Supplemental Information for Revision 22 to Updated Safety Analysis Report, List of Figures

ML21361A196
Person / Time
Site:	Perry
Issue date:	12/20/2021
From:	Energy Harbor Nuclear Corp
To:	Office of Nuclear Reactor Regulation
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ML21361A235	List: L-21-287, Submittal of Revision 22 to Updated Safety Analysis Report (Supplement Letter) ML21361A187 ML21361A188 ML21361A189 ML21361A190 ML21361A191 ML21361A192 ML21361A193 ML21361A194 ML21361A195 ML21361A196 ML21361A197 ML21361A198 ML21361A199 ML21361A200 ML21361A201 ML21361A202 ML21361A203 ML21361A205 ML21361A206 ML21361A207 ML21361A208 ML21361A209 ML21361A211 ML21361A212 ML21361A213 ML21361A215 ML21361A216 ML21361A217 ML21361A218 ML21361A219 ML21361A220 ML21361A221 ML21361A222 ML21361A223 ML21361A224 ML21361A225 ML21361A226 ML21361A227 ML21361A228 ML21361A229
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FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Chapter 1 Figure 1.2-1 (1) E-013-018 Equipment List Figure 1.2-1 (2) E-013-019 Equipment List Figure 1.2-1 (3) E-013-020 Equipment List Figure 1.2-2 E-036-022 Final Plant Layout, Plot Plan, Plant Area Figure 1.2-3 E-013-003 Final Plant Layout, Plan A Above Elevs.

568-6, 574-10, 577-6, and 580-6, Plant Complex Figure 1.2-4 E-013-004 Final Plant Layout, Plan B Above Elevs.

593-6, 599-0, 600-6, 602-6, and 605-6, Plant Complex Figure 1.2-5 E-013-005 Final Plant Layout, Plan C Above Elevs.

620-6, 623-6, and 624-6, Plant Complex Figure 1.2-6 E-013-006 Final Plant Layout, Plan D Above Elevs.

638-6, 642-0, and 647-6, Plant Complex Figure 1.2-7 E-013-007 Final Plant Layout, Plan E Above Elevs.

652-0 and 654-6, Plant Complex Figure 1.2-8 E-013-008 Final Plant Layout, Plan F Above Elevs.

664-7, 665-0, and 670-6, Plant Complex Figure 1.2-9 E-013-009 Final Plant Layout, Plan G Above Elevs.

689-6, Plant Complex Figure 1.2-10 E-013-010 Final Plant Layout, Plan H Roof Plan Figure 1.2-11 E-013-011 Final Plant Layout, Section A-A Figure 1.2-12 E-013-012 Final Plant Layout, Section B-B Figure 1.2-13 E-013-013 Final Plant Layout, Section C-C Figure 1.2-14 (1) E-015-016 Final Plant Layout, Circulating Water Pumphouse, Plans and Elevations Figure 1.2-14 (2) E-015-017 Final Plant Layout, Circulating Water Pumphouse, Plans and Elevations Figure 1.2-15 E-015-015 Final Plant Layout, Service Water Pumphouse Figure 1.2-16 E-015-002 Final Plant Layout, Emergency Service Water Pumphouse Plans and Elevations Figure 1.2-17 B-015-003 Final Plant Layout, Discharge Tunnel Entrance Structures Figure 1.2-18 E-036-011 Final Plant Layout, Plot Plan Release Point Designation Figure 1.2-19 Heat Balance at Rated Power Figure 1.2-20 D-302-002 System Diagram Symbols Figure 1.2-21 NSSS (GE) Logic Symbols Used on Functional Control Diagrams Figure 1.2-22 D-302-001 System Diagram Symbols Figure 1.2-23 AE (GAI) Logic Symbols Used on Functional Diagrams Chapter 2 Figure 2.1-1 General Area Map Figure 2.1-2 Area Topography Within 5 Mile Radius Revision 22 1 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 2.1-3 Topograph Within the Plant Site Boundary Figure 2.1-4 Plant Site Aerial Photograph Figure 2.1-5 Status of Land and Mineral Rights Figure 2.1-6 Area Within 10 Miles of PNPP Figure 2.1-7 1978 Permanent Resident Population Figure 2.1-8 1980 Permanent Resident Population Figure 2.1-9 1983 Permanent Resident Population Figure 2.1-10 1984 Permanent Resident Population Figure 2.1-11 1985 Permanent Resident Population Figure 2.1-12 1986 Permanent Resident Population Figure 2.1-13 1990 Permanent Resident Population Figure 2.1-14 2000 Permanent Resident Population Figure 2.1-15 2010 Permanent Resident Population Figure 2.1-16 2020 Permanent Resident Population Figure 2.1-17 Area Within 50 Miles of PNPP Figure 2.1-18 Low Population Zone Figure 2.2-1 Manufacturing and Storage Facilities Within Five Miles of the Plant Figure 2.2-2 Land and Water Transportation Routes Within the Vicinity of the Plant Figure 2.2-3 Natural Gas Pipelines Within the Immediate Environs of the Plant Figure 2.2-4 Gas and Oil Wells Within Five Miles of the Plant Figure 2.2-5 Airstrips and Airports in the Vicinity of the Plant Figure 2.2-6 Selected Air Facilities and Airways in the Region Figure 2.2-7 Peak Overpressure Versus Scaled Distance for TNT Surface Bursts Figure 2.3-1 Location of Meteorological Data Monitoring Stations and Regional Topography Within 50 Miles of the Perry Site Figure 2.3-2 Mean Snowfall for Winter Season - Ohio Figure 2.3-3 (1) January to April Monthly Wind Roses for the Perry Site - 10 m and 60 m Levels (5/1/72-4/30/74; 9/1/77-8/31/82)

Figure 2.3-3 (2) January to April Monthly Wind Roses for the Perry Site - 10 m and 60 m Levels (5/1/72-4/30/74; 9/1/77-8/31/82)

Figure 2.3-4 (1) May to August Monthly Wind Roses for the Perry Site - 10 m and 60 m Levels (5/1/72-4/30/74; 9/1/77-8/31/82)

Figure 2.3-4 (2) May to August Monthly Wind Roses for the Perry Site - 10 m and 60 m Levels (5/1/72-4/30/74; 9/1/77-8/31/82)

Revision 22 2 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 2.3-5 (1) Sept. to Dec. Monthly Wind Roses for the Perry Site - 10 m and 60 m Levels (5/1/72-4/30/74; 9/1/77-8/31/82)

Figure 2.3-5 (2) Sept. to Dec. Monthly Wind Roses for the Perry Site - 10 m and 60 m Levels (5/1/72-4/30/74; 9/1/77-8/31/82)

Figure 2.3-6 Annual Wind Roses for the Perry Site 10 m and 60 m Levels for Three-Concurrent and Seven-Site Years Figure 2.3-7 Cleveland and Erie Annual Wind Roses Figure 2.3-8 Wind Direction Persistence Probability for One 221/2 Sector for PNPP Region Figure 2.3-9 Offsite and Onsite Maximum Directional Wind Persistence Roses Figure 2.3-10 Jan. to April Monthly Precipitation Wind Roses for the Perry Site (10 m) (5/1/72-4/30/74; 9/1/77-8/31/82)

Figure 2.3-11 May to Aug. Monthly Precipitation Wind Roses for the Perry Site (10 m) (5/1/72-4/30/74; 9/1/77-8/31/82)

Figure 2.3-12 Sept. to Dec. Monthly Precipitation Wind Roses for the Perry Site (10 m) (5/1/72-4/30/74; 9/1/77-8/31/82)

Figure 2.3-13 Annual Precipitation Wind Roses for the Perry Site (10 m) (5/1/72-4/30/74; 9/1/77-8/31/82)

