-5 -4 Sheets 23 Table 11.3-34 23 Table 12.1-3 23 Table 11.2-6 -2 Sheets 23 Table 11.3-35 23 Table 12.1-4 23 Table 11.2-7 -2 Sheets 23 Table 11.3-36 23 Table 12.1-5 23 Table 11.2-8 -5 Sheets 24 Table 11.3-37 23 Table 12.1-6 23 Table 11.2-9 -5 Sheets 24 Table 11.3-38 23 Table 12.1-7 23 Table 11.2-10 -3 Sheets 24 Table 11.3-39 23 Table 12.1-8 23 Table 11.2-11 23 Table 11.3-40 23 Table 12.1-9 23 Table 11.2-13 23 Table 11.3-41 23 Table 12.1-10 23 Table 11.2-14 23 Table 11.3-42 23 Table 12.1-11 -2 Sheets 23 Table 11.2-15 23 Table 11.3-43 23 Table 12.1-12 23 Table 11.2-16 -2 Sheets 23 Table 11.3-44 23 Table 12.1-13 23 Table 11.2-17 23 Table 11.4-1 -6 Sheets 23 Table 12.1-14 23 8 Revision 26 September 2021

DCPP UNITS 1 & 2 FSAR UPDATE LIST OF CURRENT PAGES Page No. Rev. Page No. Rev. Page No. Rev.

Table 12.1-15 -2 Sheets 23 14.3-1 23 Table 15.5-42 24 Table 12.2-1 23 Table 14.1-1 -8 Sheets 23 Table 15.5-42A 24 Table 12.2-2 23 Table 14.1-2 -6 Sheets 23 Table 15.5-42B 24 Table 12.2-3 23 Figure 14.1-1 -5 Sheets 23 Table 15.5-47 24 Table 12.2-4 23 Table 15.5-47A 25 Table 12.2-5 23 CHAPTER 15 Table 15.5-47B 24 Table 12.2-6 23 Table 15.5-47C 24 Table 12.2-7 23 i thru xlv 26 Table 15.5-52 24 Table 12.2-8 23 15.1-1 thru 15.1-17 26 Table 15.5-52A 24 Table 12.2-9 23 15.2-1 thru 15.2-59 25 Table 15.5-52B 24 Table 12.2-10 23 15.3-1 thru 15.3-15 24 Table 15.5-64 24 Table 12.2-11 23 15.4-1 thru 15.4-75 26 Table 15.5-64A 24 Table 12.2-12 23 15.5-1 thru 15.5-94 24 Table 15.5-64B 24 Table 12.2-13 23 Table 15.0-1 -9 Sheets 24 Table 15.5-64C 24 Table 12.2-14 23 Table 15.1-1 22 Table 15/5-77 24 Table 12.2-15 23 Table 15.1-2 23 Table 15.5-78 24 Table 12.2-17 23 Table 15.1-4 -4 Sheets 26 Table 15.5-79 24 Table 12.2-18 -3 Sheets 23 Table 15.2-1 -9 Sheets 24 Table 15.5-80 24 Table 12.3-1 -3 Sheets 23 Table 15.3-3 23 Table 15.5-81 24 Table 12.3-2 23 Table 15.5-82 24 Table 12.3-3 23 Table 15.4.1.2-1A 26 Table 15.5-83 24 Figure 12.1-1 11 Table 15.4.1.2-1B 26 Figure 15.1-1 14 Figure 12.1-2 11 Table 15.4.1.2-2 26 Figure 15.1-2 11 Figure 12.1-3 11 Table 15.4.1.2-3 26 Figure 15.1-3 11 Figure 12.1-4 11 Table 15.4.1.2-4 26 Figure 15.1-4 11 Figure 12.1-5 11 Table 15.4.1.2-5 26 Figure 15.1-5 11 Figure 12.1-6 11 Table 15.4.1.2-6 26 Figure 15.1-7 22 Figure 12.1-7 11 Table 15.4.1.2-7 26 Figure 15.1-8 11 Figure 12.1-8 11 Table 15.4.1.3-1A 26 Figure 15.2.1-1 11 Figure 12.1-9 11 Table 15.4.1.3-1B 26 Figure 15.2.1-2 22 Figure 12.1-10 11 Table 15.4.1.3-2A 26 Figure 15.2.1-3 11 Figure 12.1-11 12 Table 15.4.1.3-2B 26 Figure 15.2.2-1 11 Figure 12.1-12 11 Table 15.4.1.3-3A 26 Figure 15.2.2-2 11 Table 15.4.1.3-3B 26 Figure 15.2.2-3 11 CHAPTER 13 Table 15.4.8 -5 Sheets 23 Figure 15.2.2-4 11 Table 15.4-10 23 Figure 15.2.2-5 11 i thru vi 25 Table 15.4-11 15 Figure 15.2.2-6 11 13.1-1 thru 13.1-8 25 Table 15.4-12 19 Figure 15.2.2-7 11 13.2-1 thru 13.2-7 23 Table 15.4-13A 20 Figure 15.2.3-1 11 13.3-1 23 Table 15.4-13B 20 Figure 15.2.3-2 11 13.4-1 23 Table 15.4-14 24 Figure 15.2.4-1 11 13.5-1 thru 13.5-8 25 Table 15.5-9 24 Figure 15.2.5-1 23 13.6-1 11 Table 15.5-9A 24 Figure 15.2.5-2 23 13.7-1 thru 13.7-2 23 Table 15.5-9B 24 Figure 15.2.5-3 23 Table 13.2-1 -5 Sheets 23 Table 15.5-23 24 Figure 15.2.5-4 23 Table 13.2-2 -2 Sheets 23 Table 15.5-23A 24 Figure 15.2.5-5 23 Figure 13.1-5 25 Table 15.5-23B 24 Figure 15.2.6-1 11 Figure 13.2-1 11 Table 15.5-23C 24 Figure 15.2.6-2 11 Table 15.5-23D 24 Figure 15.2.6-3 11 CHAPTER 14 Table 15.5-23E 24 Figure 15.2.6-4 11 Table 15.5-33 24 Figure 15.2.6-5 11 i thru iv 23 Table 15.5-34 24 Figure 15.2.7-1 11 14.1-1 thru 14.1-11 23 Table 15.5-34A 24 Figure 15.2.7-2 11 14.2-1 thru 14.2-6 23 Table 15.5-34B 24 Figure 15.2.7-3 11 9 Revision 26 September 2021

DCPP UNITS 1 & 2 FSAR UPDATE LIST OF CURRENT PAGES Page No. Rev. Page No. Rev. Page No. Rev.

Figure 15.2.7-4 11 Figure 15.4.1.3-8A 26 Figure 15.4.2-17 19 Figure 15.2.7-9 11 Figure 15.4.1.3-8B 26 Figure 15.4.2-18 19 Figure 15.2.7-10 22 Figure 15.4.1.3-9A 26 Figure 15.4.2-19 19 Figure 15.2.7-11 22 Figure 15.4.1.3-9B 26 Figure 15.4.2-20 19 Figure 15.2.7-12 11 Figure 15.4.1.3-10A 26 Figure 15.4.2-21 19 Figure 15.2.8-1 19 Figure 15.4.1.3-10B 26 Figure 15.4.2-22 23 Figure 15.2.8-2 19 Figure 15.4.1.3-11A 26 Figure 15.4.2-23 23 Figure 15.2.8-3 19 Figure 15.4.1.3-11B 26 Figure 15.4.2-24 23 Figure 15.2.9-1 22 Figure 15.4.1.3-12A 26 Figure 15.4.2-25 23 Figure 15.2.9-2 22 Figure 15.4.1.3-12B 26 Figure 15.4.2-26 23 Figure 15.2.9-3 22 Figure 15.4.1.3-13A 26 Figure 15.4.2-27 23 Figure 15.2.10-1 23 Figure 15.4.1.3-13B 26 Figure 15.4.3-1A 20 Figure 15.2.10-2 23 Figure 15.4.1.3-14A 26 Figure 15.4.3-1B 21 Figure 15.2.10-3 23 Figure 15.4.1.3-14B 26 Figure 15.4.3-2A 20 Figure 15.2.12-1 22 Figure 15.4.1.3-15A 26 Figure 15.4.3-2B 21 Figure 15.2.12-2 22 Figure 15.4.1.3-15B 26 Figure 15.4.3-3A 20 Figure 15.2.12-3 22 Figure 15.4.1.3-16A 26 Figure 15.4.3-3B 21 Figure 15.2.12-4 22 Figure 15.4.1.3-16B 26 Figure 15.4.3-4A 20 Figure 15.2.12-5 22 Figure 15.4.1.3-17A 26 Figure 15.4.3-4B 21 Figure 15.2.12-6 22 Figure 15.4.1.3-17B 26 Figure 15.4.3-5B 21 Figure 15.2.12-7 22 Figure 15.4.1.3-18A 26 Figure 15.4.3-6A 20 Figure 15.2.12-8 22 Figure 15.4.1.3-18B 26 Figure 15.4.3-6B 21 Figure 15.2.13-1 22 Figure 15.4.1.3-19A 26 Figure 15.4.3-7A 20 Figure 15.2.13-2 22 Figure 15.4.1.3-19B 26 Figure 15.4.3-7B 21 Figure 15.2.15-1 16 Figure 15.4.1.3-20A 26 Figure 15.4.3-8A 20 Figure 15.2.15-2 16 Figure 15.4.1.3-20B 26 Figure 15.4.3-8B 21 Figure 15.2.15-3 24 Figure 15.4.1.3-21A 26 Figure 15.4.3-9 21 Figure 15.2.15-4 24 Figure 15.4.1.3-21B 26 Figure 15.4.3-10 21 Figure 15.2.15-5 24 Figure 15.4.1.3-22A 26 Figure 15.4.3-11 21 Figure 15.2.15-6 24 Figure 15.4.1.3-22B 26 Figure 15.4.4-1 24 Figure 15.3-15 21 Figure 15.4.1.3-23A 26 Figure 15.4.4-2 24 Figure 15.3-16 21 Figure 15.4.1.3-23B 26 Figure 15.4.4-3 24 Figure 15.3-17 21 Figure 15.4.1.3-24A 26 Figure 15.4.4-4 24 Figure 15.3-18 21 Figure 15.4.1.3-24B 26 Figure 15.4.4-5 24 Figure 15.3-19 21 Figure 15.4.1.3-25A 26 Figure 15.4.6-1 11 Figure 15.4.1.3-25B 26 Figure 15.4.6-2 11 Figure 15.3.4-1 24 Figure 15.4.1.3-26A 26 Figure 15.4.6-3 11 Figure 15.3.4-2 24 Figure 15.4.1.3-26B 26 Figure 15.4.6-4 11 Figure 15.3.4-3 24 Figure 15.4.2-1 19 Figure 15.5-1 11 Figure 15.3.4-4 24 Figure 15.4.2-2 19 Figure 15.4.1.3-1A 26 Figure 15.4.2-3 21 CHAPTER 16 Figure 15.4.1.3-1B 26 Figure 15.4.2-4 24 Figure 15.4.1.3-2A 26 Figure 15.4.2-5 19 i thru ii 25 Figure 15.4.1.3-2B 26 Figure 15.4.2-6 19 16.1-1 25 Figure 15.4.1.3-3A 26 Figure 15.4.2-7 24 Table 16.1-1 -3 Sheets 16 Figure 15.4.1.3-3B 26 Figure 15.4.2-8 19 Figure 15.4.1.3-4A 26 Figure 15.4.2-9 19 CHAPTER 17 Figure 15.4.1.3-4B 26 Figure 15.4.2-10 19 Figure 15.4.1.3-5A 26 Figure 15.4.2-11 19 i thru iv 26 Figure 15.4.1.3-5B 26 Figure 15.4.2-12 19 17.1-1 thru 17.1-11 26 Figure 15.4.1.3-6A 26 Figure 15.4.2-13 19 17.2-1 thru 17.2-9 26 Figure 15.4.1.3-6B 26 Figure 15.4.2-14 19 17.3-1 thru 17.3-3 23 Figure 15.4.1.3-7A 26 Figure 15.4.2-15 19 17.4-1 23 Figure 15.4.1.3-7B 26 Figure 15.4.2-16 19 17.5-1 thru 17.5-3 23 10 Revision 26 September 2021

DCPP UNITS 1 & 2 FSAR UPDATE LIST OF CURRENT PAGES Page No. Rev. Page No. Rev. Page No. Rev.

17.6-1 23 17.7-1 thru 17.7-2 23 17.8-1 11 17.9-1 13 17.10-1 thru 17.10-2 23 17.11-1 23 17.12-1 23 17.13-1 11 17.14-1 11 17.15-1 22 17.16-1 23 17.17-1 thru 17.17-5 23 17.18-1 thru 17.18-4 26 Table 17.1-1 -12 Sheets 26 Figure 17.1-1 26 Figure 17.1-2 25 11 Revision 26 September 2021

DCPP UNITS 1 & 2 FSAR UPDATE Chapter 1 INTRODUCTION AND GENERAL DESCRIPTION OF PLANT CONTENTS Section Title Page

1.1 INTRODUCTION

1.1-1 1.2 GENERAL PLANT DESCRIPTION 1.2-1 1.2.1 PRINCIPAL SITE CHARACTERISTICS 1.2-1 1.2.1.1 Location (Historical) 1.2-1 1.2.1.2 Topography 1.2-1 1.2.1.3 Meteorology (Historical) 1.2-1 1.2.1.4 Hydrology 1.2-2 1.2.1.5 Geology 1.2-2 1.2.1.6 Seismology 1.2-2 1.2.1.7 Oceanography 1.2-3 1.2.2 FACILITY DESCRIPTION 1.2-3 1.2.2.1 Design Criteria 1.2-3 1.2.2.2 Nuclear Steam Supply System 1.2-4 1.2.2.3 Engineered Safety Features 1.2-5 1.2.2.4 Instrumentation and Control 1.2-6 1.2.2.5 Electrical Systems 1.2-6 1.2.2.6 Power Conversion System 1.2-7 1.2.2.7 Fuel Handling and Storage 1.2-7 1.2.2.8 Auxiliary Systems 1.2-7 1.2.2.9 Radioactive Wastes 1.2-8 1.2.2.10 Shared Facilities and Equipment 1.2-8 1.

2.3 REFERENCES

1.2-10 1.2.4 REFERENCE DRAWINGS 1.2-10 1.3 COMPARISON TABLES (Historical) 1.3-1 1.3.1 COMPARISON WITH SIMILAR FACILITY DESIGNS 1.3-1 (Historical) 1.3.2 COMPARISON OF FINAL AND PRELIMINARY DESIGNS 1.3-1 (Historical) i Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE Chapter 1 CONTENTS (Continued)

Section Title Page 1.4 IDENTIFICATION OF AGENTS AND CONTRACTORS 1.4-1 (Historical) 1.4.1 CONSULTANTS (Historical) 1.4-1 1.4.2 NUCLEAR STEAM SUPPLY SYSTEM SUPPLIER 1.4-1 (Historical) 1.4.3 OTHER EQUIPMENT SUPPLIERS (Historical) 1.4-2 1.4.4 CONSTRUCTION AND INSTALLATION CONTRACTORS 1.4-3 (Historical) 1.5 REQUIREMENTS FOR FURTHER TECHNICAL INFORMATION (Historical) 1.5-1 1.6 MATERIAL INCORPORATED BY REFERENCE 1.6-1 1.6.1 WESTINGHOUSE TECHNICAL REPORTS 1.6-1 1.6.2 MISCELLANEOUS TECHNICAL REPORTS 1.6-8 1.6.3 DRAWINGS INCORPORATED BY REFERENCE 1.6-12 ii Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE Chapter 1 TABLES Table Title 1.3-1 Design Comparison of Diablo Canyon Power Plant Units 1 & 2, Zion Station, and Trojan Nuclear Plant (Historical) 1.3-2 Major Design Changes Since the PSAR (Historical) 1.4-1 Principal Consultants and Contract Description (Historical) 1.4-2 Suppliers of Important Equipment and Materials Other than Nuclear Steam Supply System (Historical) 1.4-3 Construction and Installation Contractors (Historical) 1.5-1 Research and Development Programs (Historical) 1.6-1 Controlled Engineering Drawings/FSAR Update Figures Cross Reference iii Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE Chapter 1 FIGURES Figure Title 1.2-1 Plot Plan 1.2-2 Plant Layout 1.2-3 (a)

Area Location Plan 1.2-4 (a)

Auxiliary, Containment, and Fuel Handling Buildings (Units 1 & 2),

Plan at Elevation 140 ft 1.2-5 (a)

Auxiliary, Containment, and Fuel Handling Buildings (Units 1 & 2),

Plan at Elevation 115 ft 1.2-6 (a)

Auxiliary, Containment, and Fuel Handling Buildings (Units 1 & 2),

Plan at Elevations 91 and 100 ft 1.2-7 (a)

Auxiliary and Containment Buildings (Units 1 & 2), Plan at Elevation 85 ft 1.2-8 (a)

Auxiliary and Containment Buildings (Units 1 & 2), Plan at Elevation 73 ft 1.2-9 (a)

Auxiliary and Containment Buildings (Unit 1 & 2), Plan at Elevations 60 and 64 ft 1.2-10 (a)

Containment Building (Unit 2), Plan at Elevations 115 and 140 ft 1.2-11 (a)

Containment & Fuel Handling Buildings (Unit 2), Plan at Elevations 85, 91, and 100 ft 1.2-12 (a)

Containment Building (Unit 2), Plan at Elevations 60, 64, and 73 ft 1.2-13 (a)