Figure 2.3-14 Model With Trapezoids Representing Cooling Towers Figure 2.3-15 Plant Site and Meteorological Tower Location Figure 2.3-16 (1) Terrain Elevations Out to 5 Miles from Center of Units 1 and 2 Figure 2.3-16 (2) Terrain Elevations Out to 5 Miles from Center of Units 1 and 2 Figure 2.3-16 (3) Terrain Elevations Out to 5 Miles from Center of Units 1 and 2 Figure 2.3-16 (4) Terrain Elevations Out to 5 Miles from Center of Units 1 and 2 Figure 2.3-17 Region Topographic Map 5 Mile Radius Figure 2.4-1 Plan-Drainage Area of 2 Streams Close to Plant Site Figure 2.4-2 Lake Erie Water Levels Figure 2.4-3 E-743-013 Topography and Storm Drainage System Figure 2.4-4 Hydrograph of PMF Discharge Into Lake Erie-Major Stream Figure 2.4-5 Hydrograph of PMF Discharge Into Lake Erie-Minor Stream Figure 2.4-6 Probable Maximum Flood Profiles-Major Stream Figure 2.4-7 Plan-Minor Stream Figure 2.4-8 Profile and Typical Cross Sections-Minor Stream Figure 2.4-9 Plan-Major Stream Revision 22 3 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 2.4-10 Cross Sections-Major Stream Figure 2.4-11 Cross Sections and Profiles-Major Stream Figure 2.4-12 Meteorological Situation for Probable Maximum Lake Level Setup at Perry, Ohio Figure 2.4-13 Isobar and Isotach Fields for Probable Maximum Lake Level Setup at Perry, Ohio Figure 2.4-14 PMS Isotach Patterns for Maximum Lake Setup at Perry, Ohio Figure 2.4-15 PMS Isotach Patterns for Maximum Lake Setup at Perry, Ohio Figure 2.4-16 PMS Isotach Patterns for Maximum Lake Setup at Perry, Ohio Figure 2.4-17 PMS Isotach Patterns for Maximum Lake Setup at Perry, Ohio Figure 2.4-18 PMS Isotach Patterns for Maximum Lake Setup at Perry, Ohio Figure 2.4-19 PMS Isotach Patterns for Maximum Lake Setup at Perry, Ohio Figure 2.4-20 PMS Isotach Patterns for Maximum Lake Setup at Perry, Ohio Figure 2.4-21 PMS Isotach Patterns for Maximum Lake Setup at Perry, Ohio Figure 2.4-22 PMS Isotach Patterns for Maximum Lake Setup at Perry, Ohio Figure 2.4-23 PMS Isotach Patterns for Maximum Lake Setup at Perry, Ohio Figure 2.4-24 PMS Isotach Patterns for Maximum Lake Setup at Perry, Ohio Figure 2.4-25 PMS Isotach Patterns for Maximum Lake Setup at Perry, Ohio Figure 2.4-26 Lake Erie Outline With PMS Station Locations Figure 2.4-27 Maximization of Setup With Direction of Fetch Axis Figure 2.4-28 Hydrographs of One Dimensional PMS Setup and Setdown Figure 2.4-29 One-Dimensional PMS Setup and Setdown Along Fetch Figure 2.4-30 Winds at Stations (20, 1) and (40, 1) for Probable Maximum Lake Level Setup Figure 2.4-31 Winds at Stations (20, 21) and (40, 21) for Probable Maximum Lake Level Setup Figure 2.4-32 Plan-Location of Lake Erie Shoreline and Bluff Recession Survey Lines Figure 2.4-33 Cleveland Hydrograph Annual Mean Lake Levels Figure 2.4-34 Monthly Mean Lake Levels Lake Erie at Cleveland, Ohio Figure 2.4-35 1937, 1957, 1964, 1972 Top of Bluff Lines Figure 2.4-36 1876 Top of Bluff Figure 2.4-37 1798, 1829-30, 1852-1858, 1965-67, 1876, 1917, 1975 Shorelines Figure 2.4-38 (1) Bluff Recession Survey Line Profiles Revision 22 4 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 2.4-38 (2) Bluff Recession Survey Line Profiles Figure 2.4-39 Shoreline Protection Figure 2.4-39A Shore Protection Breakwall Figure 2.4-40 Ice Thickness Observation Locations Figure 2.4-41 Ice Survey at Site Shoreline Figure 2.4-42 Ice Survey at Site Shoreline Figure 2.4-43 Ice Survey at Site Shoreline Figure 2.4-44 Ice Survey at Site Shoreline Figure 2.4-45 Ice Survey at Site Shoreline Figure 2.4-46 Ice Survey at Site Shoreline Figure 2.4-47 Meteorological Situation for Probable Maximum Lake Setdown at Perry, Ohio Figure 2.4-48 Isobar and Isotach Fields for Probable Maximum Lake Level Setdown at Perry, Ohio Figure 2.4-49 PMS Isotach Patterns for Maximum Lake Setdown at Perry, Ohio Figure 2.4-50 PMS Isotach Patterns for Maximum Lake Setdown at Perry, Ohio Figure 2.4-51 PMS Isotach Patterns for Maximum Lake Setdown at Perry, Ohio Figure 2.4-52 PMS Isotach Patterns for Maximum Lake Setdown at Perry, Ohio Figure 2.4-53 PMS Isotach Patterns for Maximum Lake Setdown at Perry, Ohio Figure 2.4-54 PMS Isotach Patterns for Maximum Lake Setdown at Perry, Ohio Figure 2.4-55 PMS Isotach Patterns for Maximum Lake Setdown at Perry, Ohio Figure 2.4-56 PMS Isotach Patterns for Maximum Lake Setdown at Perry, Ohio Figure 2.4-57 PMS Isotach Patterns for Maximum Lake Setdown at Perry, Ohio Figure 2.4-58 PMS Isotach Patterns for Maximum Lake Setdown at Perry, Ohio Figure 2.4-59 PMS Isotach Patterns for Maximum Lake Setdown at Perry, Ohio Figure 2.4-60 PMS Isotach Patterns for Maximum Lake Setdown at Perry, Ohio Figure 2.4-61 Winds at Stations (20, 1) and (40, 1) for Probable Maximum Lake Level Setdown Figure 2.4-62 Winds at Stations (20, 21) and (40, 21) for Probable Maximum Lake Level Setdown Figure 2.4-63 Hydrograph for Probable Maximum Setdown at Perry, Ohio Figure 2.4-64 Frequency Analysis of Minimum Lake Levels at Cleveland, Ohio Figure 2.4-65 Frequency Analysis of Minimum Lake Levels at Erie, Pennsylvania Figure 2.4-66 Well Location Map Revision 22 5 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 2.4-67 Preconstruction Static Groundwater Level Contour Map Figure 2.4-68 Plot Plan-Porous Concrete Underdrain System Figure 2.4-69 Plot Plan-Gravity Discharge System Figure 2.4-70 Cross Sections-Pressure Relief Underdrain System Figure 2.4-71 D-302-861 Plant Foundation Underdrain System Figure 2.4-72 Category I Foundation Wall Drainage Provisions Figure 2.4-73 Groundwater Built-up as a Result of No Pumping Figure 2.4-74 Permeability Test Setup for Porous Concrete Cylinders Figure 2.4-75 Reverse Flow Permeameter for Porous Concrete Figure 2.4-76 D-746-009 Plant Underdrain System Nuclear Island Piezometer Locations Figure 2.5-1 Regional Physiographic Map Figure 2.5-2 Precambrian Basement Structures Map Figure 2.5-3 Glacial Map of Ohio Figure 2.5-4 Bedrock Geologic Map of Ohio Figure 2.5-5 Generalized Bedrock Stratigraphic Column of Ohio Figure 2.5-6 Generalized Bedrock Geologic Map of Northeastern Ohio Figure 2.5-7 Glacial Map of Northeastern Ohio Figure 2.5-8 Regional Tectonic Map Figure 2.5-9 Regional Tectonic Provinces Figure 2.5-10 Total Bouquer Anomaly Map Figure 2.5-11 Regional Bouquer Anomaly Map Figure 2.5-12 Residual Bouquer Anomaly Map Figure 2.5-13 Residual Bouquer Anomaly Map Trends of Anomalies-Tectonic Provinces Figure 2.5-14 Residual Total Intensity Magnetic Map of Ohio Figure 2.5-15 Geologic Time Scale Figure 2.5-16 Generalized Geologic Cross Section of Northeastern Ohio Figure 2.5-17 Location of Area Salt Mines and Gas Fields Figure 2.5-18 Location of Nearby Mineral Rights and Gas Wells Figure 2.5-19 Near-Site Big Lime Stratigraphic Column Figure 2.5-20 East-West Big Lime Stratigraphic Section Figure 2.5-21 North-South Big Lime Stratigraphic Section Figure 2.5-22 Structural Contour Map of F Unit Revision 22 6 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 2.5-23 Structural Contour Map of D Unit Figure 2.5-24 Structural Contour Map of B Unit Figure 2.5-25 Isopach Map of E Unit Figure 2.5-26 Isopach Map of D Unit Figure 2.5-27 Isopach Map of B Unit Figure 2.5-28 Potential Cavity Increase vs. Initial NaCl Saturation for Oriskany Brine Solution Figure 2.5-29 Angle of Draw vs. Depth/Width of Mining Operation Figure 2.5-30 Oil and Gas Fields in Ohio Figure 2.5-31 Potential Mining Influence Based on Postulated Solution Cavities Figure 2.5-32 (1) Comparative Aerial Photographs of the Perry Nuclear Power Plant Site Figure 2.5-32 (2) Comparative Aerial Photographs of the Perry Nuclear Power Plant Site Figure 2.5-32 (3) Comparative Aerial Photographs of the Perry Nuclear Power Plant Site Figure 2.5-33 Final Grading Plan for the Perry Nuclear Power Plant Figure 2.5-34 Site Surficial Deposits Map (Prior to Construction)

Figure 2.5-35 Site Stratigraphic Column Figure 2.5-36 Structural Contour Map - Top of Chagrin Shale Figure 2.5-37 Structural Contour Map - Top of Lower Till Figure 2.5-38 Structural Contour Map - Top of Big Lime Figure 2.5-39 Structural Contour Map - Top of Packer Shell Figure 2.5-40 Fault and Outcrop Location Map Figure 2.5-41 (1) Foundation Bedrock Geologic Map Figure 2.5-41 (2) Foundation Bedrock Geologic Map Figure 2.5-41 (3) Foundation Bedrock Geologic Map Figure 2.5-41 (4) Foundation Bedrock Geologic Map Figure 2.5-41 (5) Foundation Bedrock Geologic Map Figure 2.5-42 Index Geologic Cross Sections Figure 2.5-42 (1) Geologic Cross Sections Figure 2.5-42 (2) Geologic Cross Sections Figure 2.5-42 (3) Geologic Cross Sections Figure 2.5-42 (4) Geologic Cross Sections Figure 2.5-42 (5) Geologic Cross Sections Figure 2.5-42 (6) Geologic Cross Sections Figure 2.5-43 Sketch of West Wall Test Pit Revision 22 7 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 2.5-44 Sketch of West Wall Pit 2 Figure 2.5-45 Geologic Mapping Caisson Excavations Figure 2.5-46 Lens Of Lower Till Incorporated Within Bedrock Figure 2.5-47 (1) Geologic Map of Tunnel Excavations Figure 2.5-47 (2) Geologic Map of Tunnel Excavations Figure 2.5-47 (3) Geologic Map of Tunnel Excavations Figure 2.5-47 (4) Geologic Map of Tunnel Excavations Figure 2.5-47 (5) Geologic Map of Tunnel Excavations Figure 2.5-47 (6) Geologic Map of Tunnel Excavations Figure 2.5-47 (7) Geologic Map of Tunnel Excavations Figure 2.5-47 (8) Geologic Map of Tunnel Excavations Figure 2.5-47 (9) Geologic Map of Tunnel Excavations Figure 2.5-47 (10) Geologic Map of Tunnel Excavations Figure 2.5-47 (11) Geologic Map of Tunnel Excavations Figure 2.5-47 (12) Geologic Map of Tunnel Excavations Figure 2.5-47 (13) Geologic Map of Tunnel Excavations Figure 2.5-47 (14) Geologic Map of Tunnel Excavations Figure 2.5-47 (15) Geologic Map of Tunnel Excavations Figure 2.5-47 (16) Geologic Map of Tunnel Excavations Figure 2.5-47 (17) Geologic Map of Tunnel Excavations Figure 2.5-47 (18) Geologic Map of Tunnel Excavations Figure 2.5-47 (19) Geologic Map of Tunnel Excavations Figure 2.5-47 (20) Geologic Map of Tunnel Excavations Figure 2.5-47 (21) Geologic Map of Tunnel Excavations Figure 2.5-47 (22) Geologic Map of Tunnel Excavations Figure 2.5-47 (23) Geologic Map of Tunnel Excavations Figure 2.5-47 (24) Geologic Map of Tunnel Excavations Figure 2.5-48 Tunnel Intersecting Faulting Figure 2.5-49 Schematic Northwest - Southeast Cross Section Figure 2.5-50 Intake Tunnel Fault Map Figure 2.5-51 Discharge Tunnel Fault Map Figure 2.5-52 Discharge Tunnel Fracture Zone Map Figure 2.5-53 Site Exploration Plot Plan Figure 2.5-54 Plant Structures Foundation Grade Materials Figure 2.5-55 Foundation Overexcavation Plan Figure 2.5-56 Tectonic Provinces and Earthquakes Revision 22 8 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 2.5-57 Expansion and Settlement in the Colonies and Eastern United States Figure 2.5-58 Seismicity Within 50 Mile Radius M >1.0 Io 1.0 Figure 2.5-59 Regional Tectonics - Earthquake Tectonic Provinces Figure 2.5-60 Regional Tectonics and Earthquakes Figure 2.5-61 Telemetered Network Station Configuration Figure 2.5-62 The Anna, Ohio Seismic Zone, Historical Seismicity, Proposed Faults, and Observed LANDSAT Lineaments Figure 2.5-63 Isoseismal Map of the July 12, 1986 St.

Marys Earthquake Figure 2.5-64 Focal Mechanism for the July 12, 1986 Earthquake Figure 2.5-65 Isoseismal Map for Northeastern Ohio for Earthquake of January 31, 1986 Figure 2.5-66 Typical Portable Network Configuration from March to October 1986 Figure 2.5-67 January 31, 1986 Aftershock Sequence Figure 2.5-68 Focal Mechanism for the January 31, 1986 Earthquake Figure 2.5-69 Stereo View of the Aftershock Sequence Figure 2.5-70 Isoseismal Map for the Sharpsburg, Kentucky Earthquake of July 27, 1980 Figure 2.5-71 Dates of Settlement in Eastern Canada Figure 2.5-72 Configuration of John Carroll University Seismicity Network Figure 2.5-73 Intensity Attenuation Curves for Eastern North America Figure 2.5-74 Comparison of Attenuation Models Used to Estimate Site Intensities for Historical Events Figure 2.5-75 Isoseismal Map - Mississippi Valley Earthquake of 1811 and 1812 Figure 2.5-76 Isoseismal Map - 1886 Charleston Earthquake Figure 2.5-77 Isoseismal Map - Virginia Earthquake of May 31, 1897 Figure 2.5-78 Isoseismal Map - St. Lawrence Earthquake, March 1, 1925 Figure 2.5-79 Isoseismal Map - United States (Eastern, Attica, New York) Earthquakes, 1929 Figure 2.5-80 Isoseismal Map - Attica, New York Earthquake of August 12, 1929 Figure 2.5-81 Isoseismal Map - Area Affected by Anna, Ohio Earthquake, September 20, 1931 Figure 2.5-82 Isoseismal Map - Area Affected by Anna, Ohio Earthquake September 20, 1931 Figure 2.5-83 Isoseismal Map - Area Affected by Anna, Ohio Earthquake, March 2, 1937 Figure 2.5-84 Isoseismal Map - Area Affected by Anna, Ohio Earthquake, March 2, 1937 Revision 22 9 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 2.5-85 Isoseismal Map - The Lake Erie Earthquake of March 8, 1943 Figure 2.5-86 Isoseismal Map - Cornwall Massena Earthquake of September 5, 1944 Figure 2.5-87 Intensities at the PNPP Site for the January 31, 1986, Earthquake Figure 2.5-88 Comparison of PNPP-1 OBE and SSE Horizontal Spectra with January 31, 1986, Horizontal Spectra at Reactor Foundation Figure 2.5-89 Comparison of Design Time History - H1 and January 31, 1986 - (N-S) H2 and January 31, 1986 - (E-W)

Figure 2.5-90 Comparison of January 31, 1986, Low Frequency Horizontal Response Spectra with Response Spectra for MM Intensity V Figure 2.5-91 Intensity Acceleration Relationships Figure 2.5-92 Acceleration Time History - Motion H1 Figure 2.5-93 Acceleration Time History - Motion H2 Figure 2.5-94 Acceleration Time History - Vertical Motion Figure 2.5-95 Vertical Time History - Motion H1 Figure 2.5-96 Displacement Time History - Motion H1 Figure 2.5-97 Vertical Time History - Motion H2 Figure 2.5-98 Displacement Time History - Motion H2 Figure 2.5-99 Velocity Time History - Vertical Motion Figure 2.5-100 Displacement Time History - Vertical Motion Figure 2.5-101 Safe Shutdown Earthquake Design Response Spectra - Horizontal Motion Figure 2.5-102 Safe Shutdown Earthquake Design Respose Spectra - Vertical Motion Figure 2.5-103 Response Spectra - Horizontal Motion H1 (2%

and 5% Damping)

Figure 2.5-104 Response Spectra - Horizontal Motion H1 (7%

and 10% Damping)

Figure 2.5-105 Response Spectra - Horizontal Motion H2 (2%

and 5% Damping)

Figure 2.5-106 Response Spectra - Horizontal Motion H2 (7%

and 10% Damping)

Figure 2.5-107 Response Spectra - Horizontal Motion (2% and 5% Damping)

Figure 2.5-108 Response Spectra - Vertical Motion (7% and 10% Damping)

Figure 2.5-109 Observed Response Spectra for Intensity VIII Effects vs. Design Response Specta Figure 2.5-110 Site Specific Response Spectra for the Perry Site(5% Damping)

Figure 2.5-111 Operating Basis Earthquake Design Response Spectra - Horizontal Motion Figure 2.5-112 Operating Basis Earthquake Design Response Spectra - Vertical Motion Figure 2.5-113 ERTS and SAR Lineaments Revision 22 10 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 2.5-114 Structure Map of Northeastern Ohio Figure 2.5-115 (1) Grain Size Distribution Curves - Lacustrine Sediments Figure 2.5-115 (2) Grain Size Distribution Curves - Lacustrine Sediments Figure 2.5-115 (3) Grain Size Distribution Curves - Lacustrine Sediments Figure 2.5-115 (4) Grain Size Distribution Curves - Lacustrine Sediments Figure 2.5-115 (5) Grain Size Distribution Curves - Lacustrine Sediments Figure 2.5-115 (6) Grain Size Distribution Curves - Lacustrine Sediments Figure 2.5-116 (1) Grain Size Distribution Curves - Upper Till Figure 2.5-116 (2) Grain Size Distribution Curves - Upper Till Figure 2.5-116 (3) Grain Size Distribution Curves - Upper Till Figure 2.5-116 (4) Grain Size Distribution Curves - Upper Till Figure 2.5-116 (5) Grain Size Distribution Curves - Upper Till Figure 2.5-117 (1) Grain Size Distribution Curves - Lower Till Figure 2.5-117 (2) Grain Size Distribution Curves - Lower Till Figure 2.5-117 (3) Grain Size Distribution Curves - Lower Till Figure 2.5-117 (4) Grain Size Distribution Curves - Lower Till Figure 2.5-117 (5) Grain Size Distribution Curves - Lower Till Figure 2.5-117 (6) Grain Size Distribution Curves - Lower Till Figure 2.5-118 Range of Grain Size Distribution Test Results for Upper Till Figure 2.5-119 Range of Grain Size Distribution Test Results for Lower Till Figure 2.5-120 Typical Consolidation Test Curves -

Lacustrine Sediments Figure 2.5-121 Typical Consolidation Test Curves - Upper Till Figure 2.5-122 Typical Consolidation Test Curves - Lower Till Figure 2.5-123 Schematic Representation of Pressuremeter Figure 2.5-124 Typical Pressuremeter Test Curves - Lower Till Figure 2.5-125 Plate Loading Test Configuration Figure 2.5-126 Typical Plate Loading Test Curve - Lower Till Figure 2.5-127 Typical Effective Stress Paths - Lacustrine Sediments Figure 2.5-128 Typical Effective Stress Paths - Upper Till Figure 2.5-129 Typical Effective Stress Paths - Lower Till Figure 2.5-130 Typical Effective Stress - Strength Characteristics of Lacustrine Sediments Revision 22 11 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 2.5-131 Typical Effective Stress - Strength Characteristics of Lower Till Figure 2.5-132 Typical Effective Stress - Strength Characteristics of Upper Till Figure 2.5-133 Dynamic Properties of Lacustrine Sediments Figure 2.5-134 Dynamic Properties of Upper Till Figure 2.5-135 Dynamic Properties of Lower Till Figure 2.5-136 (1) Soil Conservation Service Tests on Lower Till Figure 2.5-136 (2) Soil Conservation Service Tests on Lower Till Figure 2.5-136 (3) Soil Conservation Service Tests on Lower Till Figure 2.5-137 Dissolved Salts in Saturation Extract Figure 2.5-138 (1) Grain Size Distribution Curves - Chagrin Shale Figure 2.5-138 (2) Grain Size Distribution Curves - Chagrin Shale Figure 2.5-139 Wet-Dry Cycle Slaking Durability Test on Chagrin Shale Figure 2.5-140 Typical Stress - Strain Characteristics of Shale in Uniaxial Compression Figure 2.5-141 Deere-Miller Strength - Modulus Classification of Chagrin Shale Figure 2.5-142 Typical Pressuremeter Test Results in Chagrin Shale Figure 2.5-143 (1) Subsurface Stratigraphy and Excavation Sections (Preconstruction)