Turbine Building (Unit 1), Plan at Elevation 140 ft 1.2-14 (a)

Turbine Building (Unit 1), Plan at Elevation 119 ft 1.2-15 (a)

Turbine Building (Unit 1), Plan at Elevation 104 ft 1.2-16 (a)

Turbine Building (Unit 1), Plan at Elevation 85 ft 1.2-17 (a)

Turbine Building (Unit 2), Plan at Elevation 140 ft iv Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE Chapter 1 FIGURES Figure Title 1.2-18 (a)

Turbine Building (Unit 2), Plan at Elevation 119 ft 1.2-19 (a)

Turbine Building (Unit 2), Plan at Elevation 104 ft 1.2-20 (a)

Turbine Building (Unit 2), Plan at Elevation 85 ft 1.2-21 (a)

Auxiliary Building (Units 1 & 2), Section A-A 1.2-22 (a)

Auxiliary and Containment Buildings (Unit 1 & 2), Section B-B 1.2-23 (a)

Auxiliary and Fuel Handling Buildings (Unit 1 & 2), Section C-C 1.2-24 (a)

Containment, Turbine, and Fuel Handling Buildings (Unit 1)

Section D-D 1.2-25 (a)

Auxiliary, Turbine, and Fuel Handling Buildings (Unit 1),

Section E-E 1.2-26 (a)

Auxiliary, Fuel Handling, and Turbine Buildings (Units 1 & 2),

Section F-F 1.2-27 (a)

Turbine Building (Unit 1), Section G-G 1.2-28 (a)

Containment Building (Unit 2), Section A-A 1.2-29 (a)

Vent & Fuel Handling Buildings (Unit 2), Section B-B 1.2-30 (a)

Turbine, Containment, & Fuel Handling Buildings (Unit 2),

Section C-C 1.2-31 (a)

Turbine Building (Unit 2), Sections D-D and E-E 1.2-32 (a)

Turbine Building (Unit 2), Section F-F NOTE:

(a)

This figure corresponds to a controlled engineering drawing that is incorporated by reference into the FSAR Update. See Table 1.6-1 for the correlation between the FSAR Update figure number and the corresponding controlled engineering drawing number.

v Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE CHAPTER 1 INTRODUCTION AND GENERAL DESCRIPTION OF PLANT

1.1 INTRODUCTION

The Updated Final Safety Analysis Report (UFSAR) for the Diablo Canyon Power Plant (DCPP) is submitted in accordance with the requirements of 10 CFR 50.71(e) and contains all the changes necessary to reflect information and analyses submitted to the U.S. Nuclear Regulatory Commission (NRC) by Pacific Gas and Electric Company (PG&E) or prepared by PG&E pursuant to NRC requirements since the submittal of the original FSAR.

HISTORICAL INFORMATION IN ITALICS BELOW NOT REQUIRED TO BE REVISED The original FSAR was submitted in support of applications for permits to operate two substantially identical nuclear power units (Unit 1 and Unit 2) at the DCPP site. The DCPP site is located on the central California coast in San Luis Obispo County, approximately 12 miles west southwest of the city of San Luis Obispo.

The Construction Permit for Unit 1 (CPPR-39) was issued April 23, 1968, in response to PG&E's application dated January 16, 1967 (USAEC, Docket No. 50-275). The Construction Permit for Unit 2 (CPPR-69) was issued on December 9, 1970; the application was made on June 28, 1968 (USAEC, Docket No. 50-323).

Westinghouse Electric Corporation and PG&E jointly participated in the design and construction of each unit. The plant is operated by PG&E. Each unit employs a pressurized water reactor (PWR) nuclear steam supply system (NSSS) furnished by Westinghouse Electric Corporation and similar in design concept to several projects licensed by the NRC.

Certain components of the auxiliary systems are shared by the two units, but in no case does such sharing compromise or impair the safe and continued operation of either unit.

Those systems and components that are shared are identified and the effects of the sharing are discussed in the chapters in which they are described (refer to Section 1.2.2.10).

The NSSS for each unit is contained within a steel-lined reinforced concrete structure that is capable of withstanding the pressure that might be developed as a result of the most severe postulated loss-of-coolant accident (LOCA).

HISTORICAL INFORMATION IN ITALICS BELOW NOT REQUIRED TO BE REVISED The containment structure was designed by PG&E to meet the requirements specified by Westinghouse Electric Corporation.

1.1-1 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE While the reactors, structures, and all auxiliary equipment are substantially identical for the two units, there is a difference in the reactor internal flow path that results in a lower coolant flow rate for Unit 1.

HISTORICAL INFORMATION IN ITALICS BELOW NOT REQUIRED TO BE REVISED Consequently, the original license application reactor ratings were 3,338 MWt for Unit 1 and 3,411 MWt for Unit 2. The corresponding net electrical outputs were approximately 1,084 MWe and 1,106 MWe, respectively.

During the design phase, the expected ultimate output of the Unit 1 reactor was 3,488 MWt; the expected ultimate output of the Unit 2 reactor was 3,568 MWt. The corresponding NSSS outputs were 3,500 MWt and 3,580 MWt. (The difference of 12 MWt is due to the net contribution of heat to the reactor coolant system (RCS) from nonreactor sources, primarily pump heat.) The corresponding estimated ultimate net electrical outputs were 1,131 MWe for Unit 1 and 1,156 MWe for Unit 2.

The NRC issued a low power-operating license for Unit 1 on September 22, 1981.

PG&E voluntarily postponed fuel loading due to the discovery of design errors in the annulus region of the containment structure. Subsequently, the NRC suspended portions of the license on November 19, 1981, pending completion of an Independent Design Verification Program.

After completion of redesign and construction activities in November 1983, the NRC reinstated the fuel load portion of the Unit 1 low power-operating license. On April 19, 1984, the NRC fully reinstated the low power-operating license, which included low power testing. The Unit 1 full power-operating license was issued on November 2, 1984. Commercial operation for Unit 1 began on May 7, 1985, with a license expiration date of April 23, 2008.

The NRC issued a low power-operating license for Unit 2 on April 26, 1985. Unit 2 fuel loading was completed on May 15, 1985. A full power-operating license for Unit 2 was issued on August 26, 1985. Unit 2 commercial operation began on March 13, 1986, with a license expiration date of December 9, 2010.

In March 1996, the NRC approved license amendments extending the operating license for Unit 1 until September 22, 2021, and for Unit 2 until April 26, 2025.

In July 2006, the NRC approved license amendments extending the operating license for Unit 1 until November 2, 2024, and for Unit 2 until August 26, 2025.

In October 2000, the NRC approved a license amendment (LA) 143 to increase the Unit 1 rated reactor thermal power from the original value of 3,338 MWt to 3,411 MWt to increase production and be consistent with Unit 2. LA 143 also documented the evaluation performed to revise the net contribution of heat to the RCS from nonreactor 1.1-2 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE sources (primarily pump heat) to a nominal value of 14 MWt and established a NSSS power outlet of 3,425 MWt for both Unit 1 and Unit 2.

1.1-3 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE 1.2 GENERAL PLANT DESCRIPTION 1.2.1 PRINCIPAL SITE CHARACTERISTICS HISTORICAL INFORMATION IN ITALICS BELOW NOT REQUIRED TO BE REVISED 1.2.1.1 Location The DCPP site consists of approximately 750 acres located in San Luis Obispo County, California, adjacent to the Pacific Ocean and roughly equidistant from San Francisco and Los Angeles. The site location, the site boundary, and the location of principal structures are shown in Figure 1.2-1. The minimum distance from either reactor to the nearest site boundary on land is one-half mile, the minimum exclusion distance. The low population zone (LPZ), as defined in 10 CFR 100.3, is the area immediately surrounding the exclusion area. For DCPP, the LPZ is an area encompassed by a radius of 6 miles. This zone contains residents for whom there is reasonable probability that appropriate protective measures, as described in the DCPP Emergency Plan (Reference 1) can be taken in the event of a serious accident. The population center distance, as defined by 10 CFR 100.3, is approximately 10 miles, the distance to the nearest boundary of the city of San Luis Obispo.

1.2.1.2 Topography The plant site occupies a coastal terrace that ranges in elevation from 60 to 150 feet above sea level and is approximately 1000 feet wide. Plant grade is at elevation 85 feet. The seaward edge of the terrace is a near-vertical cliff. Back from the terrace and extending for several miles inland are the rugged Irish Hills, an area of steep, brush-covered hillsides and deep canyons that are part of the San Luis Mountains and attain an elevation of 1500 feet within about a mile of the site. Access to the site is by a private road from Avila Beach, a distance of nearly 8 miles.

HISTORICAL INFORMATION IN ITALICS BELOW NOT REQUIRED TO BE REVISED 1.2.1.3 Meteorology The climate of the site area is typical of that along the central California coast. In the dry season, mainly May through September, the Pacific Anticyclone stays off the California coast and prevents Pacific storms from moving eastward across the state. In the winter or wet season, November through March, the Pacific Anticyclone moves southward, weakening in intensity, and allows Pacific storms to enter the state. More than 80 percent of the average annual rainfall of 16 inches occurs during this 5-month period. April and October are considered transitional months. The average annual temperature of the site area is about 55°F, which reflects the strong maritime influence.

Most stations along the coast show a 5 to 10°F mean temperature difference between the coldest winter month and the warmest summer month. Extreme temperatures may 1.2-1 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE range from 104°F in the summer to as low as 24°F in the winter. However, the recurrence interval of days having these extremes is in the order of 5 to 10 years.

Maximum summer temperatures of 85°F and minimum winter temperatures of 35°F are exceeded only 1 percent of the time at both Morro Bay and Pismo Beach. Additional site temperature data are presented in Section 2.3. The onsite meteorological measurements program was initiated in July 1967. Data collected are presented in Section 2.3 and are used to establish atmospheric diffusion characteristics of the site.

Severe weather conditions, such as tornadoes and hurricanes, have not been recorded in this area. Thunderstorms are also a rare phenomenon with the average occurrence of lightning being less than 3 days per year.

1.2.1.4 Hydrology Hydrological considerations at the plant site are limited to possible effects of plant operations on domestic water supplies and to the possibility of flooding. A survey of domestic water supplies in the environs shows that operation of the plant will not jeopardize any existing or planned facility. The topography of the site and the limited rainfall preclude any possibility of flooding.

1.2.1.5 Geology A comprehensive geological investigation has demonstrated that the site is geologically suitable for a nuclear power plant. Foundations are on firm bedrock fully capable of carrying the loads. Movement along the few small breaks in the vicinity of the plant has not occurred for at least 100,000 years and may well have taken place millions of years ago. The site was investigated in detail for faulting and other possibly detrimental geologic conditions. Results of faulting investigations are discussed in Section 2.5.4.7 and are based on site geology data presented in Section 2.5.2.2. Landslides do not threaten the plant.

HISTORICAL INFORMATION IN ITALICS BELOW NOT REQUIRED TO BE REVISED 1.2.1.6 Seismology Seismological investigations were undertaken to determine the potential for earthquakes in the site area, to form a basis of the establishment of seismic design criteria, and to evaluate the adequacy of seismic design margins for the plant (refer to Section 2.5). Records indicate that seismic activity within 20 miles of Diablo Canyon has been very low compared to other parts of California. Until PG&Es seismological investigation of the Hosgri fault zone located approximately 3 miles offshore, the seismically significant fault system nearest the site was considered to be the Nacimiento Fault located about 20 miles away as discussed in Section 2.5.3.9. The largest earthquake known to have been associated with this fault system occurred at an epicentral distance to the site of about 44 miles. It is listed with a Richter magnitude 6.

At its closest point, the San Andreas Fault passes some 48 miles from the site.

1.2-2 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE PG&E's reevaluation of the plant's capability to withstand a Richter magnitude 7.5 "Hosgri" Earthquake is discussed in Section 3.7.

1.2.1.7 Oceanography Condenser cooling water for the plant is pumped from the Pacific Ocean and returned to the ocean at Diablo Cove through an outfall at the water's edge. Controlled releases of low-level liquid radioactive wastes are discussed in Section 11.2. The Pacific Ocean in the area of the site is turbulent and has a great capacity for dilution of wastes and diffusion of heated cooling water. Investigations of the occurrence and maximum size of tsunamis (seismic sea waves) coincident with high tide and with short period storm waves are discussed in Section 2.4.7. These studies showed that extreme water elevation within the intake basin without a breakwater would be 44.32 feet above mean lower low water. The intake structure houses the safety-related auxiliary cooling water systems, which are protected against tsunami and wave splash with watertight compartments. This is discussed in Section 2.4.6.7.

1.2.2 FACILITY DESCRIPTION The plant incorporates two substantially identical PWR nuclear power units, each consisting of an NSSS, turbine-generator, auxiliary equipment, controls, and instrumentation. The general arrangement of the plant and the site is shown in Figure 1.2-1. Principal structures, shown in Figure 1.2-2, include the containment structures, turbine building, and auxiliary building (which includes the control room, the fuel handling areas, and the ventilation areas). Arrangement plans and sections are shown in Figures 1.2-3 through 1.2-32. The descriptions that follow apply to both units unless otherwise specified.

1.2.2.1 Design Criteria The principal design criteria for the DCPP nuclear units are those fundamental architectural and engineering design objectives established for the plant. The bases for development and selection of the design criteria used in this plant are: (a) those that provide protection to public health and safety, (b) those that provide for reliable and economic plant performance, and (c) those that provide an attractive external appearance to the plant.

The essential systems and components of the plant are designed to enable the facility to withstand, without loss of capability to protect the public, the forces resulting from normal operation plus those that might be imposed by natural phenomena. The designs are based on the most severe of the natural phenomena recorded for the vicinity of the site, with margin to account for uncertainties in the historical data.

The DCPP units are designed to comply with the "General Design Criteria for Nuclear Power Plant Construction Permits," published in July 1967. A discussion of conformance to these criteria is contained in Section 3.1. In addition, a summary 1.2-3 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE discussion of the designs and procedures that are intended to meet the NRC General Design Criteria published as Appendix A to 10 CFR Part 50 in 1971 is provided in Chapter 3, Section 3.1, Appendix 3.1A.

1.2.2.2 Nuclear Steam Supply System The NSSS consists of a PWR and associated auxiliary fluid systems. The RCS consists of four parallel reactor coolant loops, each containing a steam generator and a reactor coolant pump (RCP). A pressurizer is connected to the hot leg of one reactor coolant loop.

The reactor core is composed of an array of 193 fuel assemblies, each containing 264 fuel rods. These rods are composed of uranium dioxide pellets enclosed in zirconium alloy tubes with welded end plugs. All fuel rods are pressurized with helium during fabrication to reduce stress and increase fatigue life. Reactor control and shutdown functions are performed by the rod cluster control assemblies (RCCAs). The RCCAs are stainless steel tubes containing a silver-indium-cadmium absorber and are positioned by drive mechanisms of the magnetic latch type. A soluble poison (boron) is introduced into the reactor coolant to compensate for long-term reactivity changes. The moderator temperature coefficient can be slightly positive at the beginning of cycle when boron concentration is high. However, for most operating conditions, the moderator coefficient is non-positive, but the power coefficient is negative at all times.

The reactor vessel and reactor internals contain and support the fuel and RCCAs. The vessel is cylindrical with hemispherical heads and is clad with stainless steel.

The pressurizer is a vertical cylindrical pressure vessel with hemispherical heads and is equipped with electrical heaters and spray nozzles for system pressure control.

The steam generators are vertical U-tube type heat exchangers with Inconel tubes.

Reactor coolant flows inside the tubes; steam is generated in the shell and flows through the main steam lines to the turbine. When operating at 100 percent power, integral moisture separating equipment reduces moisture content of the steam at the exit of the steam generators to 0.05 percent. Under transient conditions at 100 percent power, the moisture content at the exit of the steam generators is

<0.25 percent. The RCPs are vertical, single-stage, centrifugal units equipped with controlled leakage shaft seals.

Auxiliary systems are provided to charge the RCS and add makeup water, to purify reactor coolant water, to provide chemicals for corrosion inhibition and reactor control, to cool system components, to remove residual heat when the reactor is shut down, to cool the spent fuel storage pool, to sample reactor coolant water, to provide for emergency safety injection, and to vent and drain the RCS. Refer to Chapters 4 and 5 for additional discussion of the reactor and RCS, respectively.

1.2-4 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE 1.2.2.3 Engineered Safety Features The engineered safety features (ESFs) provided for the DCPP have sufficient capacity and redundancy to protect the health and safety of the public by keeping exposure below the limits set forth in 10 CFR 50.67 for any of the postulated malfunctions or accidents, including the most severe LOCA (refer to Chapter 15 for additional discussion).

The ESFs provided in the DCPP are:

(1) A containment system that consists primarily of a steel-lined, reinforced concrete containment structure designed to prevent significant release to the environs of radioactive materials that could result from accidents inside the containment (refer to Sections 6.2.1 and 6.2.4).

(2) An emergency core cooling system (ECCS) that provides water to cool the core in the event of an accidental loss of primary reactor coolant water.

The ECCS also supplies dissolved boron into the cooling water to provide shutdown margin (refer to Section 6.3).

(3) A containment spray system (CSS) to help limit the peak temperature and pressure in the containment in the event of a LOCA or main steam line break (MSLB) (refer to Section 6.2.2). The CSS, in conjunction with the spray additive system (SAS), also helps to limit the offsite radiation levels following the postulated LOCA by removing airborne fission products from the containment atmosphere during the injection and recirculation phase (refer to Section 6.2.2 and 6.2.3).