Figure 2.5-143 (2) Subsurface Statigraphy and Excavation Sections (Preconstruction)

Figure 2.5-144 Site Seismic Survey Figure 2.5-145 Warners Creek Thrust Fault from Prosser Figure 2.5-146 Anticline Produced by Sliding from Van Horn Figure 2.5-147 Anticline in Shale from Van Horn Figure 2.5-148 Anticline in Shale from Van Horn Figure 2.5-149 Anticline in Shale from Van Horn Figure 2.5-150 Aerial Photograph of Warners (Bates) Creek Fault Figure 2.5-151 Aerial Photograph of Hell Hollow Faults Figure 2.5-152 Sketch of Excavated Rock Slope Showing Warners Creek Thrust Fault Figure 2.5-153 Sketch of Excavated Rock Slope Showing Hell Hollow Fault #1 Figure 2.5-154 Sketch of Excavated Rock Slope Showing Hell Hollow Fault #2 Figure 2.5-155 Sketch of Excavated Rock Slope Showing Hell Hollow Fault #3 Figure 2.5-156 Interpretative Sketch of Hell Hollow Faults Related to Slumping Revision 22 12 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 2.5-157 Photograph of Warners (Bates) Creek Exposure Figure 2.5-158 Photographic Enlargement of Fault of Warners (Bates) Creek Figure 2.5-159 Photographic Enlargement of Fault of Warners (Bates) Creek Figure 2.5-160 Photographic Enlargement of Tightly Folded Strata at Warners (Bates)

Figure 2.5-161 Photograph of Minor Thrust Fault, 20 ft North of Warners (Bates) Creek Fault Figure 2.5-162 Photograph of Hell Hollow Fault #1 Prior to Excavation Figure 2.5-163 Photograph of Hell Hollow Fault #1 After Excavation Figure 2.5-164 Photographic Enlargement of Hell Hollow Fault #1 After Excavation Figure 2.5-165 Photograph of Hell Hollow Fault #2 After Excavation Figure 2.5-166 Photograph of Hell Hollow Fault #3 Prior to Excavation Figure 2.5-167 Photograph of Hell Hollow Fault #3 After Excavation Figure 2.5-168 Photograph of Hell Hollow Slump Area Facing South Figure 2.5-169 Photograph of Hell Hollow Slump Area Facing East Figure 2.5-170 Representative Records of Pressure vs. Shut-in Time Figure 2.5-171 Pressure vs. Depth Figure 2.5-172 Arrival Time vs. Distance Figure 2.5-173 Seismic Survey Profile Figure 2.5-174 Typical Backfill Section Figure 2.5-175 Grain Size Distribution, Class A Fill Design Figure 2.5-176 Triaxial Compression Test Results, Class A Fill Design Investigation Figure 2.5-177 Typical Results of High Amplitude Cyclic Torsion Tests, Class A Fill Design Investigations Figure 2.5-178 Maximum Shear Modular vs. Confining Pressure, Class A Fill Design Investigation Figure 2.5-179 Range of Grain Size Distribution Test Results for Class A Fill (Bestone Quarry)

Figure 2.5-180 Range of Grain Size Distribution Test Results for Class A Fill (Sidley Quarry)

Figure 2.5-181 Class A Fill - Field Density Tests Figure 2.5-182 Typical Compaction Curve, Class B Fill Figure 2.5-183 Range of Grain Size Distribution Test Results for Class B Fill Figure 2.5-184 Class B Fill - Field Density Tests Figure 2.5-185 Class B Fill - Field Moisture Tests Revision 22 13 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 2.5-186 Locations of Permanent Groundwater Observation Piezometers Figure 2.5-187 (1) Groundwater Observation Piezometric Readings Figure 2.5-187 (2) Groundwater Observation Piezometric Readings Figure 2.5-187 (3) Groundwater Observation Piezometric Readings Figure 2.5-187 (4) Groundwater Observation Piezometric Readings Figure 2.5-187 (5) Groundwater Observation Piezometric Readings Figure 2.5-187 (6) Groundwater Observation Piezometric Readings Figure 2.5-187 (7) Groundwater Observation Piezometric Readings Figure 2.5-187 (8) Groundwater Observation Piezometric Readings Figure 2.5-187 (9) Groundwater Observation Piezometric Readings Figure 2.5-187 (10) Groundwater Observation Piezometric Readings Figure 2.5-187 (11) Groundwater Observation Piezometric Readings Figure 2.5-187 (12) Groundwater Observation Piezometric Readings Figure 2.5-187 (13) Groundwater Observation Piezometric Readings Figure 2.5-187 (14) Groundwater Observation Piezometric Readings Figure 2.5-187 (15) Groundwater Observation Piezometric Readings Figure 2.5-187 (16) Groundwater Observation Piezometric Readings Figure 2.5-187 (17) Groundwater Observation Piezometric Readings Figure 2.5-187 (18) Groundwater Observation Piezometric Readings Figure 2.5-187 (19) Groundwater Observation Piezometric Readings Figure 2.5-187 (20) Groundwater Observation Piezometric Readings Figure 2.5-187 (21) Groundwater Observation Piezometric Readings Figure 2.5-187 (22) Groundwater Observation Piezometric Readings Figure 2.5-187 (23) Groundwater Observation Piezometric Readings Figure 2.5-187 (24) Groundwater Observation Piezometric Readings Figure 2.5-187 (25) Groundwater Observation Piezometric Readings Figure 2.5-187 (26) Groundwater Observation Piezometric Readings Figure 2.5-187 (27) Groundwater Observation Piezometric Readings Figure 2.5-187 (28) Groundwater Observation Piezometric Readings Figure 2.5-187 (29) Groundwater Observation Piezometric Readings Figure 2.5-187 (30) Groundwater Observation Piezometric Readings Figure 2.5-187 (31) Groundwater Observation Piezometric Readings Figure 2.5-187 (32) Groundwater Observation Piezometric Readings Figure 2.5-187 (33) Groundwater Observation Piezometric Readings Figure 2.5-187 (34) Groundwater Observation Piezometric Readings Figure 2.5-188 (1) Groundwater Profiles Revision 22 14 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 2.5-188 (2) Groundwater Profiles Figure 2.5-188 (3) Groundwater Profiles Figure 2.5-188 (4) Groundwater Profiles Figure 2.5-189 Number of Cycles Required for Initial Liquefaction Figure 2.5-190 Cycle Stress Developed and Required for Initial Liquefaction in 10 Stress Cycles Figure 2.5-191 Liquefaction Potential Analysis of Lacustrine Sediments Figure 2.5-192 Time-Deformation Analysis for Reactor Building Complex Figure 2.5-193 Deformation Analysis for Emergency Service Water Pumphouse Figure 2.5-194 Earth Pressure Diagrams for Rigid Subsurface Walls Figure 2.5-195 Earth Pressure Diagrams for Emergency Service Water Pumphouse Subsurface Walls Figure 2.5-196 Lateral Pressure - Emergency Service Water Pumphouse Figure 2.5-197 Shale Heave Gauge Location Plan Figure 2.5-198 Shale Heave Gauge Detail Figure 2.5-199 (1) Shale Heave Gauge Monitoring Data Figure 2.5-199 (2) Shale Heave Gauge Monitoring Data Figure 2.5-200 Shale Extensometer Locations in Emergency Service Water Pumphouse Excavation Figure 2.5-201 Installation Details, Shale Extensometers Figure 2.5-202 (1) Shale Extensometers Monitoring Data Figure 2.5-202 (2) Shale Extensometers Monitoring Data Figure 2.5-202 (3) Shale Extensometers Monitoring Data Figure 2.5-202 (4) Shale Extensometers Monitoring Data Figure 2.5-202 (5) Shale Extensometers Monitoring Data Figure 2.5-202 (6) Shale Extensometers Monitoring Data Figure 2.5-203 Settlement Monument Location Plan Figure 2.5-204 (1) Reactor Mat Deformation Figure 2.5-204 (2) Reactor Mat Deformation Figure 2.5-205 (1) Settlement Observation Data Figure 2.5-205 (2) Settlement Observation Data Figure 2.5-205 (3) Settlement Observation Data Figure 2.5-205 (4) Settlement Observation Data Figure 2.5-205 (5) Settlement Observation Data Figure 2.5-205 (6) Settlement Observation Data Figure 2.5-206 Building Settlement Monitoring Disks Revision 22 15 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 2.5-207 Settlement Observation Data Figure 2.5-208 Settlement Observation Data Figure 2.5-209 Bluff Stability Analysis Figure 2.5-210 Stability Analysis of Lake Erie Bluff Figure 2.5-211 EPRI Seismic Hazard Calculations Results for PNPP Figure 2.5-212 EPRI Seismic Hazard Calculations Results for PNPP Figure 2.5-213 Distribution of Felt Reports 1/26/1991 Earthquake Figure 2.5-214 Total Felt Area of Dec. 28, 1988 (23:28 UT)