(4) A containment fan cooler system (CFCS) that functions in conjunction with the CSS to limit the temperature and pressure in the containment structure in the event of a LOCA or MSLB (refer to Section 6.2.2). The CFCS also provides mixing of the sprayed and unsprayed regions of the containment atmosphere to improve airborne fission product removal (refer to Section 6.2.3). The CFCS function of mixing the containment atmosphere for hydrogen control is discussed below.

(5) A SAS that functions by adding sodium hydroxide, an effective iodine scrubbing solution, to the CSS water, to reduce the content of iodine and other fission products in the containment atmosphere and prevent the re-evolution of the iodine in the recirculated core cooling solution following a LOCA (refer to Section 6.2.3).

(6) The long term buildup of gaseous hydrogen in the containment following a LOCA is primarily controlled by ensuring a mixed containment atmosphere and providing equipment for monitoring hydrogen concentrations. The CFCS and the CSS are the primary means credited for containment atmosphere mixing (refer to Section 6.2.5).

1.2-5 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE (7) A fuel handling building ventilation system provides a significant reduction in the amounts of volatile radioactive materials that could be released to the atmosphere in the event of a major fuel handling accident in the Fuel Handling Building (refer to Section 9.4.4). Note that the dose consequence analysis in Section 15.5 does not credit the filtration capability of the FHBVS.

(8) An auxiliary building ventilation system (ABVS) that provides the capability for significant reduction in the amounts of volatile radioactive materials that could be released to the atmosphere in the event of leakage from the residual heat removal system recirculation loop following a LOCA (refer to Section 9.4.2).

(9) A control room ventilation system (CRVS) permits continuous occupancy of the control room and technical support center (TSC) under design basis accidents by providing the capability to control infiltration of volatile radioactive material (refer to Sections 6.4.1 and 9.4.1).

(10) An auxiliary feedwater (AFW) system supplies water to the secondary side of the steam generators for reactor decay heat removal, when the main feedwater system is unavailable (refer to Section 6.5).

1.2.2.4 Instrumentation and Control The primary purpose of the instrumentation and control system is to provide automatic protection against unsafe and improper reactor operation during steady state and transient power operation (ANS Conditions I, II, and III) and to provide initiating signals to mitigate the consequences of faulted conditions (ANS Condition IV). These plant conditions are discussed in Chapter 15, Accident Analysis.

The operation of the plant is monitored and controlled by operators in the control room, which is located in the auxiliary building.

Refer to Chapter 7 for additional discussion of the various instrumentation systems.

1.2.2.5 Electrical Systems The electrical systems generate and transmit power to PG&E's high-voltage system, distribute power to the auxiliary loads, and provide control, protection, instrumentation, and annunciator power supplies for the units. Power is generated at 25-kV. Auxiliary loads are served at 12-kV, 4.16-kV, 480-V, 120-Vac, 125-Vdc, and 250-Vdc.

Offsite ac power (the preferred power supply) for the units' auxiliaries is available from two 230-kV transmission circuits and three 500-kV transmission circuits.

1.2-6 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE Onsite ac auxiliary power is supplied by each unit's main generator (normal onsite power source) and is also available for Class 1E loads from six diesel engine-driven generators (standby power supply). Three diesel generators are dedicated to each unit.

Onsite dc power is provided by three Class 1E and two non-Class 1E 125-Vdc batteries in each unit. The two non-Class 1E batteries are connected in series to provide 250-Vdc power in each unit.

Refer to Chapter 8 for additional discussion of the various electric power systems.

1.2.2.6 Power Conversion System The turbines are each tandem-compound, four-element, 1800 rpm units, having one high-pressure and three identical double flow low-pressure elements. Combination moisture separator-reheaters are employed between the high- and low-pressure elements to dry and superheat the steam. The auxiliaries include deaerating surface condensers, steam jet air ejectors, motor-driven condensate pumps, motor-driven condensate booster pumps, turbine-driven main feedwater pumps, six stages of feedwater heating, and a full flow condensate demineralizer system.

The steam and power conversion system is designed to receive the heat generated by the RCS during normal power operation, as well as following an emergency shutdown of the turbine-generator from full load. Heat rejection under the latter condition is accomplished by steam bypass to the condenser and pressure relief to the atmosphere.

Refer to Chapter 10 for additional discussion of the steam and power conversion system.

1.2.2.7 Fuel Handling and Storage The reactor is refueled using equipment designed to handle spent fuel under water from the time it leaves the reactor vessel until it is placed in a cask either for transport to the Diablo Canyon Independent Spent Fuel Storage Installation or for shipment from the site. Underwater transfer of spent fuel provides an optically transparent radiation shield, as well as a reliable source of coolant for removal of decay heat. Spent fuel is stored onsite in the spent fuel pools, which are fitted with special spent fuel storage racks to ensure that criticality cannot be approached. The fuel handling system (FHS) also provides capability for receiving, handling, and storing new fuel assemblies. Refer to Section 9.1.4 for additional discussion.

1.2-7 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE 1.2.2.8 Auxiliary Systems Auxiliary systems are supporting systems included in the facility, some of which are required to perform certain functions during emergency or accident conditions such as supporting the ESFs. Included are the cooling water systems (refer to Section 9.2), the heating and ventilating systems (refer to Section 9.4), the fire protection system (refer to Section 9.5.1), the process auxiliaries (refer to Sections 9.3.2, 9.3.3, and 9.3.7), the compressed air system (refer to Sections 9.3.1 and 9.3.6), the diesel generator fuel oil system (refer to Section 9.5.4), the communication systems (refer to Section 9.5.2), and the lighting systems (refer to Section 9.5.3).

1.2.2.9 Radioactive Wastes The radioactive waste treatment systems provide all equipment necessary to collect, process, monitor, and discharge radioactive liquid, gaseous, and solid wastes that are produced during reactor operation. Refer to Sections 11.2, 11.3, and 11.5 for additional discussion. A major portion of the waste treatment equipment is common for Unit 1 and Unit 2. This equipment is located in the shared auxiliary building (refer to Section 1.2.2.10.5).

1.2.2.10 Shared Facilities and Equipment Separate systems and equipment are provided for each unit, with few exceptions. A brief summary of shared facilities and equipment between both units follows.

Interconnections between systems for Unit 1 and Unit 2 are shown in the system diagrams. The system diagrams are contained in the UFSAR chapters referenced in the following paragraphs.

1.2.2.10.1 Site Facilities The two units share a common auxiliary building (refer to Section 3.8.2.3). The turbine building is common to both units (refer to Section 3.8.3). The machine shop, access control area, warehouse area, telecommunications systems (refer to Figure 9.5-1), and administrative offices are common.

The two units also share a common raw water storage reservoir (refer to Section 6.5.3.3), fire pumps (refer to Section 9.5.1), fire water storage tank (refer to Section 9.5.1), diesel fuel oil storage tanks and transfer pumps (refer to Section 9.5.4.3.3),

auxiliary boiler (refer to Section 9.3.7.1.3.3), makeup water system (refer to Section 9.2.3.3.3), plant air system (refer to Sections 9.3.1.3.3 and 9.3.6.3.3), and lubricating oil storage system.

Refer to Section 9.1.4.3.2 for a discussion of sharing of the FHS. Refer to Section 9.3.3.3.2 for a discussion of sharing of the equipment and floor drainage system.

1.2-8 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE 1.2.2.10.2 Electrical Systems The 230-kV line from the 230-kV switchyard serves the standby startup transformers for both Unit 1 and Unit 2. These are normally arranged on the low voltage sides to serve a single unit; however, the 12-kV buses for Unit 1 and Unit 2 are connected by an open circuit breaker (refer to Sections 8.2.3.1 and 8.3.1.1.2.3.2, respectively).

The plant has six diesel generator sets for emergency power. Refer to Section 8.3.1.1.6.3.3 for a discussion of sharing of diesel generator support systems.

Refer to Section 8.3.1.1.4.3.3 for a discussion of sharing of the 480-V system. Refer to Section 8.3.1.1.5.3.3 for a discussion of sharing of the 120-Vac system. Refer to Section 8.3.2.3.3 for a discussion of sharing of the 125-Vdc system.

1.2.2.10.3 Control Room The plant is provided with a central control room located in the auxiliary building which is common to Unit 1 and Unit 2. Physical separation of control panels prevents interaction of the Unit 1 and Unit 2 control systems. Refer to Section 6.4.1.3.3 for a discussion of the common CRVS and common control room pressurization system, and Section 9.4.1.3.3 for a discussion of the common control room heating, ventilation and air-conditioning (HVAC) system.

Refer to Section 5.1.8.3 for a discussion of sharing of the RCP vibration monitoring system.

1.2.2.10.4 Chemical and Volume Control System Several components of the chemical and volume control system are shared, as detailed in Chapter 9 (refer to Section 9.3.4.3.3).

1.2.2.10.5 Radioactive Waste Treatment Systems The major portion of the waste treatment equipment is shared by Unit 1 and Unit 2.

This equipment is located in the shared auxiliary building and is described in Chapter 11 (refer to Sections 11.2.3.3, 11.3.3.3, and 11.5.3.2).

1.2-9 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE 1.2.2.10.6 Emergency Facilities and Equipment The emergency facilities and equipment, both onsite and offsite, are discussed in the Emergency Plan which applies to both Unit 1 and Unit 2. For a discussion of the TSC habitability and HVAC systems (refer to Sections 6.4.2.3.1, 9.4.1.3.3, and 9.4.11.3.1).

1.2.2.10.7 Other Systems Refer to Sections 9.2.6.3.3 and 6.5.3.3 for a discussion of the sharing of the condensate storage tanks.

Refer to Section 9.2.2.3.3 for a discussion of the sharing of the component cooling water system.

Refer to Section 9.2.7.3.3 for a discussion of the sharing of the auxiliary saltwater system.

Refer to Section 9.2.1.3.1 for a discussion of the sharing of the service cooling water system.

Refer to Section 9.2.5.3.2 for a discussion of the sharing of the ultimate heat sink system.

Refer to Section 9.4.23.3 for a discussion of the sharing of the ABVS.

Refer to Section 6.5.3.3 for a discussion of the sharing of the AFW system.

Refer to Section 10.3.3.3 for a discussion of the sharing of the main steam system.

1.

2.3 REFERENCES

1. Emergency Plan, Diablo Canyon Power Plant - Units 1 and 2, Pacific Gas and Electric Company.

1.2.4 REFERENCE DRAWINGS Figures representing controlled engineering drawings are incorporated by reference and are identified in Table 1.6-1. The contents of the drawings are controlled by DCPP procedures.

1.2-10 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE HISTORICAL INFORMATION IN ITALICS BELOW NOT REQUIRED TO BE REVISED 1.3 COMPARISON TABLES 1.3.1 COMPARISON WITH SIMILAR FACILITY DESIGNS Table 1.3-1 presents a comparison of the principal similarities and differences of the design of the DCPP units with those of Unit 1 at Trojan Nuclear Power Plant and Unit 1 and Unit 2 at Zion Station. This comparison is historical in nature and is valid only through March 1984.

1.3.2 COMPARISON OF FINAL AND PRELIMINARY DESIGNS Table 1.3-2 identifies the major design changes made since the submittal of the DCPP Unit 2 Preliminary Safety Analysis Report. The comparison was considered to be valid through July 1974.

1.3-1 Revision 23 December 2016

DCPP UNITS 1 & 2 FSAR UPDATE HISTORICAL INFORMATION IN ITALICS BELOW NOT REQUIRED TO BE REVISED 1.4 IDENTIFICATION OF AGENTS AND CONTRACTORS PG&E is the architect engineer, constructor, operator, and owner of DCPP and, as such, assumes full responsibility and authority for the design, construction, startup, and operation of Diablo Canyon Unit 1 and Unit 2. This section identifies the principal consultants, the nuclear steam system supplier, the suppliers of other equipment affecting nuclear safety, and the principal contractors engaged in the construction of the units. PG&E has performed all work for the planning, design, estimating, procurement, construction, installation, inspection, testing, and associated services necessary to provide complete plans and specifications and related services necessary to furnish a complete, operable, and acceptable plant, except for those items and functions that were furnished by those mentioned below.

1.4.1 CONSULTANTS The consultants whose contracts exceed one hundred thousand dollars are listed in Table 1.4-1. The list is historical in nature and is valid only through March 1986. They performed investigations and submitted reports and recommendations to PG&E on the subjects indicated in the table. Application of the material submitted is the responsibility of PG&E.

1.4.2 NUCLEAR STEAM SUPPLY SYSTEM SUPPLIER The NSSS was designed and furnished by the Westinghouse Electric Corporation.

Westinghouse performed the detailed engineering design for all Westinghouse-supplied components and systems of the NSSS and procured, expedited, inspected, and delivered to PG&E all such equipment and components. Westinghouse provided design criteria, outline and/or assembly drawings, systems flow diagrams, and other data, as required, for PG&E to install, erect, operate, and maintain Westinghouse-supplied equipment and components. For all Westinghouse-supplied nuclear auxiliary systems, Westinghouse performed systems engineering, prepared reference designs and systems descriptions, and provided overall operating and engineering instructions.

Westinghouse further provided pertinent design criteria and data on the NSSS to enable PG&E to design the balance of plant. Westinghouse provided functional test procedures and technical assistance during construction, installation, inspections, and testing of its equipment and systems. A description of Westinghouse-provided technical assistance is given in Chapter 14, Initial Tests and Operations.

Westinghouse also performed the post-accident transient analysis of the plant containment system. This analysis consisted of determining the mass and energy releases (including metal-water reaction) as a function of time for the design basis LOCA and MSLB. From the foregoing data, PG&E has determined the design pressure and temperature, containment volume cooling requirements, etc. In general, Westinghouse has performed such transient analyses on the plant as are required for 1.4-1 Revision 23 December 2016

DCPP UNITS 1 & 2 FSAR UPDATE the Westinghouse-furnished NSSS and turbine-generator unit. Transient analyses involving non-Westinghouse-supplied systems and components are PG&E's responsibility.

Westinghouse also supplied material that is informational in nature, some of which appears in response to questions asked of Westinghouse during review meetings.

Other information and recommendations have been offered by Westinghouse from their background experience. This type of material is not contractually binding for either company, nor was it intended to be a commitment of final design or operation. This material includes:

(1) The conceptual design of the dry reactor containment system. The specific designs of the reactor containment structure and associated ESFs are developed by PG&E.

(2) The details of a recommended waste disposal system that consists of equipment to collect, process, and dispose of radioactive liquid, gaseous, and solid wastes produced as a result of reactor operation (3) Five recommended ESFs that consist of: steel-lined concrete reactor containment vessel, the safety injection system, the containment fan coolers, the containment spray equipment, and the air recirculation filters.

Emergency power systems to operate the ESF systems are also as recommended by Westinghouse.

(4) The details of the recommended fuel handling facilities including structures, equipment, transfer, and operation (5) The details of the recommended sampling system and analytical facilities (6) The details of the recommended radiation shielding (7) The outline of a recommended health physics program and recommended supplies (8) The general criteria and preliminary design data for certain balance of plant.

Westinghouse, as a supplier to PG&E, is required to conform to the PG&E Quality Assurance Program as described in Chapter 17, Quality Assurance.

1.4.3 OTHER EQUIPMENT SUPPLIERS Suppliers of important equipment or materials furnished to PG&E are listed in Table 1.4-2. In each case, the equipment was fabricated, or the material supplied qualified, to written specifications and, if PG&E Design Class I, under the Quality 1.4-2 Revision 23 December 2016

DCPP UNITS 1 & 2 FSAR UPDATE Assurance Program in effect at the time of purchase. This list of suppliers is historical in nature and is valid only through March 1986.

1.4.4 CONSTRUCTION AND INSTALLATION CONTRACTORS The principal construction and installation contractors whose contracts exceed one hundred thousand dollars are listed in Table 1.4-3. The list of contractors is historical in nature and is valid only through March 1986. The contracts are agreements between PG&E as owner-constructor and the contractors as independent contractors, with specific provisions for inspection, testing, and quality assurance.

Each contract specification identifies any PG&E Design Class I equipment involved and requires the implementation of the supplier's Quality Assurance Program (refer to Chapter 17, Quality Assurance). In addition, PG&E maintains a staff of inspectors to assure the quality of non-Class I equipment installation.

1.4-3 Revision 23 December 2016

DCPP UNITS 1 & 2 FSAR UPDATE HISTORICAL INFORMATION IN ITALICS BELOW NOT REQUIRED TO BE REVISED 1.5 REQUIREMENTS FOR FURTHER TECHNICAL INFORMATION The design of DCPP is based on proven concepts, systems, and equipment in order to minimize the potential for cost and schedule overruns and to enhance the reliability of operation. As a consequence, there have been few requirements for research and development programs to confirm the adequacy of the design. Those programs identified for DCPP have been satisfactorily completed, as well as any other programs that have been identified as valuable to define margins of conservatism or possible design improvements. Table 1.5-1 is a list of those programs that have been addressed in earlier revisions of the original FSAR. This table provides a listing of the technical reports that include a discussion of the programs and their results. The listing is historical in nature and is valid only through November 1975.

1.5-1 Revision 23 December 2016

DCPP UNITS 1 & 2 FSAR UPDATE 1.6 MATERIAL INCORPORATED BY REFERENCE 1.6.1 WESTINGHOUSE TECHNICAL REPORTS Date Section Submitted Title Reference To AEC/NRC

1. C. J. Kubit, Safety-Related Research and Development for 1.5 5/9/72 Westinghouse Pressurized Water Reactors, Program Summaries-Fall, 1971-Spring, 1972, WCAP-7856, April 1972.

2. F. T. Eggleston, Safety-Related Research and 1.5, 4.2 10/78 Development for Westinghouse PWRs, Program Summaries. Winter 77 - Summer 78, WCAP-8768, Revision 2, October 1978.

3. R. M. Hunt, Safety-Related Research and Development for 1.5 11/70 Westinghouse PWRs, Program Summaries. Fall 1970, WCAP-7614-L, November 1970.

4. R. M. Hunt, Safety-Related Research and Development for 1.5 5/70 Westinghouse PWRs, Program Summaries. Spring 1970, WCAP-7498-L, May 1970.

5. M. D. Davis, Safety-Related Research and Development 1.5 3/75 for Westinghouse PWRs, Program Summaries. Fall 1974, WCAP-8485, March 1975.

6. C. J. Kubit, Safety-Related Research and Development for 1.5 7/74 Westinghouse PWRs, Program Summaries. Spring 1974, WCAP-8385, July 1974.

7. Deleted

8. J. M. Hellman, Fuel Densification Experimental Results 1.5 3/75 and Model for Reactor Operation, WCAP-8218-P-A, March 1975 (Proprietary) and WCAP-8219-A, March 1975 (Non-Proprietary).

9. L. Geninski, et al, Safety Analysis of the 17 x 17 Fuel 1.5 12/73 Assembly for Combined Seismic and Loss-of-Coolant Accident, WCAP-8288, December 1973.

1.6-1 Revision 26 September 2021

DCPP UNITS 1 & 2 FSAR UPDATE Date Section Submitted Title Reference To AEC/NRC

10. E. E. DeMario and S. Nakazato, Hydraulic Flow Test of the 1.5 2/74 17 x 17 Fuel Assembly, WCAP-8279, February 1974.

11. F. W. Cooper, Jr., 17 x 17 Drive Line Components Test - 1.5 12/74 Phase IB, II, III - Drop and Deflection, WCAP-8446, December 1974.

12. K. W. Hill, et al, Effect of 17 x 17 Fuel Assembly Geometry 1.5 2/75 on DNB, WCAP-8296-P-A, February 1975 (Proprietary) and WCAP-8297-A, February 1975.

13. F.E. Motley, et al, The Effect of 17 x 17 Fuel Assembly 1.5 1/75 Geometry on Interchannel Thermal Mixing, WCAP-8298-P-A (Proprietary) and WCAP-8299-A, January 1975.

14. A. J. Burnett and S. D. Kopelic, Westinghouse ECCS 1.5 11/75 Evaluation Model October 1975 Version, WCAP-8622 (Proprietary) and WCAP-8623 (Non-Proprietary),

November 1975.

15. Irradiation of 17 x 17 Demonstration Assemblies in Surry 1.5 7/74 Units No.1 and 2, Cycle 2, WCAP-8262, July 1974.

16. G.J. Bohm, Indian Point Unit 2 Internals Mechanical 3.9 12/20/71 Analysis for Blowdown Exitation, WCAP-7822, December 1971.

17. P. M. Wood, et al, Use of Burnable-Poison Rods in 3.9 11/6/67 Westinghouse Pressurized Water Reactors, WCAP-7113, October 1967.

18. R. F. Barry, et al, Power Distribution Monitoring in the R. E. 3.9 10/5/71 Ginna PWR, WCAP-7756, September 1971.

19. L. T. Gesinski, Fuel Assembly Safety Analysis for 3.9 7/14/72 Combined Seismic and Loss-of-Coolant Accident, WCAP-7950, July 1972.

20. Deleted 1.6-2 Revision 26 September 2021

DCPP UNITS 1 & 2 FSAR UPDATE Date Section Submitted Title Reference To AEC/NRC

21. Deleted

22. S. Kraus, Neutron Shielding Pads, WCAP-7870 including 4.2 2/17/72 Appendix B, February 1972.

23. Deleted in Revision 23.

24. A. F. McFarlane, Power Peaking Factors, WCAP-7912-P- 4.3, 4.4 3/8/72 A, January 1975 (Westinghouse Proprietary) and WCAP-7912-A, January 1975.

25. J. A. Christensen, et al, Melting Point of Irradiated Uranium 4.2, 4.4 2/65 Dioxide, WCAP-6065, February 1965.

26. G. Hetsroni, Hydraulic Tests of the San Onofre Reactor 4.4 6/64 Model, WCAP-3269-8, June 1964.

27. G. Hetsroni, Studies of the Connecticut-Yankee Hydraulic 4.4 6/65 Model, WCAP-2761, June 1965, (NYO-3250-2).

28. J. S. Shefcheck, Application of the THINC Program to 4.4, 15.1, 1/17/72 PWR Design, WCAP-7359-L, August 1969 (Westinghouse 15.2, 15.4 Proprietary) and WCAP-7838, January 1972.

29. F. D. Carter, Inlet Orificing of Open PWR Cores, 4.4 3/19/69 WCAP-9004, (Westinghouse Proprietary), January 1969, 1/17/72 and WCAP-7836, January 1972.

30. J. A. Nay, Process Instrumentation for Westinghouse 5.2, 7.1, 5/10/71 Nuclear Steam Supply System, WCAP-7671, April 1971. 7.2, 7.3

31. W. O. Shabbits, Dynamic Fracture Toughness Properties 5.2 9/15/72 of Heavy Section-A-533 Grade B Class I Steel Plate, WCAP-7623, September 1972.

32. W. S. Hazelton, et al, Basis for Heatup and Cooldown Limit 5.2 8/14/72 Curves, WCAP-7924, July 1972.

33. Deleted

34. J. Locante and E. G. Igne, Environmental Testing of 6.3 9/14/71 1.6-3 Revision 26 September 2021

DCPP UNITS 1 & 2 FSAR UPDATE Date Section Submitted Title Reference To AEC/NRC Engineered Safety Features Related Equipment (NSSS-Standard Scope), WCAP-7744, Volume 1, August 1971.

35. J. B. Lipchak and R. A. Stokes, Nuclear Instrumentation 7.1, 7.2, 5/6/71 System, WCAP-7669, April 1971. 7.7

36. D. N. Katz, Solid State Logic Protection System 7.1, 7.2, 5/27/71 Description, WCAP-7672, June 1971. 7.3

37. J. T. Haller, Engineered Safeguard Final Device or 7.1 2/27/73 Activator Testing, WCAP-7705, February 1973.

38. Deleted

39. R. Bartholomew and J. Lipchak, Test Report, Nuclear 7.2 1/17/72 Instrumentation System Isolation Amplifier, WCAP-7819, Revision 1, January 1972.

40. W. C. Gangloff, An Evaluation of Anticipated Operational 7.2, 15.2 5/21/71 Transients in Westinghouse Pressurized Water Reactors, WCAP-7486, May 1971.

41. T. W. T. Burnett, Reactor Protection System Diversity in 7.2, 15.4 4/9/69 Westinghouse Pressurized Water Reactors, WCAP-7306, April 1969.

42. A. E. Blanchard, Rod Position Monitoring, WCAP-7571, 7.7 4/5/71 March 1971.

43. J. J. Loving, In-Core Instrumentation (Flux Mapping 7.7 7/27/71 System and Thermocouples), WCAP-7607, July 1971.

44. H.G. Hargrove, FACTRAN, A Fortran IV Code for Thermal 15.1,15.2, 11/29/83 Transients in a UO2 Fuel Rod, WCAP-7908-A, December 15.3,15.4 1989.

45. Deleted in Revision 22

46. Deleted in Revision 22 1.6-4 Revision 26 September 2021

DCPP UNITS 1 & 2 FSAR UPDATE Date Section Submitted Title Reference To AEC/NRC

47. T. W. T. Burnett, et al, LOFTRAN Code Description, 15.1,15.2, 10/11/72 WCAP-7907-P-A (Proprietary), April 1984 and WCAP- 15.3,15.4 7907-A (Non-Proprietary), April 1984.

48. R. F. Barry, LEOPARD - A Spectrum Dependent Non- 4.3 9/63 Spatial Depletion Code for the IBM-7094, WCAP-3269-26, September 1963.

49. S. Altomare and R. F. Barry, The TURTLE 24.0 Diffusion 4.3 6/68, Depletion Code, WCAP-7213-P-A, February 1975 9/71 (Westinghouse Proprietary) and WCAP-7758-A, February 1975.

50. D. H. Risher, Jr. and R. F. Barry, TWINKLE - A 15.1,15.2, 1/4/73 Multi-Dimensional Neutron Kinetics Computer Code, 15.4 WCAP-7979-P-A (Proprietary) and WCAP-8028-A (Non-Proprietary), January 1975.

51. Deleted in Revision 22

52. Deleted

53. M. Ko, Setpoint Study for PG&E Diablo Canyon Units 1 15.1 6/74 and 2, WCAP-8320, June 1974.

54. F. W. Cooper, Jr., 17x17 Drive Line Components Tests 15.1 12/74 Phase IB-II-III D-Loop Drop and Deflection, WCAP-8446 (Proprietary) and WCAP-8449 (Non-proprietary),

(December 1974).

55. J. V. Miller (Ed.), Improved Analytical Methods Used in 4.2 10/76 Westinghouse Fuel Rod Design Calculations, WCAP-8720, October 1976.

56. F. E. Motley and F. F. Cadek, DNB Test Results for New 4.4 1/75 Mixing Vane Grids (R), WCAP-7695-P-A (Proprietary) and WCAP-7958-A (Non-Proprietary), January 1975.

1.6-5 Revision 26 September 2021

DCPP UNITS 1 & 2 FSAR UPDATE Date Section Submitted Title Reference To AEC/NRC

57. Cooper, et al., Overpressure Protection for Westinghouse 5.2, 15.2 10/8/71 Pressurized Water Reactors, WCAP-7769, Revision 1, June 1972.

58. D.S. Huegel, et al, RETRAN-02 Modeling and Qualification 6.2D, 6/6/97 for Westinghouse Pressurized Water Reactor Non-LOCA 15.1, Safety Analyses, WCAP-14882-P-A (Proprietary), April 15.2, 15.4 1999 and WCAP-15234-A (Non-Proprietary), May 1999.

60. T. Q. Nguyen, et al, Qualification of the PHOENIX-P/ANC 4.3, 15.1 11/87 Nuclear Design System for Pressurized Water Reactor Cores, WCAP-11596-P-A (Proprietary),June 1988.

61. Y. S. Liu, et al, ANC: A Westinghouse Advanced Nodal 4.3, 15.1, 5/86 Computer Code, WCAP-10965-P-A (Proprietary), 15.3 September 1986 and WCAP-10966-A (Non-Proprietary),

September 1986.

65. J. C. Schmertz, et al, Technical Justification for Eliminating 3.6 3/92 Large Primary Loop Rupture as the Structural Design Basis for the Diablo Canyon Units 1 and 2 Nuclear Power Plants, WCAP-13039 (Proprietary) and WCAP-13038 (Non-proprietary), November 1991.

66. J.R. Kobelak, et al, Realistic LOCA Evaluation 15.1, 15.4 11/23/2010 Methodology Applied to the Full Spectrum of Break Sizes (FULL SPECTRUM LOCA Methodology), WCAP-16996-P-A, Revision 1, November 2016.

1.6-6 Revision 26 September 2021

DCPP UNITS 1 & 2 FSAR UPDATE 1.6.2 MISCELLANEOUS TECHNICAL REPORTS Section Title Reference

1. H. E. Cramer, et al, "Survey of the Elevated Line Source," 2.3(1)

Technical Report, Contract No. DA-42-007-AMC-120(R), GCA Technical Report No. 66-13-G, GCA Corporation, Bedford, Mass., 61 pp., 1967.

2. C. R. Dickson, et al, "Aerodynamic Effects of the EBR-II 2.3(1)

Containment Vessel Complex on Effluent Concentration,"

Proc. of the AEC Meteor. Inf. Meeting at Chalk River, Ontario, September 11-14, 1967, pp.87-104.

3. J. G. Edinger, "The Influence of Terrain and Thermal 2.3(1)

Stratification of Flow Across the California Coastline," AFCRL-TR-60-438, Final Report, Contract No. AF(604)-5212, University of California, Los Angeles, 1960

4. P. A. Leighton, "Geographic Aspects of Air Pollution," 2.3(1)

Geographic Review, LVI, No. 2, 1966, pp. 153-174.

5. J. C. Ulberg, "Meteorological Data for Predicting Inhalation 2.3(1)

Hazards from Space Unit Launch Operations at Point Arguello," USNRDL-TR-1112, U.S. Naval Radiological Defense Laboratory, San Francisco, Ca., 1966, pp. 83.

6. H. E. Cramer, et al, "Meteorological Prediction Techniques 2.3(1) and Data System," Final Report Contract No. DA-42-007-CML-552, U.S. Army, Dugway Proving Ground, Dugway, Utah, 1964.

7. F. Pasquill, Atmospheric Diffusion, D. Van Nostrand 2.3 Company, Ltd., London, 1962, pp. 190.

8. R. A. Dean, "Thermal Contact Conductance Between U0 2 and 4.4 Zircaloy-2," CVNA-127, May, 1962.

9. A. M. Ross and R. L. Stoute, "Heat Transfer Coefficient 4.4 Between U02 and Zircaloy-2," NRCL-1552, June, 1962.

10. L. S. Tong, "Prediction of Departure from Nucleate Boiling for 4.4 an Auxiliary Non-Uniform Heat Flux Distribution," Journal of Nuclear Energy, Vol. 21, 1967, pp. 241-248.

1.6-7 Revision 26 September 2021

DCPP UNITS 1 & 2 FSAR UPDATE Section Title Reference

11. J. Weisman, et al, "Experimental Determination of the 4.4 Departure from Nucleate Boiling in Large Rod Bundles at High Pressure," Chem, Eng., Prog. Sump. Ser., 64, No. 82, 1968, pp. 114-125.

12. L. S. Tong, et al, "Critical Heat Flux (DNB) in Square and 4.4 Triangular Array Rod Bundles," JSME, Semi-International Symposium, Paper No. 256, Tokyo, Japan 1967

13. L. A. Stephan, The Effects of Cladding Material and Heat 4.4 Treatment on the Response of Waterlogged U0 2 Fuel Rods to Power Bursts, IN-ITR-111, January, 1970.

14. Deleted

15. Deleted

16. M. A. Styrikovich, et al, Atomnoya Energya, Vol. 17, No. 1, 6.2 July 1964, pp. 45-49, (Translation in UD 621.039.562.5)

17. W. F. Pasedag and J. L. Gallagher, "Drop Size Distribution 6.2 and Spray Effectiveness," Nuclear Technology, 10, 1971,

p. 412.

18. L. F. Parsly, Design Considerations of Reactor Containment 6.2 Spray Systems, ORNL-TM-2412, Part VII, 1970.

19. W. D. Fletcher, et al, "Post-LOCA Hydrogen Generation in 6.2 PWR Containments," Journal of American Nuclear Society, June 1970.

20. W. D. Fletcher, et al, "Post-LOCA Hydrogen Generation in 6.2 PWR Containments," Nuclear Technology 10, 1971, pp. 420-427.

21. H. E. Zittel, Radiation and Thermal Stability of Spray 6.2 Solutions, ORNL-NSRD Program Bi-Monthly Report for May-June, 1969. ORNL-TM-2663, September 1969.

22. W. B. Cottrell, ORNL Nuclear Safety Research and 6.2 Development Program Bi-Monthly Report for July-August 1968, ORNL-TM-2368, November 1968.

1.6-8 Revision 26 September 2021

DCPP UNITS 1 & 2 FSAR UPDATE Section Title Reference

23. W. B. Cottrell, ORNL Nuclear Safety Research and 6.2 Development Program Bi-Monthly Report for September-October 1968, ORNL-TM-2425, p. 53, January 1969.

24. H. E. Zittel and T. H. Row, "Radiation and Thermal Stability of 6.2 Spray Solutions," Nuclear Technology, 10, 1971, pp. 436-443.

25. A. O. Allen, The Radiation Chemistry of Water and Aqueous 6.2 Solutions, Princeton, N.J., Van Nostrand, 1961.

26. Deleted

27. Deleted

28. E. A. J. Eggleton, A Theoretical Examination of Iodine-Water 6.2 Partition Coefficients, AERE(R)-4887, 1967.

29. M. E. Meek and B. F. Rider, Summary of Fission Product 11.1 Yields for U-235, U-238, Pu-239, and Pu-241 at Thermal, Fission Spectrum and 14 Mey Neutron Energies, APED-5398, March 1, 1968.

30. J. J. DiNunno, et al, Calculation of Distance Factors for Power 6.2, 11.1 and Test Reactor Sites, TID-14844, March 23, 1962.

31. J. O. Blomeke and M. F. Todd, Uranium-235 Fission - Product 11.1 Production as a Function of Thermal Neutron Flux, Irradiation Time, and Decay Time, ORNL-2127, August 19, 1957.

32. F. J. Perkins and R. W. King, "Energy Release from the 11.1 Decay of Fission Products," Nuclear Science and Engineering,1958.