Microearthquake Mc=2.8 Figure 2.5-215 Isoseismal Map Saguenay Earthquake November 25, 1988 Figure 2D-1 Location Map Perry Nuclear Power Plant Figure 2D-2 (1) Geologic Map of Tunnel Excavations Figure 2D-2 (2) Geologic Map of Tunnel Excavations Figure 2D-2 (3) Geologic Map of Tunnel Excavations Figure 2D-2 (4) Geologic Map of Tunnel Excavations Figure 2D-2 (5) Geologic Map of Tunnel Excavations Figure 2D-2 (6) Geologic Map of Tunnel Excavations Figure 2D-2 (7) Geologic Map of Tunnel Excavations Figure 2D-2 (8) Geologic Map of Tunnel Excavations Figure 2D-2 (9) Geologic Map of Tunnel Excavations Figure 2D-2 (10) Geologic Map of Tunnel Excavations Figure 2D-2 (11) Geologic Map of Tunnel Excavations Figure 2D-2 (12) Geologic Map of Tunnel Excavations Figure 2D-2 (13) Geologic Map of Tunnel Excavations Figure 2D-2 (14) Geologic Map of Tunnel Excavations Figure 2D-2 (15) Geologic Map of Tunnel Excavations Figure 2D-2 (16) Geologic Map of Tunnel Excavations Figure 2D-2 (17) Geologic Map of Tunnel Excavations Figure 2D-2 (18) Geologic Map of Tunnel Excavations Figure 2D-2 (19) Geologic Map of Tunnel Excavations Figure 2D-2 (20) Geologic Map of Tunnel Excavations Figure 2D-2 (21) Geologic Map of Tunnel Excavations Figure 2D-2 (22) Geologic Map of Tunnel Excavations Figure 2D-2 (23) Geologic Map of Tunnel Excavations Figure 2D-2 (24) Geologic Map of Tunnel Excavations Figure 2D-3 Tunneling Plan Revision 22 16 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 2D-4 Bedrock Geologic Map of Northeastern Ohio Figure 2D-5 Glacial Map of Northeastern Ohio Figure 2D-6 Structural Contour Map - Top of Big Lime Figure 2D-7 Structural Contour Map - Top of Packer Shell Figure 2D-8 Isopach Map Of Big Lime And Niagaran Shale Figure 2D-9 Fault and Outcrop Location Map Figure 2D-10 Schematic Northwest-Southeast Cross Section, Perry Nuclear Power Plant Figure 2D-11 TX-Series Boring Plant Figure 2D-12 Map of Shoreline Survey Figure 2D-13 Location Map, Video Survey Lake Erie Bottom Figure 2D-14 Longitudinal Section, Intake Tunnel Figure 2D-15 Longitudinal Section, Discharge Tunnel Figure 2D-16 Location Map, Offshore Magnetic Survey Figure 2D-17 Location Map, Onshore Magnetic Survey Figure 2D-18 Location Map, Seismic Spreads, Intake Tunnel Figure 2D-19 Location Map, Seismic Spreads, Discharge Tunnel Figure 2D-20 Schematic Map, Lake Bottom Fractures Figure 2D-21 Sketch of Facies Relationships Among the Huron, Chagrin, & Cleveland Shales Figure 2D-22 Detailed Map, Intake Tunnel Fault Figure 2D-23 Detailed Map Discharge Tunnel Fault Figure 2D-24 Detailed Stratigraphic Section, Intake Tunnel East Wall Station 10+30-10+40 Figure 2D-25 Detailed Stratigraphic Section, Discharge Tunnel East Wall Station 11+40-11+46 Figure 2D-26 Detailed Stratigraphic Section, Discharge Tunnel East Wall Station 13+22-13+28 Figure 2D-27 Geologic Structure Map, Intake & Discharge Tunnel Faults Figure 2D-28 Intake Tunnel Wall Maps, Stations 10+25-10+95 Figure 2D-29 Discharge Tunnel Wall Maps, Stations 13+100-12+00 Figure 2D-30 Discharge Tunnel Wall Maps, Stations 11+40-12+00 Figure 2D-31 Geologic Maps, Intake & Discharge Tunnels Figure 2D-32 Photographs, Structural Details, Intake Tunnel Figure 2D-33 Photographs, Structural Details, Discharge Tunnel Figure 2D-34 Offshore for Shipborne Magnetic Profile 14 Figure 2D-35 Offshore for Shipborne Magnetic Profiles 10 and 12 Revision 22 17 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 2D-36 Offshore for Shipborne Magnetic Profiles 6 and 8 Figure 2D-37 Offshore for Shipborne Magnetic Profiles 2 and 4 Figure 2D-38 Offshore for Shipborne Magnetic Profiles 0 and 3 Figure 2D-39 Offshore for Shipborne Magnetic Profiles 5A and 7 Figure 2D-40 Offshore for Shipborne Magnetic Profiles 9 and 11 Figure 2D-41 Offshore for Shipborne Magnetic Profiles 13 and 15 Figure 2D-42 Offshore for Shipborne Magnetic Profiles 17 and 19 Figure 2D-43 Onshore for Land Magnetic Profile 1S-A Figure 2D-44 Onshore for Land Magnetic Profile 1S Figure 2D-45 Onshore for Land Magnetic Profile 1E Figure 2D-46 Onshore for Land Magnetic Profile 2S Figure 2D-47 Onshore for Land Magnetic Profile 3S Figure 2D-48 Onshore for Land Magnetic Profile 3S-A Figure 2D-49 Borehole Logs - Gamma/Sonic, TX Borings 2, 3, 4, 5, 6, 7 Figure 2D-50 Borehole Logs - Gamma/Sonic, TX Borings 8, 9, 10 Figure 2D D-1 Expansion and Settlement in the Colonies and Eastern United States 1650 - 1890 Figure 2D D-2 Settlement in Canada Figure 2D D-3 Newspaper Research Matrix Figure 2D D-4 Seismicity Map Figure 2D D-5 Felt Report Map: 1850 Oct. 1 Figure 2D D-6 Felt Report Map: 1857 Feb. 28 Figure 2D D-7 Felt Report Map: 1858 Apr. 10 Figure 2D D-8 Felt Report Map: 1885 Jan. 18 Figure 2D D-9 Felt Report Map: 1906 June 27 Figure 2D D-10 Felt Report Map: 1928 Sept. 09 Figure 2D D-11 Felt Report Map: 1943 Mar. 09 Figure 2D D-12 John Carroll University Seismogram: 1943 Mar. 09 Figure 2D D-13 John Carroll University Seismograms: 1951 Dec. 03 Figure 2D D-14 John Carroll University Seismograms: 1955 May 26 Figure 2D D-15 Felt Report Map: 1955 May 26 Figure 2D D-16 Felt Report Map: 1955 June 29 Figure 2D D-17 John Carroll University Seismograms: 1958 May 1 Revision 22 18 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 2E-1 Site Exploration Plot Plan Chapter 3 Figure 3.2-1 Location of Safety Class Structures Figure 3.6-1 D-303-601 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Reactor Building, Elev. 574-10-East Figure 3.6-2 D-303-602 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Reactor Building, Elev. 574-10-West Figure 3.6-3 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Reactor Building, Elev. 599-9-East Figure 3.6-4 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Reactor Building, Elev. 599-9-West Figure 3.6-5 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Reactor Building, Elev. 620-6-East Figure 3.6-6 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Reactor Building, Elev. 620-6-West Figure 3.6-7 D-304-078 Piping Arrangements for Feedwater in Reactor Building and Steam Tunnel- Historical Figure 3.6-8 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Reactor Building, Elev. 642-0-East Figure 3.6-9 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Reactor Building, Elev. 642-0-West Figure 3.6-10 D-304-691 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Reactor Building, Standby Liquid Control Figure 3.6-11 D-304-692 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Reactor Building, Standby Liquid Control- Historical Figure 3.6-12 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Reactor Building, Elev. 652-2-East Figure 3.6-13 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Reactor Building, Elev. 652-2-West Figure 3.6-14 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Reactor Building, Elev. 664-7-East Figure 3.6-15 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Reactor Building, Elev. 664-7-West Figure 3.6-16 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Reactor Building, Containment Spray Figure 3.6-17 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Reactor Building, Containment Spray Revision 22 19 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 3.6-18 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Auxiliary Building, Elev. 574-10-East Figure 3.6-19 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Auxiliary Building, Elev. 574-10-West Figure 3.6-20 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Auxiliary Building, Elev. 599-0-East Figure 3.6-21 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Auxiliary Building, Elev. 599-0-West Figure 3.6-22 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Auxiliary Building, Elev. 620-6-East Figure 3.6-23 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Auxiliary Building, Elev. 620-6-West Figure 3.6-24 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Auxiliary Building, Steam Tunnel, Elevs. 614-6 and 620-6 Figure 3.6-25 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Intermediate Building, Elev. 574 Northwest Figure 3.6-26 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Intermediate Building, Elev. 574 Southwest Figure 3.6-27 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Intermediate Building, Elev. 574 Center Figure 3.6-28 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Intermediate Building, Elev. 574 East Figure 3.6-29 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Intermediate Building, Elev. 599-0-Northwest Figure 3.6-30 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Intermediate Building, Elev. 599 Southwest Figure 3.6-31 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Intermediate Building, Elev. 620 Northwest Figure 3.6-32 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Intermediate Building, Elev. 620 Southwest Figure 3.6-33 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Intermediate Building, Elev. 620 Center Figure 3.6-34 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Intermediate Building, Elev. 639 Northwest Figure 3.6-35 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Intermediate Building, Elev. 639 Southwest Revision 22 20 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 3.6-36 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Intermediate Building, Elev. 654 Northwest Figure 3.6-37 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Intermediate Building, Elev. 654 Southwest Figure 3.6-38 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Intermediate Building, Elev. 665 West Figure 3.6-39 Scope of High Energy, Safe Shutdown and Break Exclusion Piping, for Control Complex, Elev. 574-10-East Figure 3.6-40 D-923-002 Piping Arrangement for CCCW-Control Complex, Elev. 574-10-West- Historical Figure 3.6-41 D-304-804 Piping Arrangement for ESW-Control Complex-Historical Figure 3.6-42 D-304-802 Piping Arrangement for ESW-Control Complex-Historical Figure 3.6-43 D-923-005 Piping Arrangement for CCCW-Control Complex, Elev. 679-6-East- Historical Figure 3.6-44 D-923-004 Piping Arrangement for CCCW-Control Complex, Elev. 679-6-West- Historical Figure 3.6-45 D-304-805 Piping Arrangement for ESW-Diesel Generator Building- Historical Figure 3.6-46 D-304-058 Piping Arrangement for Radwaste Building Auxiliary Steam Figure 3.6-47 D-304-059 Piping Arrangement for Radwaste Building Auxiliary Steam Figure 3.6-48 Typical Restraint Force-Deflection Curve Figure 3.6-49 Break Locations and Restraints - PDA Verification Program Figure 3.6-50 Jet Characteristics Figure 3.6-51 Homogeneous Jet Asymptotic Area- Saturated Water and Steam Blowdown Figure 3.6-52 fl/D Versus Ratio of Width of Jet at Asymptotic Plane to Width of Jet at Break Plane - Steam Figure 3.6-53 fl/D Versus Ratio of Width of Jet at Asymptotic Plane to Width of Jet at Break Plane - Saturated Water Figure 3.6-54 Typical Pipe Whip Restraint Configuration Figure 3.6-55 B-312-641 Penetration Guard Pipe Type K Main Steam-Historical Figure 3.6-56 B-312-639 Penetration Guard Pipe Type J RCIC AND RHR- Historical Figure 3.6-57 B-312-640 Penetration Guard Pipe Details Type J Figure 3.6-58 B-312-650 Penetration Guard Pipe Type Q Feedwater-Historical Figure 3.6-59 B-312-656 Penetration Guard Pipe Type J MS Drain-Historical Figure 3.6-60 B-312-657 Penetration Guard Pipe Type J RCIC-Historical Figure 3.6-61 B-312-663 Penetration Guard Pipe Details Type J Revision 22 21 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 3.6-62 B-312-667 Penetration Guard Pipe Type J RWCU-Historical Figure 3.6-63 B-312-668 Penetration Guard Pipe Details Type J Figure 3.6-64 B-312-670 Penetration Guard Pipe Details Type J -