33. D. F. Toner and J. S. Scott, Fission Product Release from 11.1 UO2 Nuclear Safety, Volume 3, No. 2, December 1961.

34. J. Belle, "Uranium Dioxide: Properties and Nuclear 11.1 Applications," Naval Reactor, DRD of NRC, 1961.

1.6-9 Revision 26 September 2021

DCPP UNITS 1 & 2 FSAR UPDATE Section Title Reference

35. S. G. Gillespie and W. K. Brunot, "EMERALD NORMAL - A 11.1, 11.2, Program for the Calculation of Activity Releases and Doses 11.3, 12.1, from Normal Operation of a Pressurized Water Plant," 15.5 Program Description and User's Manual, Pacific Gas and Electric Company, January 1973. (Provided to AEC in 1973.)

36. Deleted in Revision 1.

37. A. B. Sisson, et al, "Evaluation for Removal of Radio-nuclides 11.2 from PWR Steam Generator Blowdowns," International Water Conference, November 2, 1971.

38. Deleted

39. Deleted

40. Deleted

41. W. K. Brunot, EMERALD - A Program for the Calculation of 6.2 Activity Releases and Potential Doses From a Pressurized Water Reactor Plant, Pacific Gas and Electric Company, October 1971. (Provided to AEC in 1971.)

42. L. S. Tong, "Prediction of Departure from Nucleate Boiling for 4.4 an Axially Non-Uniform Heat Flux Distribution,"

J. Nuclear Energy, 21, 1967, pp. 241-248.

43. F. W. Dittus and L. M. K. Boelter, University of California 4.4, 15.4 (Berkeley), Public Eng., 1930, 2,433.

44. W. H. Jens and P. A. Lottes, Analysis of Heat Transfer, 15.4 Burnout, Pressure Drop, and Density Data for High Pressure Water, USAEC Report ANL-4627, 1951.

45. T. G. Taxelius, ed. Annual Report - Spert Project, 15.4 October 1968 September 1969. Idaho Nuclear Corporation, IN-1370, June 1970.

46. R. C. Liimatainen and F. J. Testa, Studies in TREAT of 15.4 Zircaloy-2-Clad, UO2 Core Simulated Fuel Elements, ANL-7225, January-June 1966, November, 1966, p. 177.

1.6-10 Revision 26 September 2021

DCPP UNITS 1 & 2 FSAR UPDATE Section Title Reference

47. Regulatory Guide 1.109, Calculation of Annual Doses to Man 11.2, 11.3, from Routine Releases of Reactor Effluents for the Purpose of 11.6 Evaluating Compliance with 10 CFR Part 50, Appendix I, Revision 1, October 1977.

Note 1. These technical reports were originally referenced in FSAR Amendment 85, Appendices 2.3A and 2.3B (refer to Section 2.3.3.1).

1.6.3 DRAWINGS INCORPORATED BY REFERENCE Controlled engineering drawings were removed from the UFSAR at Revision 15. The drawings are considered incorporated by reference. Table 1.6-1 identifies the controlled engineering drawings that are incorporated by reference and also provides a cross-reference of the controlled engineering drawings to the respective UFSAR figure number. The contents of the drawings are controlled by DCPP procedures.

1.6-11 Revision 26 September 2021

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DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.3-2 Sheet 1 of 4 HISTORICAL INFORMATION IN ITALICS BELOW NOT REQUIRED TO BE REVISED MAJOR DESIGN CHANGES SINCE THE PSAR (Historical-valid through July 1974)

Original FSAR Section Item Changes in Design References

1. Reactor vessel internals changes (Unit 2) - Thermal shield 4.2.2 replaced by neutron pads, and lower core support plate and upper internals support system redesigned.

2. Tetra boron carbide control rod poison material changed to 4.2.3 silver-indium-cadmium.

3. Pellet density, fuel rod pressure, and burnable poison loading 4.3 pattern have changed to reflect more detailed design calculations and latest operating experience.

4. Reactor vessel top and bottom head penetration and control 4.3, 5.4, rod drive mechanisms have been redesigned and removable 5.4.2, 5.4.4 insulation has been provided on the closure head to enable inservice inspection.

5. Safety injection now provides cold leg injection with cold leg 6.3 or hot leg recirculation.

6. Rod withdrawal step from rod drop signal and automatic 7.2 turbine load cutback initiated by rod drop have been replaced by the power range neutron flux rate trips.

7. Relay logic for reactor protection and engineered safety 7.2, 7.3 features actuation system has been changed to solid-state logic.

8. On-line testing has been provided for engineered safety 7.3 features actuation system.

9. Analog rod position indication has been replaced by digital 7.7.1 rod position indication.

10. Deleted in Revision 15

11. Design criteria changes in the event of inleakage of 9.2.2 contaminated water into component cooling water (CCW) system. This tends to minimize possible release of reactor coolant outside containment via the CCW system.

Revision 23 December 2016

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.3-2 Sheet 2 of 4 HISTORICAL INFORMATION IN ITALICS BELOW NOT REQUIRED TO BE REVISED Original FSAR Section Item Changes in Design References

12. The compressed air system is revised to eliminate the 9.3.1 emergency air system. This satisfies safety criteria while reducing potential leakage paths from containment.

13. The stainless steel liner in the spent fuel pool and transfer 9.1.2 canal is changed from Design Class I to Design Class II. The liners prevent minor leakage, and the pool and canal structures remain Design Class I and are relied upon to prevent major failure.

14. The primary water storage tank is reclassified from Design 9.2.4 Class I to Design Class II. This is no longer the primary source of makeup water to the CCW System. A backup source to a makeup supply to a Design Class I system itself need not be classified Design Class I.

15. The detectors for the fire detection alarm system are 9.5.1 relocated to give more specific identification of the location of the source. Instrument ac power is provided.

16. In the containment structure, vertical joints are provided with 3.8.2 a shear key, as required by ACI 301-66.

17. The Chief Mechanical Engineer is no longer the designated 17.0 Project Engineer. This change was made April 26, 1971.

18. Those parts of the fire protection system that protect Design 9.5.1 Class II and III equipment and structures are not required to be Design Class I.

19. Inspection procedures for cable were modified to require 8.5.2 tests on sample reels from each production run, rather than on each reel.

20. The fuel assembly array is revised from 15 x 15 to 17 x 17. 4 and 15 The change was initiated to maintain sufficient flexibility to fulfill the requirements of, or any changes to, 10 CFR 50.46:

"Acceptance Criteria for Emergency Core Cooling Systems for Light-Water Nuclear Power Reactors."

21. The steam generator blowdown treatment system is added to 11.2.2 provide for treatment in the event that there is primary-to-secondary leakage.

Revision 23 December 2016

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.3-2 Sheet 3 of 4 HISTORICAL INFORMATION IN ITALICS BELOW NOT REQUIRED TO BE REVISED Original FSAR Section Item Changes in Design References

22. An alarm system is added to indicate the rupture of a 9.2 auxiliary seawater cooling header. The function of the alarm is to alert the operator in the event that the header breaks, so that the operator can route the cooling water to the redundant supply header and restore the cooling function to the CCW system.

23. The turbine building is protected from floods due to pipe 9.2 breaks by the addition of an 18-inch overflow drain from the sump system to the circulating water discharge canal.

24 Protection against flooding of the turbine building is provided 10.4 by design changes to decrease the probability of rupturing the expansion joints at the water box. Also, the consequences of a rupture are minimized by the addition of expansion joint sleeves.

25. A system is added and designed to detect and alarm in the 3.9 event that there are loose parts in the reactor coolant system.

26. A Design Class I supply of demineralized water is provided 9.1 for makeup to the spent fuel pool.

27. The ventilation system for the fuel handling area is modified 9.4 and reclassified to Design Class I.

28. A Design Class I containment hydrogen purge system is 6.2 provided for reducing the containment atmosphere hydrogen concentration in the event of a LOCA. The system has redundant sets of supply and exhaust fans and filters. Each fan is on a separate vital bus.

29. The heating, ventilating, and air conditioning system for the 9.4 control room is modified and is reclassified as Design Class I.

The system has four modes of operation designed to make the control room habitable: (a) during normal operation,(b) during long-term occupancy, (c) in the event that there is excessive airborne activity external to the control room, and (d) in the event that there is a fire in the control room.

Revision 23 December 2016

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.3-2 Sheet 4 of 4 HISTORICAL INFORMATION IN ITALICS BELOW NOT REQUIRED TO BE REVISED Original FSAR Section Item Changes in Design References

30. Design changes add the capability of maintaining reactor 5.1 coolant system temperature during hot shutdown operations; when the reactor is subcritical, the steam dumps to the main condenser. This is accomplished by a controller in the steam line, operating in the pressure control mode, which is set to maintain the steam generator steam pressure.

31. Meteorological monitoring equipment will provide data to be 16.4 recorded in the control room during plant operation.

Revision 23 December 2016

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.4-1 Sheet 1 of 3 HISTORICAL INFORMATION IN ITALICS BELOW NOT REQUIRED TO BE REVISED PRINCIPAL CONSULTANTS AND CONTRACT DESCRIPTION (Historical-valid through March 1986)

Principal Consultant Contract (Over $100,000)

Anco Engineers, Inc. Raceway system qualification; seismic testing of mechanical equipment Arremany & Associates Nondestructive examination services Associated Technical Training Services Operator training Babcock & Wilcox, Inc. Engineering support Bechtel Power Corporation Project management, engineering, construction procurement, startup, project cost and scheduling, quality assurance J. R. Benjamin and Associates, Inc. Seismic verification of auxiliary and turbine buildings; frequency of vessel impact on intake structure William K. Brunot Reliability and risk analysis Burns & Roe, Inc. Engineering quality control services California Department of Fish and Game Marine biology studies California Polytechnic State University Marine biology studies Chemrad Corporation Radiological and health physics support Cygna Energy Services, Inc. Piping support and HVAC equipment qualification Earth Sciences Associates Geological investigations Ecological Analysts, Inc. Marine biology studies Revision 23 December 2016

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.4-1 Sheet 2 of 3 HISTORICAL INFORMATION IN ITALICS BELOW NOT REQUIRED TO BE REVISED Principal Consultant Contract (Over $100,000)

EDS Nuclear, Inc. Control room (HVAC) design, technical support center pressurization system design, piping anchors design review, radiation shielding design review, emergency core cooling system nozzle fatigue analysis Energy Training Corporation Operator training Geri Engineering, Inc. Reactor vessel inservice inspection tool modification Harding - Lawson Associates Soil investigations, geophysical surveys Hydro - Research Science Discharge structure model study Innova Corporation Pipe support design review and redesign engineering James Engineering Company Engineering support Kaiser Engineers, Inc. Program management and engineering services, independent assessment of alternative cooling water systems Lambert & Company Nondestructive examination services Nuclear Services Corporation Pipe break analysis Nucon, Inc. Engineering support for fuel load and startup NUS Corporation Engineering studies of spent fuel pool storage expansion Nutech Engineers, Inc. Seismic and environmental qualification engineering support Offshore Technology Corporation Intake structure hydraulic model studies Omar J. Lillevang Breakwater design, breakwater damage study Revision 23 December 2016

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.4-1 Sheet 3 of 3 HISTORICAL INFORMATION IN ITALICS BELOW NOT REQUIRED TO BE REVISED Principal Consultant Contract (Over $100,000)

Pickard, Lowe, & Garrick, Inc. Probabilistic risk assessment Project Assistance Corporation Quality assurance program support Radiation Research Associates, Inc. Shielding design review Regents of the University of California Thermal physical modeling studies R. F. Reedy and Associates Quality assurance verification Robert L. Cloud Associates, Inc. Hosgri seismic reverification program Stone & Webster Engineering Corporation Independent design verification program -

Phase II TERA Corporation Source modeling studies, general engineering, thermal discharge assessment, assessment of alternative cooling water systems Terra Technology Corporation Seismic recording system maintenance and records processing Teledyne Engineering Services Independent design verification program URS/John A. Blume and Associates Seismic structural criteria, electrical seismic testing criteria, seismic research program, seismic review and reverification, independent internal review, Hosgri seismic evaluation Waltek Services Technical support services Westinghouse Electric Corporation Long-term seismic research program, environmental qualification, piping redesign and qualification, seismic reverification technical support Woodward - Clyde and Associates Seismic surveys Wyle Laboratories Seismic test and engineering support Revision 23 December 2016

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.4-2 Sheet 1 of 3 HISTORICAL INFORMATION IN ITALICS BELOW NOT REQUIRED TO BE REVISED SUPPLIERS OF IMPORTANT EQUIPMENT AND MATERIALS OTHER THAN NUCLEAR STEAM SUPPLY SYSTEM (Historical-valid through March 1986)

Supplier Equipment/Materials Alco Engines Division, White Industrial Diesel generator units Power, Inc.

American Bridge Co., Division of U.S. Steel Furnish structural steel Corp.

AMF Cuno Division Radioactive waste filters Armco Steel Corp. Containment wall penetration flued heads Babcock & Wilcox Safety parameter display system Berkeley Steel Construction Co. Radioactive waste tanks Bingham-Willamette Pump Co. Component cooling water pumps, auxiliary saltwater pumps Byron Jackson Pump, Division of Borg- Auxiliary feedwater pumps Warner Corp.

Capital Westward Inc. Radioactive waste tanks Chem-Nuclear Services Inc. Radioactive resin removal and transfer system Chemetron Corp. Carbon dioxide Combustion Engineering Subcooled margin monitor Contromatics Corp. Radioactive waste valves De Laval Turbine Inc. Diesel fuel transfer pumps Dresser Industries Inc. Steam generator safety valves Fairbanks-Morse Co. Fire pumps Revision 23 December 2016

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.4-2 Sheet 2 of 3 HISTORICAL INFORMATION IN ITALICS BELOW NOT REQUIRED TO BE REVISED Supplier Equipment/Materials Fenwall Inc. Halon 1301 system Fisher Controls Co. Class I pressure/level controllers, and control valves Fulton Shipyard Fuel handling area crane General Electric Co. Electrical penetrations of containment structure, 12 and 4.16-kV switchgear Grinnell Co. Radioactive waste valves Harnischfeger P&H Turbine building bridge cranes Ingersoll-Rand Co. Radioactive waste pumps, reactor coolant drain tank pump, makeup water system pumps J. E. Lonergan Co. Class I safety relief valves Mine Safety Appliances Co. Radwaste gas analyzers Murphy Pacific Corp. Furnish structural steel M. W. Kellogg Co. (Pullman Power Main systems piping Products)

National Controls, Inc. Condensed waste drumming system Paul Monroe Hydraulics Dome service crane snubbers Pyrotronics, Inc. Fire detection and alarm system Quick Manufacturing Co. Dome service crane Schutte and Koerting Co. Main steam isolation and check valves Scott Company of California Ventilation and air filters, fire water and stand pipe system Revision 23 December 2016

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.4-2 Sheet 3 of 3 HISTORICAL INFORMATION IN ITALICS BELOW NOT REQUIRED TO BE REVISED Supplier Equipment/Materials Velan Valve Corp. Radioactive waste valves Viking Automatic Sprinkler Co., Chemtron Water spray and CO2 fire protection systems Corp. (Subcontractor)

Westinghouse Electric Corp. Radioactive waste evaporators Yuba Manufacturing Co. Component cooling water heat exchanger, polar crane Revision 23 December 2016

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.4-3 Sheet 1 of 3 HISTORICAL INFORMATION IN ITALICS BELOW NOT REQUIRED TO BE REVISED CONSTRUCTION AND INSTALLATION CONTRACTORS (Historical-valid through March 1986)

Contractor Units 1 and 2 In-progress Contracts Over $100,000 Bechtel Construction Inc. Plant maintenance Plant Asbestos - Thorpe Insulation Furnish and install insulation Promatec Furnish and install insulation Pullman Power Products Erect plant and steam piping Westinghouse Electric Corporation Erect turbine-generator Contractor Units 1 and 2 Completed Contracts Over $100,000 A. J. Diani Construction Paving of access roads American Bridge Complete structural steel Ames Associates Repair breakwater Arrowhead Industrial Water Furnish demineralizer Bigge Crane & Rigging Co. Heavy equipment handling Bigge Drayage Co. Material receiving/storage (Pismo Beach laydown and storage yard)

Bostrom-Bergen Structural steel Bovee & Crail Construction Erect intake equipment & pipe Chemtrol Corporation Furnish and install penetration seals Continental Heller Corp. Construct security building E.H. Haskell Company Parking lot Revision 23 December 2016

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.4-3 Sheet 2 of 3 HISTORICAL INFORMATION IN ITALICS BELOW NOT REQUIRED TO BE REVISED Contractor Units 1 and 2 Completed Contracts Over $100,000 Endurance Metal Product Co. Erect miscellaneous steel Granite Constr. Co. and Construct breakwaters Gordon H. Ball, Inc.

Guy F. Atkinson Company Construction of seismic modifications, construct buildings Healy - Tibbits Repair breakwater H&H Construction, Inc. Grading and paving (Pismo Beach laydown and storage yard)

H. H. Robertson Co. Install siding and roofing H.P. Foley Company Install wiring, electrical equipment, and instrumentation. Construct seismic modifications of buildings.