Historical Figure 3.6-65 (1) Main Steam System Piping Postulated Break Locations and Restraint Locations Figure 3.6-65 (2) Main Steam System Piping Postulated Break Locations and Restraint Locations Figure 3.6-65a Line A - Main Steam Piping Stress Node Locations Figure 3.6-65b Line A - Main Steam Piping Stress Node Locations (Sweepolet)

Figure 3.6-65c Node Point Stress Analysis Diagram - Main Steam Lines C and B Figure 3.6-65d Node Point Stress Anaysis Diagram - Main Steam Lines C and B (Sweepolet)

Figure 3.6-65e Node Point Stress Analysis Diagram - Main Steam Line D Figure 3.6-65f Node Point Stress Analysis Diagram - Main Steam Line D (Sweepolet)

Figure 3.6-66 Recirculation System Piping Postulated Break Locations and Restraint Locations Figure 3.6-66a RHR Suction Line Postulated Break Locations and Restraint Locations Figure 3.6-66b Recirculation System Node Diagram (Loop A and B)

Figure 3.6-67 Pipe Rupture Locations Feedwater Inside Containment Figure 3.6-68 Pipe Rupture Locations LPCI (RHR) Inside Containment Figure 3.6-69a Pipe Rupture Locations Low Pressure Core Spray Inside Containment Figure 3.6-69b Pipe Rupture Locations High Pressure Core Spray Inside Containment Figure 3.6-70 Pipe Rupture Locations RCIC Steam - Inside Containment Figure 3.6-70a Pipe Rupture Locations RCIC Steam Supply -

Outside Containment Figure 3.6-70b RCIC Steam Piping Inside Containment Stress Node Locations Figure 3.6-71 Pipe Rupture Locations Head Spray Fitting Drain to MS A Figure 3.6-72 (1) CRD Supply - Inside Containment Figure 3.6-72 (2) CRD Supply - Inside Containment Figure 3.6-72 (3) CRD Supply - Inside Containment Figure 3.6-73 Pipe Rupture Locations RWCU - Inside Containment Figure 3.6-74 Pipe Rupture Locations MS Drain Inside Containment Figure 3.6-75 Pipe Rupture Locations MS Outside Containment Revision 22 22 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 3.6-76 Pipe Rupture Locations FW Outside Containment Figure 3.6-77 Pipe Rupture Locations MS Drains/LCS Outside Containment Figure 3.6-78 Pipe Rupture Locations RWCU/RHR To FW Outside Containment Figure 3.6-79 Pipe Rupture Locations Auxiliary Steam Outside Containment Figure 3.6-80 Pipe Rupture Locations RWCU Outside Containment Figure 3.6-81 DELETED Figure 3.6-82 DELETED Figure 3.6-83 DELETED Figure 3.6-84 Jet Impingement Recirculation Jet Striking HPCS Figure 3.6-85 Jet Impingement Recirculation Jet Striking CRD Lines Figure 3.6-86 DELETED Figure 3.6-87 DELETED Figure 3.6-88 DELETED Figure 3.6-89 DELETED Figure 3.6-90 Jet Impingement LPCI B Jet Striking HPCS Figure 3.6-91 Jet Impingement HPCS Jet Striking LPCI B Figure 3.6-92 Jet Impingement MS Jet Striking Shield Building Figure 3.6-93 DELETED Figure 3.6-94 DELETED Figure 3.6-95 Feedwater Break WB9C - Reactor Vessel Side (14 line)

Figure 3.6-96 Feedwater Break WB12C - Reactor Vessel Side (20 line)

Figure 3.6-97 Feedwater Break WB11 - End Cap Break (20 line)

Figure 3.6-98 Feedwater Longitudinal Break at Node 46 In Turbine Building Figure 3.6-99 Typical Jet Impingement Force Time History (Example is a Feedwater Line Break at the RPV Nozzle)

Figure 3.6-100 Typical Pipe Whip Restraint Force Figure 3.6-101 Pressure/Forces in Asymmetric Loading Analyses Figure 3.7-1 Safe Shutdown Earthquake Design Response Spectra - Horizontal Motion Figure 3.7-2 Safe Shutdown Earthquake Design Response Spectra - Vertical Motion Figure 3.7-3 Operating Basis Earthquake Design Response Spectra - Horizontal Motion Figure 3.7-4 Operating Basis Earthquake Design Response Spectra - Vertical Motion Revision 22 23 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 3.7-5 Response Spectra - Horizontal Motion H1 (2%

and 5% Damping)

Figure 3.7-6 Response Spectra - Horizontal Motion H1 (7%

and 10% Damping)

Figure 3.7-7 Response Spectra - Horizontal Motion H2 (2%

and 5% Damping)

Figure 3.7-8 Response Spectra - Horizontal Motion H2 (7%

and 10% Damping)

Figure 3.7-9 Response Spectra - Vertical Motion (2% and 5% Damping)

Figure 3.7-10 Response Spectra - Vertical Motion (7% and 10% Damping)

Figure 3.7-11 Seismic Model for the Reactor Building Figure 3.7-12 Seismic Model for Auxiliary Building Figure 3.7-13 Seismic Model for Intermediate and Fuel Handling Buildings Figure 3.7-14 Seismic Model for Control Complex Figure 3.7-15 DELETED Figure 3.7-16 Reactor Pressure Vessel and Internals Seismic Model Figure 3.7-17 D-814-663 Seismic Instrumentation Installation Details Figure 3.8-1 Typical Section of Reactor Building Complex Figure 3.8-2 Typical Section Through Ring Grinder of Shield Building Wall Figure 3.8-3 Typical Reinforced Section for the Shield Building Wall and Dome Figure 3.8-4 Containment Vessel Personnel Access Airlock Detail Figure 3.8-5 Containment Vessel Equipment Access Hatch and Shield Structure Figure 3.8-6 Typical Mechanical Penetration Details for Reactor Building Complex Figure 3.8-7 Typical Electrical Penetration Details for Reactor Building Complex Figure 3.8-8 D-411-165 Reinforced Sections of the Shield Building Steam Tunnel Area- Historical Figure 3.8-9 Analytical Model of Shield Building Figure 3.8-10 Temperature Profiles Through Shield Building Figure 3.8-11 Analytical Model of the Shield Steam Tunnel Area Figure 3.8-12 D-411-130 Reinforcement-Shield Building Steam Tunnel Area- Historical Figure 3.8-13 Reactor Building Steel Frame Pool Swell Analysis Model Figure 3.8-14 Typical Detail of Containment Vessel Polar Crane Bracket Figure 3.8-15 Detail of Fuel Transfer Penetration Figure 3.8-16 (1) Containment - Finite Element Model - STRAP Figure 3.8-16 (2) Containment - Finite Element Model - STRAP Revision 22 24 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 3.8-17 Containment - Finite Element Model - GHOSH WILSON Figure 3.8-18 Containment Vessel Embedment Model Figure 3.8-19 Containment Vessel Embedment Model Figure 3.8-20 Containment Vessel Equipment Hatch Finite Element Model Figure 3.8-21 Containment Vessel Airlock Finite Element Model Figure 3.8-22 Containment Vessel Flat Dome Buckling Program and Wavy Dome Buckling Program Figure 3.8-23 Bellville Washer Load - Deflection Curve Figure 3.8-24 General Arrangement of Bio Shield Wall, RPV Pedestal and Mat Figure 3.8-25 E-018-001 Recirculation Suction Flow Diverter Figure 3.8-26 RPV Pedestal Embedment Weir Wall Liner Embedment and Reactor Hold Down Area Figure 3.8-27 Typical Reinforced Section of Weir Mat and Weir Wall Figure 3.8-28 Drywell Vent Structure, Base Mat Embedment and Transition to Reinforced Concrete Figure 3.8-29 Typical Reinforced Section Through Drywell Wall Figure 3.8-30 Details of Drywell Head, Bulkhead Plate and Seal Figure 3.8-31 Drywell Personnel Access Lock and Shield Door Figure 3.8-32 Drywell Equipment Access Hatch Figure 3.8-33 Reactor Building Complex Floor Plan at Elev.

599-9 Figure 3.8-34 Reactor Building Complex Floor Plan at Elev.

620-6 and 630-1 Figure 3.8-35 Reactor Building Complex Floor Plan at Elev.

642-0 Figure 3.8-36 Reactor Building Complex Floor Plan at Elev.

664-7 Figure 3.8-37 Reactor Building Complex Floor Plan at Elev.

689-6 Figure 3.8-38 Temperature Profiles Through Foundation Mat Figure 3.8-39 DELETED Figure 3.8-40 Temperature Profiles Through Drywell Wall Figure 3.8-41 Temperature Profiles Through Drywell Top Slab and Fuel Pool Wall Figure 3.8-42 Drywell Finite Element Model Figure 3.8-43 Elastic Model for Predicting Thermal Induced Forces Figure 3.8-44 Drywell Personnel Access Airlock Finite Element Model Figure 3.8-45 Drywell Equipment Hatch Finite Element Model Figure 3.8-46 Analytical Model of Drywell Steam Tunnel Area Revision 22 25 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 3.8-47 Drywell Vent Structure Finite Element Model Figure 3.8-48 Drywell Vent Structure Steam Relief Valve Penetration Finite Element Model Figure 3.8-49 (1) RPV Pedestal Finite Element Model Figure 3.8-49 (2) RPV Pedestal Finite Element Model Figure 3.8-49 (3) RPV Pedestal Finite Element Model Figure 3.8-49 (4) RPV Pedestal Finite Element Model Figure 3.8-49 (5) RPV Pedestal Finite Element Model Figure 3.8-49 (6) RPV Pedestal Finite Element Model Figure 3.8-49 (7) RPV Pedestal Finite Element Model Figure 3.8-50 (1) Biological Shield Wall Finite Element Model Figure 3.8-50 (2) Biological Shield Wall Finite Element Model Figure 3.8-50 (3) Biological Shield Wall Finite Element Model Figure 3.8-50 (4) Biological Shield Wall Finite Element Model Figure 3.8-50 (5) Biological Shield Wall Finite Element Model Figure 3.8-50 (6) Biological Shield Wall Finite Element Model Figure 3.8-51 D-411-157 Reinforcement-Drywell Wall Steam Tunnel Area- Historical Figure 3.8-52 D-411-159 Reinforced Section of the Drywell Wall Steam Tunnel Area Figure 3.8-53 DELETED Figure 3.8-54 DELETED Figure 3.8-55 DELETED Figure 3.8-56 DELETED Figure 3.8-57 DELETED Figure 3.8-58 DELETED Figure 3.8-59 DELETED Figure 3.8-60 DELETED Figure 3.8-61 DELETED Figure 3.8-62 DELETED Figure 3.8-63 DELETED Figure 3.8-64 E-015-002 Emergency Service Water Pumphouse Figure 3.8-65 D-736-012 Offshore Intake and Discharge Structures Figure 3.8-66 D-736-013 Intake and Discharge Tunnel Profiles Figure 3.8-67 Intake Structure, Discharge Structure and Alternate Emergency Service Water Intake Figure 3.8-68 Multiport Intake Structures - Caisson Arrangement Figure 3.8-69 Typical Offshore Elbow and Shaft Transition Figure 3.8-70 Plan and Profiles - Service Water Tunnels Revision 22 26 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 3.8-71 Typical Tunnel Sections Figure 3.8-72 Typical Shaft and Elbow in Rock Figure 3.8-73 (1) Underdrain Gravity Discharge Manholes Figure 3.8-73 (2) Underdrain Gravity Discharge Manholes Figure 3.8-74 Condensate Storage Tank Support Structure Figure 3.8-75 D-434-561 Layout - Service Water Valve Pit Figure 3.8-76 D-426-602 Electrical Manholes Figure 3.8-77 Finite Element Model for Static Stress Analysis of Tunnels Figure 3.8-78 Finite Element Model for Seismic Analysis of Tunnels Figure 3.8-79 Waterproofing Details Figure 3.8-80 D-415-111 Cassions for Fuel Handling Building-Historical Figure 3.8-81 Foundation Details of Safety Class Structures Figure 3.8-82 Typical Section Through Reactor Building Foundation Mat Figure 3.8-83 Reinforcement Plan of Reactor Building Foundation Mat Figure 3.8-84 Analytical Model of Reactor Building Complex Foundation Mat Figure 3.8-85 Weir Mat and Wall Finite Element Model Figure 3.8-86 Elastic Model for Predicting Thermal Induced Forces of Weir Wall and Mat Figure 3.8-87 Plan View -Drywell Top Slab (Elev. 664-7)

Reinforcement Figure 3.8-88 Reinforcing Drawing of Drywell Equipment Hatch Area Figure 3.8-89 Reinforcing Drawing of Drywell Personnel Lock Area Figure 3.8-90 Base Mat Shear Key Arrangement - Auxiliary Building Figure 3.8-91 Base Mat Shear Key Arrangement - Fuel Handling Building Figure 3.8-92 Base Mat Shear Key Arrangement -

Intermediate Building Figure 3.8-93 Base Mat Shear Key Arrangement - Radwaste Building Figure 3.8-94 Base Mat Shear Key Arrangement - Control Complex Figure 3.8-95 Base Mat Shear Key Arrangement - Offgas Building Figure 3.8-96 Drywell Sump Room Pool Swell Protection Structure Figure 3.8-97 Drywell T.I.P. Drive Pool Swell Protection Structure Figure 3.8-98 Drywell Equipment Hatch Pool Swell Protection Structure Figure 3.8-99 Drywell Personnel Lock Pool Swell Protection Switch Revision 22 27 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 3.8-100 Personnel Air Lock Seal Test System Typical Figure 3.8-101 D-511-201 Reactor Building Biological Shield Wall Liner Details- Historical Figure 3.8-102 Reactor Building Basemat: Design Moment vs.

Reinforced Section Moment Capacity Figure 3.8-103 Reactor Building Mat: Design Shear Envelope vs. Mat Shear Capacity Figure 3.8-104 Main Steam Drywell Wall Embedded Sleeve Detail Figure 3.8-105 ASHSD 2 Model for Annulus Concrete Design Figure 3.8-106 ANSYS Thermal Model for Annulus Concrete Design Figure 3.8-107 (1) Containment Fix Thermal Stress Model Figure 3.8-107 (2) Containment Fix Thermal Stress Model Figure 3.8-107 (3) Containment Fix Thermal Stress Model Figure 3.8-107 (4) Containment Fix Thermal Stress Model Figure 3.8-107 (5) Containment Fix Thermal Stress Model Figure 3.8-108 (1) Containment Stiffener Chock Model Figure 3.8-108 (2) Containment Stiffener Chock Model Figure 3.8-108 (3) Containment Stiffener Chock Model Figure 3.8-108 (4) Containment Stiffener Chock Model Figure 3.8-108 (5) Containment Stiffener Chock Model Figure 3.8-109 (1) Response Spectra Model Figure 3.8-109 (2) Response Spectra Model Figure 3.8-109 (3) Response Spectra Model Figure 3.8-109 (4) Response Spectra Model Figure 3.8-109 (5) Response Spectra Model Figure 3.8-110 Compressible Material Around Penetration Figure 3.9-1 Horizontal Spectrum RCIC Turbine Figure 3.9-2 Vertical Spectrum RCIC Turbine Figure 3.9-3 Horizontal Spectrum SSE Condition for the RHR Heat Exchanger Figure 3.9-4 Vertical Spectrum SSE Condition for the RHR Heat Exchanger Figure 3.9-5 Analysis Summary for Main Steam Isolation Valve Accumulator Tank - Tank No. 1, 1B21-A001A, etc.

Figure 3.9-6 Analysis Summary for ADS Safety Relief Valve Accumulator Tank - Tank No. 2, 1B21-A003A, etc.

Figure 3.9-7 Analysis Summary for Control Complex Chilled Water Expansion Tank - Tank No. 3, P47-A002A, etc.

Revision 22 28 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 3.9-8 Analysis Summary for Emergency Closed Cooling Surge Tank - Tank No. 4, 1P42-A001A, etc.

Figure 3.9-9 Analysis Summary for Fuel Pool Surge Tank-Tank No. 5, G41-A002A, etc.

Figure 3.9-10 Analysis Summary for Standby Diesel Generator Fuel Oil Storage Tank-Tank No. 6, 1R45-A002A, etc.

Figure 3.9-11 Analysis Summary for HPCS Diesel Generator Fuel Oil Storage Tank - Tank No. 7, 1R45-A004, etc.

Figure 3.9-12 Analysis Summary for Reactor Water Cleanup F/D BW Settling Tank - Tank No. 8, G50-A013A, etc.

Figure 3.9-13 Analysis Summary for Concentrated Waste Tank

- Tank No. 9, G50-A006A, etc.

Figure 3.9-14 Analysis Summary for Safety Relief Valve Accumulator Tank - Tank No. 10, 1B21-A004A, etc.

Figure 3.9-15 Analysis Summary for HPCS Diesel Fuel Oil Day Tank - Tank No. 12, 1R45-A005, etc.