Morgan Equipment Co. Batch plant Murphy Pacific Corp. Furnish and install structural steel erect turbine building cranes Pinkerton's Inc. Security guard service Pittsburg-Des Moines Steel Co. Fabricate auxiliary building tanks, construct storage tanks Pullman Power Products Construct pipe rupture restraints Relocate Structures, Inc. Construct administration building Robert McMullan & Son, Inc. Finish painting Sanchez & Son, Inc. Grading and paving (Pismo Beach laydown and storage yard)

San Luis Garbage Disposal of waste water Revision 23 December 2016

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.4-3 Sheet 3 of 3 HISTORICAL INFORMATION IN ITALICS BELOW NOT REQUIRED TO BE REVISED Contractor Units 1 and 2 Completed Contracts Over $100,000 Scott Company of California Furnish and install air conditioning and ventilation System Steel Builders Construction offices, warehouse buildings (Pismo Beach laydown and storage yard)

Tech-Sil, Inc. Furnish and install penetration seals Valley Trucking of Santa Maria, Inc. Disposal of waste water Viking Automatic Sprinkler Co. Furnish and install fire protection Walter Bros. Construction Co. and Plant roads and site preparation, construct Harford Milburn & Sansome Co. Drive-County Road construct access road Wismer & Becker Contracting Install electrical equipment switchyard, install Engineers mechanical equipment/erect NSSS Revision 23 December 2016

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DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 1 of 28 CONTROLLED ENGINEERING DRAWINGS/FSAR UPDATE FIGURES CROSS REFERENCE Figure Sheet Drawing Description 1.2-3 500001-1 Area Location Plan 1.2-4 57727-1 Auxiliary, Containment, and Fuel Handling Buildings (Units 1 & 2), Plan at Elevation 140 ft 1.2-5 57726-1 Auxiliary, Containment, and Fuel Handling Buildings (Units 1 & 2), Plan at Elevation 115 ft 1.2-6 57725-1 Auxiliary, Containment, and Fuel Handling Buildings (Units 1 & 2), Plan at Elevations 91 and 100 ft 1.2-7 57724-1 Auxiliary and Containment Buildings (Units 1 & 2), Plan at Elevation 85 ft 1.2-8 57723-1 Auxiliary and Containment Buildings (Units 1 & 2), Plan at Elevation 73 ft 1.2-9 57722-1 Auxiliary and Containment Buildings (Unit 1 & 2), Plan at Elevations 60 and 64 ft 1.2-10 500977-1 Containment Building (Unit 2), Plan at Elevations 115 and 140 ft 1.2-11 500971-1 Containment & Fuel Handling Buildings (Unit 2), Plan at Elevations 85, 91, and 100 ft 1.2-12 500968-1 Containment Building (Unit 2), Plan at Elevations 60, 64, and 73 ft 1.2-13 57721-1 Turbine Building (Unit 1), Plan at Elevation 140 ft 1.2-14 57720-1 Turbine Building (Unit 1), Plan at Elevation 119 ft 1.2-15 57719-1 Turbine Building (Unit 1), Plan at Elevation 104 ft 1.2-16 57718-1 Turbine Building (Unit 1), Plan at Elevation 85 ft 1.2-17 500967-1 Turbine Building (Unit 2), Plan at Elevation 140 ft 1.2-18 500966-1 Turbine Building (Unit 2), Plan at Elevation 119 ft 1.2-19 500965-1 Turbine Building (Unit 2), Plan at Elevation 104 ft 1.2-20 500964-1 Turbine Building (Unit 2), Plan at Elevation 85 ft 1.2-21 57728-1 Auxiliary Building (Units 1 & 2), Section A-A 1.2-22 57729-1 Auxiliary and Containment Buildings (Unit 1 & 2), Section B-B 1.2-23 57730-1 Auxiliary and Fuel Handling Buildings (Unit 1 & 2), Section C-C Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 2 of 28 Figure Sheet Drawing Description 1.2-24 57731-1 Containment, Turbine, and Fuel Handling Buildings (Unit 1) Section D-D 1.2-25 57732-1 Auxiliary, Turbine, and Fuel Handling Buildings (Unit 1), Section E-E 1.2-26 57733-1 Auxiliary, Fuel Handling, and Turbine Buildings (Units 1 & 2), Section F-F 1.2-27 57734-1 Turbine Building (Unit 1), Section G-G 1.2-28 500969-1 Containment Building (Unit 2), Section A-A 1.2-29 500972-1 Vent & Fuel Handling Buildings (Unit 2),

Section B-B 1.2-30 500973-1 Turbine, Containment, & Fuel Handling Buildings (Unit 2), Section C-C 1.2-31 500974-1 Turbine Building (Unit 2), Sections D-D and E-E 1.2-32 500976-1 Turbine Building (Unit 2), Section F-F 2.4-7 468999-1 Typical Sections for Tribar Armor Construction 2.4-8 469001-1 Restored Cross-sections and Embedment Plan 3.2-1 1 of 4 102001-3 Piping Schematic Legend 3.2-1 1A of 4 102023-2 Piping Schematic Legend 3.2-1 2 of 4 108001-3 Piping Schematic Legend 3.2-1 2A of 4 108023-2 Piping Schematic Legend 3.2-2 1 of 23 102002-4 Piping Schematic - Condensate System (23 Sheets) 3.2-2 2 of 23 108002-4 3.2-2 3 of 23 102002-5 3.2-2 3A of 23 102002-5A 3.2-2 4 of 23 108002-5 3.2-2 5 of 23 102002-6 3.2-2 5A of 23 102002-6A 3.2-2 6 of 23 108002-6 3.2-2 7 of 23 102002-7 3.2-2 8 of 23 108002-7 3.2-2 9 of 23 102002-8 3.2-2 9A of 23 102002-8A 3.2-2 10 of 23 108002-8 3.2-2 10A of 23 108002-8A 3.2-2 11 of 23 102002-9 3.2-2 11A of 23 102002-9A Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 3 of 28 Figure Sheet Drawing Description 3.2-2 11B of 23 102002-9B 3.2-2 12 of 23 108002-9 3.2-2 12A of 23 108002-9A 3.2-2 13 of 23 102002-10 3.2-2 14 of 23 108002-10 3.2-2 15 of 23 102002-11 3.2-2 16 of 23 108002-11 3.2-3 1 of 11 102003-3 Piping Schematic - Feedwater System (11 Sheets) 3.2-3 1A of 11 102003-3A 3.2-3 2 of 11 108003-3 3.2-3 3 of 11 102003-4 3.2-3 4 of 11 108003-4 3.2-3 5 of 11 102003-4A 3.2-3 6 of 11 108003-4A 3.2-3 7 of 11 102003-5 3.2-3 8 of 11 108003-5 3.2-3 9 of 11 102003-6 3.2-3 10 of 11 108003-6 3.2-4 1 of 16 102004-3 Piping Schematic - Turbine Steam Supply System (16 Sheets) 3.2-4 2 of 16 108004-3 3.2-4 3 of 16 102004-4 3.2-4 4 of 16 108004-4 3.2-4 5 of 16 102004-5 3.2-4 6 of 16 108004-5 3.2-4 7 of 16 102004-6 3.2-4 8 of 16 108004-6 3.2-4 9 of 16 102004-7 3.2-4 10 of 16 108004-7 3.2-4 11 of 16 102004-8 3.2-4 12 of 16 108004-8 3.2-4 13 of 16 102004-9 3.2-4 14 of 16 102004-10 3.2-4 15 of 16 108004-9 3.2-4 16 of 16 108004-10 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 4 of 28 Figure Sheet Drawing Description 3.2-5 1 of 12 102005-2 Piping Schematic - Extraction Steam and Heater Drip System (12 Sheets) 3.2-5 2 of 12 108005-2 3.2-5 3 of 12 102005-3 3.2-5 4 of 12 108005-3 3.2-5 5 of 12 102005-4 3.2-5 6 of 12 108005-4 3.2-5 7 of 12 102005-5 3.2-5 8 of 12 108005-5 3.2-5 9 of 12 102005-6 3.2-5 10 of 12 108005-6 3.2-5 11 of 12 102005-7 3.2-5 12 of 12 108005-7 3.2-6 1 of 10 102006-3 Piping Schematic - Auxiliary Steam System (10 Sheets) 3.2-6 1A of 10 102006-3A 3.2-6 2A of 10 102006-3B 3.2-6 2 of 10 108006-3 3.2-6 3 of 10 102006-4 3.2-6 4 of 10 108006-4 3.2-6 5 of 10 102006-4A 3.2-6 6 of 10 108006-4A 3.2-6 7 of 10 102006-5 3.2-6 8 of 10 108006-5 3.2-7 1 of 9 102007-3 Piping Schematic - Reactor Coolant System (9 Sheets) 3.2-7 2 of 9 108007-3 3.2-7 3 of 9 102007-4 3.2-7 4 of 9 108007-4 3.2-7 5 of 9 102007-5 3.2-7 6 of 9 108007-5 3.2-7 7 of 9 102007-5A 3.2-7 7A of 9 102007-5B 3.2-7 8 of 9 108007-5A 3.2-8 1 of 34 102008-3 Piping Schematic - Chemical and Volume Control System (34 Sheets)

Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 5 of 28 Figure Sheet Drawing Description 3.2-8 1A of 34 102008-3A 3.2-8 1B of 34 102008-3B 3.2-8 1C of 34 102008-3C 3.2-8 2 of 34 108008-3 3.2-8 3 of 34 102008-4A 3.2-8 4 of 34 108008-4A 3.2-8 5 of 34 102008-4 3.2-8 6 of 34 108008-4 3.2-8 7 of 34 102008-4B 3.2-8 7A of 34 102008-4C 3.2-8 7B of 34 102008-4D 3.2-8 7C of 34 102008-4E 3.2-8 8 of 34 108008-4B 3.2-8 8A of 34 108008-4C 3.2-8 9 of 34 102008-5 3.2-8 10 of 34 108008-5 3.2-8 11 of 34 102008-5A 3.2-8 12 of 34 108008-5A 3.2-8 13 of 34 102008-5B 3.2-8 14 of 34 108008-5B 3.2-8 15 of 34 102008-5C 3.2-8 16 of 34 108008-5C 3.2-8 16A of 34 102008-5D 3.2-8 17 of 34 102008-6 3.2-8 17A of 34 102008-6A 3.2-8 18 of 34 108008-6 3.2-8 19 of 34 102008-7 3.2-8 20 of 34 108008-7 3.2-8 21 of 34 102008-8 3.2-8 21A of 34 102008-8A 3.2-8 22 of 34 108008-8 3.2-8 23 of 34 102008-9 3.2-8 24 of 34 108008-9 3.2-9 1 of 12 102009-3 Piping Schematic - Safety Injection System (12 Sheets) 3.2-9 2 of 12 108009-3 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 6 of 28 Figure Sheet Drawing Description 3.2-9 3 of 12 102009-4 3.2-9 4 of 12 108009-4 3.2-9 5 of 12 102009-5 3.2-9 5A of 12 102009-5A 3.2-9 6 of 12 108009-5 3.2-9 6A of 12 108009-5A 3.2-9 7 of 12 102009-6 3.2-9 8 of 12 108009-6 3.2-9 9 of 12 102009-7 3.2-9 10 of 12 108009-7 3.2-10 1 of 6 102010-3 Piping Schematic - Residual Heat Removal System (6 Sheets) 3.2-10 2 of 6 108010-3 3.2-10 3 of 6 102010-4 3.2-10 4 of 6 108010-4 3.2-10 5 of 6 102010-5 3.2-10 6 of 6 108010-5 3.2-11 1 of 11 102011-2 Piping Schematic - Nuclear Steam Supply Sampling System (11 Sheets) 3.2-11 1A of 11 102011-2A 3.2-11 2 of 11 108011-2 3.2-11 3 of 11 102011-3 3.2-11 4 of 11 108011-3 3.2-11 5 of 11 102011-4 3.2-11 6 of 11 108011-4 3.2-11 7 of 11 102011-5 3.2-11 8 of 11 108011-5 3.2-11 9 of 11 102011-6 3.2-11 10 of 11 108011-6 3.2-12 1 of 2 102012-3 Piping Schematic - Containment Spray System (2 Sheets) 3.2-12 2 of 2 108012-3 3.2-13 1 of 3 102013-2 Piping Schematic - Spent Fuel Pool Cooling System (3 Sheets) 3.2-13 1A of 3 102013-2A 3.2-13 2 of 3 108013-2 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 7 of 28 Figure Sheet Drawing Description 3.2-14 1 of 17 102014-5 Piping Schematic - Component Cooling Water System (17 Sheets) 3.2-14 2 of 17 108014-5 3.2-14 3 of 17 102014-5A 3.2-14 3A of 17 102014-5B 3.2-14 4 of 17 108014-5A 3.2-14 5 of 17 102014-6 3.2-14 6 of 17 108014-6 3.2-14 7 of 17 102014-6A 3.2-14 8 of 17 108014-6A 3.2-14 9 of 17 102014-7 3.2-14 10 of 17 108014-7 3.2-14 11 of 17 102014-8 3.2-14 12 of 17 108014-8 3.2-14 13 of 17 102014-9 3.2-14 14 of 17 108014-9 3.2-14 15 of 17 102014-10 3.2-14 16 of 17 108014-10 3.2-15 1 of 14 102015-3 Piping Schematic - Service Cooling Water System (14 Sheets) 3.2-15 1A of 14 102015-3A 3.2-15 2 of 14 108015-3 3.2-15 2A of 14 108015-3A 3.2-15 2B of 14 108015-3B 3.2-15 3 of 14 102015-4 3.2-15 3A of 14 102015-4A 3.2-15 4 of 14 108015-4 3.2-15 5 of 14 102015-5 3.2-15 6 of 14 108015-5 3.2-15 7 of 14 102015-6 3.2-15 8 of 14 108015-6 3.2-15 9 of 14 102015-7 3.2-15 10 of 14 108015-7 3.2-16 1 of 21 102016-1 Piping Schematic - Makeup Water System (21 Sheets) 3.2-16 1A of 21 108016-1 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 8 of 28 Figure Sheet Drawing Description 3.2-16 2 of 21 108016-3 3.2-16 3 of 21 102016-4 3.2-16 4 of 21 108016-5 3.2-16 5 of 21 102016-6 3.2-16 6 of 21 102016-7 3.2-16 7 of 21 102016-8 3.2-16 8 of 21 102016-9 3.2-16 9 of 21 102016-9A 3.2-16 10 of 21 102016-10 3.2-16 11 of 21 102016-11 3.2-16 12 of 21 102016-13 3.2-16 13 of 21 102016-14 3.2-16 14 of 21 102016-16 3.2-16 15 of 21 108016-17 3.2-16 16 of 21 102016-18 3.2-16 17 of 21 108016-19 3.2-16 18 of 21 102016-20 3.2-16 19 of 21 102016-21 3.2-16 19A of 21 102016-21A 3.2-17 1 of 18 102017-3 Piping Schematic - Saltwater Systems (18 Sheets) 3.2-17 1A of 18 102017-3A 3.2-17 1B of 18 102017-3B 3.2-17 2 of 18 108017-3 3.2-17 2A of 18 108017-3A 3.2-17 2B of 18 108017-3B 3.2-17 3 of 18 102017-4 3.2-17 4 of 18 108017-4 3.2-17 5 of 18 102017-5 3.2-17 5A of 18 102017-5A 3.2-17 6 of 18 108017-5 3.2-17 7 of 18 102017-6 3.2-17 7A of 18 102017-6A 3.2-17 7B of 18 102017-6B 3.2-17 8 of 18 108017-6 3.2-17 8A of 18 108017-6A Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 9 of 28 Figure Sheet Drawing Description 3.2-17 8B of 18 108017-6B 3.2-17 8C of 18 108017-6C 3.2-18 1 of 27 102018 Piping Schematic - Fire Protection Systems (27 Sheets) 3.2-18 1A of 27 102018-2A 3.2-18 1B of 27 102018-2B 3.2-18 2 of 27 108018-2 3.2-18 3 of 27 102018-3 3.2-18 4 of 27 108018-3 3.2-18 4A of 27 108018-3A 3.2-18 5 of 27 102018-4 3.2-18 6 of 27 108018-4 3.2-18 7 of 27 102018-4A 3.2-18 8 of 27 108018-4A 3.2-18 9 of 27 102018-5 3.2-18 9A of 27 102018-5A 3.2-18 10 of 27 108018-5 3.2-18 10A of 27 108018-5A 3.2-18 11 of 27 102018-6 3.2-18 11A of 27 102018-6A 3.2-18 12 of 27 108018-6 3.2-18 12A of 27 108018-6A 3.2-18 13 of 27 102018-7 3.2-18 14 of 27 108018-7 3.2-18 15 of 27 102018-8 3.2-18 16 of 27 108018-8 3.2-18 17 of 27 102018-9 3.2-18 18 of 27 108018-9 3.2-18 19 of 27 102018-19 3.2-18 20 of 27 102018-20 3.2-19 1 of 26 102019-3 Piping Schematic - Liquid Radwaste System (26 Sheets) 3.2-19 2 of 26 108019-3 3.2-19 3 of 26 102019-3A 3.2-19 3A of 26 102019-3B 3.2-19 4 of 26 108019-3A Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 10 of 28 Figure Sheet Drawing Description 3.2-19 4A of 26 108019-3B 3.2-19 5 of 26 102019-4 3.2-19 6 of 26 108019-4 3.2-19 7 of 26 102019-5 3.2-19 7A of 26 102019-5A 3.2-19 7B of 26 102019-5B 3.2-19 7C of 26 102019-5C 3.2-19 8 of 26 108019-5 3.2-19 8A of 26 108019-5A 3.2-19 8B of 26 108019-5B 3.2-19 9 of 26 102019-6 3.2-19 10 of 26 108019-6 3.2-19 11 of 26 102019-6A 3.2-19 11A of 26 102019-6B 3.2-19 12 of 26 108019-6A 3.2-19 12A of 26 108019-6B 3.2-19 13 of 26 102019-7 3.2-19 14 of 26 108019-7 3.2-19 15 of 26 102019-8 3.2-19 15A of 26 102019-8A 3.2-19 16 of 26 108019-8 3.2-20 1 of 26 102020-3 Piping Schematic - Lube Oil Distribution and Purification System (26 Sheets) 3.2-20 1A of 26 102020-3A 3.2-20 1B of 26 102020-3B 3.2-20 2 of 26 108020-3 3.2-20 2A of 26 108020-3A 3.2-20 2B of 26 108020-3B 3.2-20 3 of 26 102020-4 3.2-20 4 of 26 108020-4 3.2-20 5 of 26 102020-5 3.2-20 6 of 26 108020-5 3.2-20 7 of 26 102020-6 3.2-20 7A of 26 102020-6A 3.2-20 7B of 26 102020-6B 3.2-20 8 of 26 108020-6 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 11 of 28 Figure Sheet Drawing Description 3.2-20 8A of 26 108020-6A 3.2-20 8B of 26 108020-6B 3.2-20 9 of 26 102020-7 3.2-20 10 of 26 108020-7 3.2-20 11 of 26 102020-8 3.2-20 12 of 26 108020-8 3.2-20 13 of 26 102020-9 3.2-20 14 of 26 108020-9 3.2-20 15 of 26 102020-10 3.2-20 16 of 26 108020-10 3.2-20 17 of 26 102020-11 3.2-20 18 of 26 108020-11 3.2-21 1 of 35 102021-2 Piping Schematic - Diesel Engine-Generator Systems (35 Sheets) 3.2-21 2 of 35 108021-2 3.2-21 3 of 35 102021-3 3.2-21 3A of 35 102021-3A 3.2-21 4 of 35 108021-3 3.2-21 4A of 35 108021-3A 3.2-21 4B of 35 108021-3B 3.2-21 5 of 35 102021-4 3.2-21 5A of 35 102021-4A 3.2-21 6 of 35 108021-4 3.2-21 6A of 35 108021-4A 3.2-21 6B of 35 108021-4B 3.2-21 7 of 35 102021-5 3.2-21 8 of 35 108021-5 3.2-21 8A of 35 108021-5A 3.2-21 8B of 35 108021-5B 3.2-21 9 of 35 102021-6 3.2-21 9A of 35 102021-6A 3.2-21 10 of 35 108021-6 3.2-21 10A of 35 108021-6A 3.2-21 10B of 35 108021-6B 3.2-21 11 of 35 102021-7 3.2-21 11A of 35 102021-7A Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 12 of 28 Figure Sheet Drawing Description 3.2-21 11B of 35 102021-7B 3.2-21 12 of 35 108021-7 3.2-21 12A of 35 108021-7A 3.2-21 12B of 35 108021-7B 3.2-21 13 of 35 102021-8 3.2-21 14 of 35 108021-8 3.2-21 14A of 35 108021-8A 3.2-21 14B of 35 108021-8B 3.2-21 15 of 35 102021-9 3.2-21 16 of 35 108021-9 3.2-21 16A of 35 108021-9A 3.2-21 16B of 35 108021-9B 3.2-22 1 of 16 102022-2 Piping Schematic - Turbine and Generator-Associated Systems (16 Sheets) 3.2-22 2 of 16 108022-2 3.2-22 3 of 16 102022-3 3.2-22 4 of 16 108022-3 3.2-22 5 of 16 102022-4 3.2-22 6 of 16 108022-4 3.2-22 7 of 16 102022-5 3.2-22 7A of 16 102022-5A 3.2-22 8 of 16 108022-5 3.2-22 8A of 16 108022-5A 3.2-22 9 of 16 102022-6 3.2-22 9A of 16 102022-6A 3.2-22 10 of 16 108022-6 3.2-22 10A of 16 108022-6A 3.2-22 11 of 16 102022-7 3.2-22 12 of 16 108022-7 3.2-23 1 of 53 102023-3 Piping Schematic - Ventilation and Air Conditioning Systems (53 Sheets) 3.2-23 2 of 53 108023-3 3.2-23 3 of 53 102023-4 3.2-23 4 of 53 108023-4 3.2-23 5 of 53 102023-5 3.2-23 6 of 53 108023-5 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 13 of 28 Figure Sheet Drawing Description 3.2-23 7 of 53 102023-6 3.2-23 7A of 53 102023-6A 3.2-23 7B of 53 102023-6B 3.2-23 8 of 53 108023-6 3.2-23 8A of 53 108023-6A 3.2-23 9 of 53 102023-7 3.2-23 10 of 53 108023-7 3.2-23 11 of 53 102023-8 3.2-23 12 of 53 108023-8 3.2-23 13 of 53 102023-9 3.2-23 13A of 53 102023-9A 3.2-23 14 of 53 108023-9 3.2-23 15 of 53 102023-10 3.2-23 16 of 53 108023-10 3.2-23 17 of 53 102023-11 3.2-23 18 of 53 108023-11 3.2-23 19 of 53 102023-12 3.2-23 20 of 53 108023-12 3.2-23 21 of 53 102023-13 3.2-23 21A of 53 102023-13A 3.2-23 22 of 53 108023-13 3.2-23 23 of 53 102023-14 3.2-23 24 of 53 108023-14 3.2-23 24A of 53 108023-15 3.2-23 25 of 53 102023-16 3.2-23 25A of 53 108023-16 3.2-23 26A of 53 102023-17A 3.2-23 26B of 53 102023-17B 3.2-23 26C of 53 102023-17C 3.2-23 26 of 53 102023-17 3.2-23 26D of 53 108023-17 3.2-23 27 of 53 102023-15 3.2-23 28 of 53 102023-19 3.2-23 29 of 53 102023-18 3.2-23 29A of 53 102023-18A Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 14 of 28 Figure Sheet Drawing Description 3.2-23 29B of 53 102023-18B 3.2-23 29C of 53 102023-18C 3.2-23 29D of 53 102023-18D 3.2-23 29E of 53 102023-18E 3.2-23 29F of 53 102023-18F 3.2-23 30 of 53 108023-18 3.2-23 30A of 53 108023-18A 3.2-23 30B of 53 108023-18B 3.2-23 30C of 53 108023-18C 3.2-23 30D of 53 108023-19 3.2-23 31 of 53 102023-20 3.2-23 32 of 53 108023-20 3.2-24 1 of 2 102024-3 Piping Schematic - Gaseous Radwaste System (2 Sheets) 3.2-24 2 of 2 108024-3 3.2-25 1 of 13 102025-3 Piping Schematic - Compressed Air System (13 Sheets) 3.2-25 1A of 13 102025-3A 3.2-25 1B of 13 102025-3B 3.2-25 2 of 13 108025-3 3.2-25 3 of 13 102025-4 3.2-25 3A of 13 102025-4A 3.2-25 4 of 13 108025-4 3.2-25 5 of 13 102025-5 3.2-25 6 of 13 108025-5 3.2-25 7 of 13 102025-6 3.2-25 8 of 13 108025-6 3.2-25 8A of 13 102025-8 3.2-25 9 of 13 108025-8 3.2-26 1 of 5 102026-3 Piping Schematic - Nitrogen and Hydrogen System (5 Sheets) 3.2-26 1A of 5 102026-3A 3.2-26 2 of 5 108026-3 3.2-26 3 of 5 102026-4 3.2-26 4 of 5 108026-4 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 15 of 28 Figure Sheet Drawing Description 3.2-27 1 of 2 102027-3 Piping Schematic - Oily Water Separator and Turbine Building Sump System (2 Sheets) 3.2-27 2 of 2 108027-3 3.5-6 505481-1 Auxiliary Feedwater Pump Turbine Missile Shield 3.6-2 1 of 2 438288-1 Containment Structure Pipe Rupture Restraints (2 sheets) 3.6-2 2 of 2 443359-1 3.6-5 515939-1 HELB Compartment Pressurization Study El. 85 ft Turbine Building 3.6-6 515940-1 HELB Compartment Pressurization Study El. 104 ft Turbine Building 3.6-7 515941-1 HELB Compartment Pressurization Study El. 119 ft Turbine Building 3.6-8 515942-1 HELB Compartment Pressurization Study El. 140 ft Turbine Building 3.6-9 515943-1 HELB Compartment Pressurization Study El. 60 ft Auxiliary and Containment Building 3.6-10 515944-1 HELB Compartment Pressurization Study El. 73 ft Auxiliary and Containment Building 3.6-11 515945-1 HELB Compartment Pressurization Study El. 85 ft Auxiliary and Containment Building 3.6-12 515946-1 HELB Compartment Pressurization Study El. 91 and 100 ft Auxiliary, Containment and Fuel Handling Bldg 3.6-13 515947-1 HELB Compartment Pressurization Study El. 115 ft Auxiliary, Containment and Fuel Handling Bldg 3.6-14 515948-1 HELB Compartment Pressurization Study El. 140 ft Auxiliary, Containment and Fuel Handling Bldg 3.6-15 515949-1 HELB Compartment Pressurization Study Section A-A Auxiliary Bldg 3.8-16 1 of 2 443252-1 Interior Concrete Outline - Plan at El. 119 ft and 140 ft, Containment Structure Areas G and F (2 sheets) 3.8-16 2 of 2 438233-1 3.8-17 1 of 2 443254-1 Interior Concrete Outline Main Sections Containment Structure (2 sheets) 3.8-17 2 of 2 438234-1 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 16 of 28 Figure Sheet Drawing Description 3.8-18 1 of 2 443276-1 Interior Concrete Reinforcing Typical Details and Drawing List Containment Structure (2 sheets) 3.8-18 2 of 2 438231-1 3.8-19 1 of 4 443277-1 Interior Concrete Reinforcing Sections and Details Containment Structure (4 sheets) 3.8-19 2 of 4 438239-1 3.8-19 3 of 4 438240-1 3.8-19 4 of 4 438242-1 3.8-20 1 of 2 443370-1 Concrete Outline and Reinforcing Annulus Platform at El. 140 ft, Containment Structure Areas F and G (2 sheets) 3.8-20 2 of 2 447254-1 3.8-23 438267-1 Containment Structure, Polar Crane 3.8-45 438431-1 Auxiliary Building, Concrete Outline - Plan at El. 100 ft Areas H and K 3.8-46 1 of 2 438432-1 Auxiliary Building, Concrete Outline - Plan at El. 115 ft Areas J, GE, and GW (2 sheets) 3.8-46 2 of 2 439533-1 3.8-47 1 of 3 438449-1 Auxiliary Building, Concrete Outline - Plans at El. 85, 100, 115, and 140 ft - Area L (3 sheets) 3.8-47 2 of 3 443204-1 3.8-47 3 of 3 443205-1 3.8-48 438445-1 Auxiliary Building, Concrete Outline - Section Areas J and K 3.8-49 438441-1 Auxiliary Building, Concrete Outline - Section Areas H and K 3.8-50 1 of 2 438457-1 Auxiliary Building, Concrete Reinforcing - Plan at El. 115 ft - Areas J, GE, and GW (2 sheets) 3.8-50 2 of 2 443227-1 3.8-51 438458-1 Auxiliary Building, Concrete Reinforcing - Plan at El. 115 ft - Areas H and K 3.8-52 443216-1 Auxiliary Building, Concrete Reinforcing - Plans at El. 115 and 140 ft - Area L 3.8-53 443460-1 Auxiliary Building, Concrete Reinforcing -

Miscellaneous Sections - Area K 3.8-54 438471-1 Auxiliary Building, Concrete Reinforcing -

Section Areas H, K, and GE 3.8-55 438465-1 Auxiliary Building, Control Room - Sections Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 17 of 28 Figure Sheet Drawing Description 3.8-56 438474-1 Auxiliary Building, Spent Fuel Pool - Concrete Reinforcing 3.8-57 439506-1 Auxiliary Building, Crane Support Structure -

Elevations and Details 3.8-58 439507-1 Auxiliary Building, Crane Support Structure -

Section and Details 3.8-59 439509-1 Auxiliary Building, Refueling Areas Overhead Crane 3.8-65 1 of 2 438034-1 Design Class I Tanks Concrete Foundations (2 Sheets) 3.8-65 2 of 2 463987-1 3.8-72 1 of 2 59459-1 Concrete Outline Plan - Top Deck Area 1 Intake Structure 3.8-72 2 of 2 59460-1 Concrete Outline Plan - Top Deck Area 2 Intake Structure 3.8-73 1 of 2 59461-1 Concrete Outline Plan - Pump Deck Area 1 Intake Structure 3.8-73 2 of 2 59462-1 Concrete Outline Plan - Pump Deck Area 2 Intake Structure 3.8-74 1 of 2 59463-1 Concrete Outline Plan - Invert Area 1 Intake Structure 3.8-74 2 of 2 59464-1 Concrete Outline Plan - Invert Area 2 Intake Structure 3.8-83 515213-1 Safety Related Masonry Walls, Turbine Bldg -

Unit 1 3.8-84 515214-1 Safety Related Masonry Walls, Turbine Bldg -

Unit 2 3.8-85 515215-1 Safety Related Masonry Walls, Auxiliary Bldg 4.2-1 1 of 2 6006510-7 Core Cross Section Outline - Unit 1 4.2-1 2 of 2 6006510-14 Core Cross Section Outline - Unit 2 4.2-2 1 of 2 6006510-155 17x17 Fuel Assembly Outline - Unit 1 4.2-2 2 of 2 6006510-132 17x17 Fuel Assembly Outline - Unit 2 4.2-3 1 of 2 6006510-156 Fuel Rod Assembly Outline - Unit 1 4.2-3 2 of 2 6006510-133 Fuel Rod Assembly Outline - Unit 2 4.2-16 1 of 3 6006510-61 RCCA Outline (Framatome) 4.2-16 2 of 3 6006510-134 RCCA Outline (Westinghouse)

Page 1 4.2-16 3 of 3 6006510-134 RCCA Outline (Westinghouse)

Page 2 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 18 of 28 Figure Sheet Drawing Description 4.2-17 1 of 2 6006510-65 Absorber Rod (Framatome) 4.2-17 2 of 2 6006510-135 Absorber Rod (Westinghouse)

Page 1 4.2- 6006510-21 Wet Annular Burnable Absorber Rod 18A 4.2-21 6006510-22 Secondary Source Assembly 4.2-22 6006510-23 Thimble Plug Assembly 4.2-24 1 of 2 6023226-24 Control Rod Drive Mechanism - Unit 1 4.2-24 2 of 2 6023226-27 Control Rod Drive Mechanism - Unit 2 5.5-13 500825-1 U1: Function Diagram, Reactor-Turbine Generator Protection 5.5-17 500800-1 U2: Function Diagram, Reactor-Turbine Generator Protection 6.3-6 6023231-1 DCPP1 Strainer Installation 6.3-7 6023231-20 DCPP2 Strainer Installation 6.5-1 107031-4 Auxiliary Feedwater System 6.5-2 107031-1A Long Term Cooling Water System 7.2-1 1 of 36 495841-1 Instrumentation and Control System Logic Diagrams (36 Sheets) 7.2-1 2 of 36 495871-1 7.2-1 3 of 36 495842-1 7.2-1 4 of 36 495872-1 7.2-1 5 of 36 495843-1 7.2-1 6 of 36 495873-1 7.2-1 7 of 36 495844-1 7.2-1 8 of 36 495874-1 7.2-1 9 of 36 495845-1 7.2-1 10 of 36 495875-1 7.2-1 11 of 36 495846-1 7.2-1 12 of 36 495876-1 7.2-1 13 of 36 495847-1 7.2-1 14 of 36 495877-1 7.2-1 15 of 36 495848-1 7.2-1 16 of 36 495878-1 7.2-1 17 of 36 495849-1 7.2-1 18 of 36 495879-1 7.2-1 19 of 36 495850-1 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 19 of 28 Figure Sheet Drawing Description 7.2-1 20 of 36 495880-1 7.2-1 21 of 36 495851-1 7.2-1 22 of 36 495881-1 7.2-1 23 of 36 495852-1 7.2-1 24 of 36 495882-1 7.2-1 25 of 36 495853-1 7.2-1 26 of 36 495883-1 7.2-1 27 of 36 495854-1 7.2-1 28 of 36 495884-1 7.2-1 29 of 36 495855-1 7.2-1 30 of 36 495885-1 7.2-1 31 of 36 495856-1 7.2-1 32 of 36 495886-1 7.2-1 33 of 36 495857-1 7.2-1 34 of 36 495887-1 7.2-1 35 of 36 495858-1 7.2-1 36 of 36 495888-1 7.3-1 19425-1 Logic Diagram Symbols 7.3-2 1 of 2 338070-1 Logic Diagram - Reactor Coolant Pump (2 sheets) 7.3-2 2 of 2 102787-1 7.3-3 1 of 2 19404-1 Logic Diagram - Centrifugal Charging Pump (CCP3) (2 sheets) 7.3-3 2 of 2 102788-1 7.3-4 1 of 2 19405-1 Logic Diagram - Centrifugal Charging Pumps (CCP1 and CCP2) (2 sheets) 7.3-4 2 of 2 102789-1 7.3-5 1 of 2 19406-1 Logic Diagram - Auxiliary Saltwater Pumps (2 sheets) 7.3-5 2 of 2 102790-1 7.3-6 1 of 2 19407-1 Logic Diagram - Containment Fan Coolers (2 sheets) 7.3-6 2 of 2 102791-1 7.3-7 1 of 2 19408-1 Logic Diagram - Component Cooling Water Pumps (2 sheets) 7.3-7 2 of 2 102792-1 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 20 of 28 Figure Sheet Drawing Description 7.3-8 1 of 2 19409-1 Logic Diagram - Auxiliary Feedwater Pumps (2 sheets) 7.3-8 2 of 2 102800-1 7.3-9 19410-1 Logic Diagram - Residual Heat Removal Pumps (2 sheets) 7.3-9 2 of 2 102793-1 7.3-10 1 of 2 19411-1 Logic Diagram - Safety Injection Pumps (2 sheets) 7.3-10 2 of 2 102794-1 7.3-11 1 of 2 19412-1 Logic Diagram - Containment Spray Pumps (2 sheets) 7.3-11 2 of 2 102795-1 7.3-12 1 of 2 19413-1 Logic Diagram - Primary Makeup Water Pumps (2 sheets) 7.3-12 2 of 2 102796-1 7.3-13 1 of 2 19414-1 Logic Diagram - Boric Acid Transfer Pumps (2 sheets) 7.3-13 2 of 2 102797-1 7.3-14 1 of 2 437507-1 Schematic Diagram - Auxiliary Feedwater Motor-Operated Valves (2 sheets) 7.3-14 2 of 2 441301-1 7.3-15 1 of 2 437551-1 Schematic Diagram - Turbine Control (2 sheets) 7.3-15 2 of 2 441253-1 7.3-16 1 of 2 437567-1 Schematic Diagram - Feedwater Pump Turbine Control (2 sheets) 7.3-16 2 of 2 441270-1 7.3-17 1 of 2 437583-1 Schematic Diagram - Motor-Driven Auxiliary Feedwater Pumps (2 sheets) 7.3-17 2 of 2 441302-1 7.3-18 1 of 4 437584-1 Schematic Diagram - Auxiliary Feedwater Pumps Turbine Control (4 Sheets) 7.3-18 2 of 4 455060-1 7.3-18 3 of 4 441303-1 7.3-18 4 of 4 455097-1 7.3-19 1 of 2 437585-1 Schematic Diagram - Feedwater Motor-Operated Isolation Valves (2 sheets)

Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 21 of 28 Figure Sheet Drawing Description 7.3-19 2 of 2 441304-1 7.3-20 1 of 2 477846-1 Schematic Diagram - Reactor Coolant Pump (2 sheets) 7.3-20 2 of 2 441305-1 7.3-21 1 of 4 437587-1 Schematic Diagram - Reactor Coolant Motor-Operated Valves and Reactor Coolant System Solenoid Valves (4 Sheets) 7.3-21 2 of 4 437609-1 7.3-21 3 of 4 441306-1 7.3-21 4 of 4 441328-1 7.3-22 1 of 2 437588-1 Schematic Diagram - Safety Injection System Solenoid Valves (2 sheets) 7.3-22 2 of 2 441316-1 7.3-23 1 of 2 437589-1 Schematic Diagram - Safety Injection Pumps (2 sheets) 7.3-23 2 of 2 441315-1 7.3-24 1 of 2 437590-1 Schematic Diagram - Containment Spray Pumps (2 sheets) 7.3-24 2 of 2 441307-1 7.3-25 1 of 2 437591-1 Schematic Diagram - Residual Heat Removal Pumps (2 sheets) 7.3-25 2 of 2 441309-1 7.3-26 1 of 2 437592-1 Schematic Diagram - Residual Heat Removal Flow Control Valves (2 sheets) 7.3-26 2 of 2 441310-1 7.3-27 1 of 2 437593-1 Schematic Diagram - Component Cooling Water Pumps (2 sheets) 7.3-27 2 of 2 441311-1 7.3-28 1 of 2 437594-1 Schematic Diagram - Auxiliary Saltwater Pumps (2 sheets) 7.3-28 2 of 2 441287-1 7.3-29 1 of 2 437595-1 Schematic Diagram - Charging Pumps (2 sheets) 7.3-29 2 of 2 441312-1 7.3-30 1 of 8 437596-1 Schematic Diagram - Chemical and Volume Control System (8 Sheets) 7.3-30 2 of 8 437597-1 7.3-30 3 of 8 437598-1 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 22 of 28 Figure Sheet Drawing Description 7.3-30 4 of 8 437599-1 7.3-30 5 of 8 441320-1 7.3-30 6 of 8 441321-1 7.3-30 7 of 8 441322-1 7.3-30 8 of 8 477316-1 7.3-31 1 of 4 437600-1 Schematic Diagram - Containment Fan Coolers (4 sheets) 7.3-31 2 of 4 437600-2 7.3-31 3 of 4 441313-1 7.3-31 4 of 4 441313-2 7.3-32 1 of 2 437604-1 Schematic Diagram - Containment Spray System Motor-Operated Valves (2 sheets) 7.3-32 2 of 2 441308-1 7.3-33 1 of 6 (U1) 437605-1 Schematic Diagram - Safety Injection System Motor-Operated Valves (6 Sheets) 7.3-33 2 of 6 (U1) 437606-1 7.3-33 3 of 6(U1) 437606-2 7.3-33 4 of 6 (U2) 441317-1 7.3-33 5 of 6 (U2) 441318-1 7.3-33 6 of 6 (U2) 441318-2 7.3-34 of 4 (U1) 437607-1 Schematic Diagram - Chemical and Volume Control System Motor-Operated Valves.

(2 sheets) 7.3-34 2 of 4 (U1) 437607-2 7.3-34 3 of 4 (U2) 441324-1 7.3-34 4 of 4 (U2) 441324-2 7.3-35 1 of 2 437608-1 Schematic Diagram - Component Cooling Water System Motor-Operated Valves (2 sheets) 7.3-35 2 of 2 441325-1 7.3-36 1 of 2 437610-1 Schematic Diagram - Reactor Trip Breakers (2 sheets) 7.3-36 2 of 2 441489-1 7.3-37 437630-1 Schematic Diagram - Fire Pumps 7.3-38 1 of 2 437631-1 Schematic Diagram - Containment Purge System (2 sheets) 7.3-38 2 of 2 441490-1 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 23 of 28 Figure Sheet Drawing Description 7.3-39 437632-1 Schematic Diagram - Plant Air Compressors 7.3-40 1 of 4 437634-1 Schematic Diagram - Control Rod Drive Motor Generator Set (4 Sheets) 7.3-40 2 of 4 437603-1 7.3-40 3 of 4 441488-1 7.3-40 4 of 4 441487-1 7.3-41 437657-1 Schematic Diagram - Diesel Fuel Transfer Pumps 7.3-42 1 of 2 437679-1 Schematic Diagram - Main Steam Isolation Valves (2 sheets) 7.3-42 2 of 2 441296-1 7.3-43 1 of 2 437680-1 Schematic Diagram - Sampling System Solenoid Valves (2 sheets) 7.3-43 2 of 2 441329-1 7.3-44 1 of 2 437681-1 Schematic Diagram - Component Cooling Water Solenoid Valves (2 sheets) 7.3-44 2 of 2 441330-1 7.3-45 1 of 4 437682-1 Schematic Diagram - Chemical and Volume Control System Solenoid Valves (4 Sheets) 7.3-45 2 of 4 437683-1 7.3-45 3 of 4 441326-1 7.3-45 4 of 4 441327-1 7.3-46 1 of 2 437684-1 Schematic Diagram - Liquid Radwaste Solenoid Valves (2 sheets) 7.3-46 2 of 2 441319-1 7.3-47 1 of 2 437685-1 Schematic Diagram - Steam Generator Blowdown Solenoid Valves (2 sheets) 7.3-47 2 of 2 441461-1 7.3-48 1 of 4 437557-1 Schematic Diagram - Generator Control (4 Sheets) 7.3-48 2 of 4 437558-1 7.3-48 3 of 4 441245-1 7.3-48 4 of 4 441246-1 7.3-49 1 of 2 437701-1 Schematic Diagram - Permissive and Bypass Lights (2 sheets) 7.3-49 2 of 2 441369-1 7.3-50 1 of 3 445650-1 Separation and Color Code Instrumentation and Control - Engineered Safety Features (3 Sheets)

Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 24 of 28 Figure Sheet Drawing Description 7.3-50 2A of 3 442561-1 7.3-50 2 of 3 445651-1 7.3-52 1 of 4 057673-1 Containment Electrical Penetrations, Cable Trays, and Supports (4 Sheets) 7.3-52 2 of 4 501445-1 7.3-52 3 of 4 500603-1 7.3-52 4 of 4 500793-1 7.6-1 1 of 6 437547-1 Instrumentation and Control Power Supply (6 Sheets) 7.6-1 2 of 6 445290-1 7.6-1 3 of 6 445291-1 7.6-1 4 of 6 441241-1 7.6-1 5 of 6 445390-1 7.6-1 6 of 6 445391-1 7.7-6 495860-1 Unit 1: Functional Logic Diagram, Digital Feedwater Control System, FW Flow Controller

& Cv Demand 7.7-6 495890-1 Unit 2: Functional Logic Diagram, Digital Feedwater Control System, FW Flow Controller

& Cv Demand 7.7-7 495853-1 Unit 1: Functional Logic Diagram, Digital Feedwater Control System, Feedwater Control

& Isolation 7.7-7 495883-1 Unit 2: Functional Logic Diagram, Digital Feedwater Control System, Feedwater Control

& Isolation 7.7-16 507613-1 Arrangement of Control Room 7.7-17 504479-1 Location of Control Console and Main Control Board 7.7-18 521120-1 Arrangement of Control Console Nuclear Instrumentation System (CC1), Primary Plant Control (CC2), and Secondary Plant Control (CC3) - Unit 1 7.7-19 521130-1 Arrangement of Control Console Nuclear Instrumentation System (CC1), Primary Plant Control (CC2), and Secondary Plant Control (CC3) - Unit 2 7.7-20 521121-1 Arrangement of Main Control Board -

Engineered Safety Systems (VB1) - Unit 1 7.7-21 521131-1 Arrangement of Main Control Board -

Engineered Safety Systems (VB1) - Unit 2 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 25 of 28 Figure Sheet Drawing Description 7.7-22 521122-1 Arrangement of Main Control Board - Primary Plant Systems (VB2) - Unit 1 7.7-23 521132-1 Arrangement of Main Control Board - Primary Plant Systems (VB2) - Unit 2 7.7-24 521123-1 Arrangement of Main Control Board - Steam and Turbine (VB3) - Unit 1 7.7-25 521133-1 Arrangement of Main Control Board - Steam and Turbine (VB3) - Unit 2 7.7-26 521124-1 Arrangement of Main Control Board - Auxiliary Equipment and Diesel VB4) - Unit 1 7.7-27 521134-1 Arrangement of Main Control Board - Auxiliary Equipment and Diesel VB4) - Unit 2 7.7-28 521125-1 Arrangement of Main Control Board - Station Electric (VB5) - Unit 1 7.7-29 521135-1 Arrangement of Main Control Board - Station Electric (VB5) - Unit 2 7.7-30 1 of 5 (U1) 480216-1 Arrangement of Hot Shutdown Remote Control Panel (5 sheets) 7.7-30 2of 5 (U1) 480217-1 7.7-30 3 of 5 (U2) 480237-1 7.7-30 4 of 5 (U1) 491716-1 7.7-30 5 of 5 (U2) 494122-1 7.7-31 330557-1 Arrangement of Auxiliary Building Control Panel 8.1-1 502110-1 Plant Single Line Diagram 8.2-3 57483-1 General Arrangement 230-kV and 500-kV Switchyard 8.2-6 500804-1 Arrangement of 12-kV Startup Transformers 8.3-1 1 of 2 437529-1 Single Line Meter and Relay Diagram -

Generator, Main, and Auxiliary Transformers, and Excitation (2 sheets) 8.3-1 2 of 2 441226-1 8.3-2 1 of 2 437531-1 Single Line Meter and Relay Diagram kV System (2 sheets) 8.3-2 2 of 2 441227-1 8.3-3 1 of 2 437532-1 Single Line Meter and Relay Diagram kV System (2 sheets) 8.3-3 2 of 2 441228-1 8.3-4 1 of 3 437533-1 Single Line Meter and Relay Diagram kV System (Vital Bus) (3 sheets)

Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 26 of 28 Figure Sheet Drawing Description 8.3-4 2 of 3 441229-1 8.3-4 3 of 3 441230-1 8.3-5 437530-1 Single Line Meter and Relay Diagram kV Startup System 8.3-6 1 of 2 437916-1 Single Line Meter and Relay Diagram - 480-V System Bus Section F (Vital Bus) (2 sheets) 8.3-6 2 of 2 441237-1 8.3-7 1 of 2 437542-1 Single Line Meter and Relay Diagram - 480-V System Bus Section G (Vital Bus) (2 sheets) 8.3-7 2 of 2 441238-1 8.3-8 1 of 2 437543-1 Single Line Meter and Relay Diagram - 480-V System Bus Section H (Vital Bus) (2 sheets) 8.3-8 2 of 2 441239-1 8.3-9 1 of 2 437625-1 Schematic Diagram kV Bus Section F Automatic Transfer (2 sheets) 8.3-9 2 of 2 441352-1 8.3-10 1 of 2 437626-1 Schematic Diagram kV Bus Section G Automatic Transfer (2 sheets) 8.3-10 2 of 2 441353-1 8.3-11 1 of 2 437627-1 Schematic Diagram kV Bus Section H Automatic Transfer (2 sheets) 8.3-11 2 of 2 441354-1 8.3-12 1 of 11 437579-1 Schematic Diagram kV Diesel Generators Controls (11 Sheets) 8.3-12 2 of 11 437580-1 8.3-12 3 of 11 437667-1 8.3-12 4 of 11 437668-1 8.3-12 5 of 11 441357-1 8.3-12 6 of 11 441358-1 8.3-12 7 of 11 496277-1 8.3-12 8 of 11 496278-1 8.3-12 9 of 11 496279-1 8.3-12 10 of11 496280-1 8.3-12 11 of 11 496281-1 8.3-13 1 of 7 437665-1 Schematic Diagram kV Diesel Generators and Associated Circuit Breakers (7 Sheets) 8.3-13 2 of 7 437676-1 8.3-13 3 of 7 437666-1 Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 27 of 28 Figure Sheet Drawing Description 8.3-13 4 of 7 441355-1 8.3-13 5 of 7 441356-1 8.3-13 6 of 7 496275-1 8.3-13 7 of 7 496276-1 8.3-14 1 of 3 437674-1 Schematic Diagram kV Diesel Generators Auxiliary Motors (3 sheets) 8.3-14 2 of 3 441359-1 8.3-14 3 of 3 496282-1 8.3-16 1 of 6 458863-1 Logic Diagram - Automatic Transfer 4-kV buses F, G, and H (6 Sheets) 8.3-16 2 of 6 458864-1 8.3-16 3 of 6 458865-1 8.3-16 4 of 6 441286-1 8.3-16 5 of 6 441297-1 8.3-16 6 of 6 441337-1 8.3-17 1 of 4 437546-1 Class 1E 125-Vdc System (4 Sheets) 8.3-17 2 of 4 445076-1 8.3-17 3 of 4 445075-1 8.3-17 4 of 4 441240-1 8.3-18 1 of 2 455065-1 Normal (Non-Class 1E) 125-V and 250-Vdc System (2 sheets) 8.3-18 2 of 2 445295-1 8.3-19 1 of 2 437545-1 Pressurizer Heaters, Single Line Diagram (2 sheets) 8.3-19 2 of 2 441218-1 8.3-20 1 of 2 437614-1 Schematic Diagram Potential and Synchronizing 4160-Volt System (Vital Bus)

(2 sheets) 8.3-20 2 of 2 441340-1 9.4-1 511157-1 Air Conditioning, Heating, Cooling, and Ventilation Systems - Control Room 9.4-2 1 of 2 59316-1 Air Conditioning, Cooling, and Ventilation Systems - Auxiliary Building (2 sheets) 9.4-2 2 of 2 501365-1 9.4-3 59317-1 Ventilation Flow Diagram Containment Fuel Handling Fan Rooms (Unit 1)

Revision 24 September 2018

DCPP UNITS 1 & 2 FSAR UPDATE TABLE 1.6-1 Sheet 28 of 28 Figure Sheet Drawing Description 9.4-3A 501366-1 Ventilation Flow Diagram Containment Fuel Handling Fan Rooms (Unit 2) 9.4-8 516103-1 Ventilation System - Inverter Rooms and 480 V Switchgear Room in Auxiliary Building 9.4-10 512904-1 Ventilation Systems - Technical Support Center and Post-Accident Sampling Room 9.4-11 516111-1 Mechanical Plans, Sections and Details Area L & GE ELEV. 140-0 9.5-8 508845-1 Diesel Fuel Oil Transfer Pump Vaults 9.5-9 438165-1 Diesel Generator Fuel Oil Piping 9.5-10 1 of 4 500002-1 Diesel Generator Arrangement Plan (4 sheets) 9.5-10 2 of 4 500852-1 9.5-10 3 of 4 498992-1 9.5-10 4 of 4 498993-1 9.5-11 1 of 2 500003-1 Diesel Generator Arrangement Sections (2 sheets) 9.5-11 2 of 2 500853-1 9.5-12 663082-2 Diesel Engine Generator (Typical) 10.1-1 6021770-30 Unit 2: Heat Balance Diagram - Maximum Calculated - Post LP Retrofit 10.1-2 6021770-22 Unit 2: Heat Balance Diagram - 100% RTO -

Post LP Retrofit 10.1-5 6021770-19 Unit 1: Heat Balance Diagram - Maximum Calculated - Post LP Retrofit 10.1-6 6021770-5 Unit 1: Heat Balance Diagram - 100% RTO -

Post LP Retrofit 11.5-5 502699-1 Solid Radwaste Storage Building Revision 24 September 2018

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