Figure 3.9-16 Transient Pressure Differentials Following a Steamline Break (Shroud Support, Core Plate, Upper Shroud)

Figure 3.9-17 Transient Pressure Differentials Following a Steamline Break (Average Channel Wall Bottom, Top Guide)

Figure 3.9-18 Typical Relief Valve Opening Transient Forcing Function Figure 3.9-19 Reactor Vessel Cutaway Figure 3.9-20 Reactor Internals Flow Paths Figure 3.9-21 Fuel Support Pieces Figure 3.9-22 Jet Pump Figure 3.9-23 Pressure Nodes Used for Depressurizaion Analysis Figure 3.9-24 (1) D-306-081 Feedwater Design Transients Figure 3.9-24 (2) D-306-082 Feedwater Design Transients Figure 3.9-25 (1) D-306-605 Main Steam Drains Design Transients Figure 3.9-25 (2) D-306-606 Main Steam Drains Design Transients Figure 3.9-26 (1) B-306-631 Reactor Core Isolation Cooling Design Transients Figure 3.9-26 (2) B-306-632 Reactor Core Isolation Cooling Design Transients Figure 3.9-26 (3) B-306-633 Reactor Core Isolation Cooling Design Transients Figure 3.9-26 (4) B-306-634 Reactor Core Isolation Cooling Design Transients Figure 3.9-27 (1) D-306-641 Residual Heat Removal Design Transients Figure 3.9-27 (2) D-306-642 Residual Heat Removal Design Transients Figure 3.9-27 (3) D-306-643 Residual Heat Removal Design Transients Revision 22 29 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 3.9-27 (4) D-306-644 Residual Heat Removal Design Transients Figure 3.9-28 (1) D-306-701 High Pressure Core Spray Design Transients Figure 3.9-28 (2) D-306-702 High Pressure Core Spray Design Transients Figure 3.9-29 (1) D-306-705 Low Pressure Core Spray Design Transients Figure 3.9-29 (2) D-306-706 Low Pressure Core Spray Design Transients Figure 3.9-30 (1) D-306-661 Reactor Water Clean-Up Design Transients Figure 3.9-30 (2) D-306-662 Reactor Water Clean-Up Design Transients Figure 3.9-30 (3) D-306-663 Reactor Water Clean-Up Design Transients Figure 3.9-30 (4) D-306-664 Reactor Water Clean-Up Design Transients Figure 3.10-1 Typical Vertical Board Figure 3.10-2 Typical Instrument Rack Figure 3.10-3 Typical Local Rack Figure 3.10-4 Typical NEMA-12 Enclosure Figure 3.11-1 DELETED Figure 3.11-2 DELETED Figure 3.11-3 DELETED Figure 3.11-4 DELETED Figure 3.11-5 DELETED Figure 3.11-6 DELETED Figure 3.11-7 DELETED Figure 3.11-8 DELETED Figure 3.11-9 DELETED Figure 3.11-10 B-022-001 Environmental Zones Lead Sheet Figure 3.11-11 B-022-002 Environmental Conditions for Auxiliary Building Figure 3.11-12 B-022-003 Environmental Conditions for Auxiliary Building Figure 3.11-13 B-022-004 Environmental Conditions for Auxiliary Building Figure 3.11-14 B-022-005 Environmental Conditions for Auxiliary Building Figure 3.11-15 B-022-006 Environmental Conditions for Auxiliary Building Figure 3.11-16 B-022-007 Environmental Conditions for Auxiliary Building Figure 3.11-16a B-022-008 Environmental Conditions for Auxiliary Building Figure 3.11-17 B-022-010 Environmental Conditions for Control Buildings Figure 3.11-18 B-022-011 Environmental Conditions for Control Buildings Figure 3.11-19 B-022-012 Environmental Conditions for Control Buildings Revision 22 30 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 3.11-20 B-022-020 Environmental Conditions for Containment Building Figure 3.11-21 B-022-021 Environmental Conditions for Containment Building Figure 3.11-22 B-022-022 Environmental Conditions for Containment Building Figure 3.11-23 B-022-023 Environmental Conditions for Containment Building Figure 3.11-24 B-022-024 Environmental Conditions for Containment Building Figure 3.11-25 B-022-025 Environmental Conditions for Containment Building Figure 3.11-26 B-022-026 Environmental Conditions for Containment Building Figure 3.11-27 B-022-027 Environmental Conditions for Diesel Generator Areas Figure 3.11-28 B-022-030 Environmental Conditions for Drywell Area Figure 3.11-29 B-022-031 Environmental Conditions for Drywell Area Figure 3.11-30 B-022-032 Environmental Conditions for Drywell Area Figure 3.11-31 B-022-035 Environmental Conditions for Emergency Service Water Pumphouse Figure 3.11-32 (1) B-022-040 Environmental Conditions for Intermediate Building Figure 3.11-32 (2) B-022-040 Environmental Conditions for Intermediate Building Figure 3.11-33 B-022-041 Environmental Conditions for Intermediate Building Figure 3.11-34 B-022-042 Environmental Conditions for Intermediate Building Figure 3.11-35 B-022-046 Environmental Conditions for General Areas of the Offgas Building Figure 3.11-36 B-022-047 Environmental Conditions Heater Bay Fan Room

& Outside Around Condensate Storage Tank Figure 3.11-37 B-022-050 Environmental Conditions for Turbine Building Figure 3.11-38 B-022-051 Environmental Conditions for Turbine Building Figure 3.11-39 B-022-068 Drywell and Containment Environmental Zones Figure 3.11-40 E-022-060 Environmental Zone Map Plan A Above EL.

568-6 EL. 574-10, EL. 577-6, & EL.

580-6 Plant Complex Figure 3.11-41 E-022-061 Environmental Zone Map, Plan B Above EL 593-6, 599-0, 600-6, 602-6 & 605-6 Plant Complex Figure 3.11-42 E-022-062 Environmental Zone Map Plan C Above Elevs.

620-6, 623-6, and 624-6, Plant Complex Figure 3.11-43 E-022-063 Environmental Zone Map Plan D Above Elevs.

638-6, 642-0, and 647-6, Plant Complex Figure 3.11-44 E-022-064 Environmental Zone Map Plan E Above Elevs.

652-0 and 654-6, Plant Complex Figure 3.11-45 E-022-065 Environmental Zone Map Plan F Above Elevs.

664-6, 665-0, and 670-6, Plant Complex Figure 3.11-46 E-022-066 Environmental Zone Map Plan G Above Elev.

689-6, Plant Complex Revision 22 31 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 3.11-47 E-022-067 Environmental Zone Map Emergency Service Water Pumphouse Plans and Elevations Figure 3A-1 Reactor Building Model for Hydrodynamic Analysis Soil Elements Figure 3A-2 Containment Vessel Model for Hydrodynamic Analysis Figure 3A-3 RPV Horizontal Model Figure 3A-4 RPV Vertical Model Figure 3A-5 Chagrin Shale Dynamic Characteristics Figure 3A-6 Reactor Building Model for Hydrodynamic Analysis Figure 3A-7 Reactor Building Model for Hydrodynamic Analysis Figure 3B-1 Plan at Elevation 599-9 Figure 3B-2 Section 1-1 Through Sump Figure 3B-3 Section 2-2 Through TIP Platform Figure 3B-4 Plan at Elevation 620-6 Figure 3B-5 Suppression Pool Cross Section Figure 3B-6 Condensation Oscillation Load Spatial Distribution on the Drywell Wall Containment Wall and Basemat Figure 3B-7 Suppression Pool Chugging Normalized Peak Underpressure Attenuation Figure 3B-8 Suppression Pool Chugging Normalized Spike Attenuation Figure 3B-9 Suppression Pool Chugging Spike Duration d as a Function of Location in the Pool Figure 3B-10 Suppression Pool Chugging Normalized Peak Post-Chug Oscillations Figure 3B-11 Suppression Pool Chugging Normalized Mean Underpressure Attenuation Figure 3B-12 Suppression Pool Chugging Normalized Post-Chug Oscillation Attenuation Figure 3BA-1 Quencher Arrangement Elevation Perry Nuclear Power Plant Figure 3BA-2 Typical Quencher Plan View F Figure 3BA-3 Safety/Relief Valve Discharge Locations Figure 3BA-4 Safety/Relief Valve Discharge Piping Arrangement Figure 3BA-5 One Safety/Relief Valve Normalized Wall Pressure at 4.5o Figure 3BA-6 Two Safety/Relief Valves Normalized Wall Pressure at 355.5o Figure 3BA-7 Eight Safety/Relief Valves Normalized Wall Pressure at 346.5o Azimuth Figure 3BA-8 Eight Safety/Relief Valves Reference Point 4 (Circumferential Distribution)

Figure 3BA-9 Eight Safety/Relief Valves Reference Point 10 (Circumferential Distribution)

Revision 22 32 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 3BA-10 Nineteen Safety/Relief Valves Normalized Wall Pressure At 130.5o Azimuth Figure 3BA-11 Suppression Pool Chugging Normalized Mean Underpressure Attenuation Figure 3BA-12 Nineteen Safety/Relief Valves Reference Point 10 (Circumferential Distribution)

Figure 3BI-1 Suppression Pool Temperature Profile for Large Breaks (DBA)

Chapter 4 Figure 4.2-1 Control Rod Assembly Original Equipment Design Figure 4.2-2 Control Rod Information Diagram Original Equipment Design Figure 4.2-3 Control Rod Velocity Limiter Figure 4.2-4 Control Rod Assembly Marathon Design Figure 4.3-1 DELETED Figure 4.3-2 DELETED Figure 4.3-3 DELETED Figure 4.3-4 Banked Position Withdrawal Sequence RPCS, Groups 1 Through 4, Sequence A (238-748)

Figure 4.3-5 Banked Position Withdrawal Sequence RPCS Groups 5 Thru 10, Sequence A (238-748)

Figure 4.3-6 Banked Position Withdrawal Sequence, RPCS Groups 1 thru 4, Sequence B (238-748)

Figure 4.3-7 Banked Position Withdrawal Sequence RPCS Groups 5 thru 10, Sequence B (238-748)

Figure 4.3-8 DELETED Figure 4.3-9 Model for Neutron Transport Analysis of Vessel Fluence, Unit 1 Figure 4.3-9 (2) DELETED Figure 4.3-10 DELETED Figure 4.3-11 DELETED Figure 4.4-1 DELETED Figure 4.4-2 Standard Power-Flow Operating Map (Typical)

Figure 4.4-3 DELETED Figure 4.4-4 DELETED Figure 4.4-5 DELETED Figure 4.4-6 DELETED Figure 4.4-7 DELETED Figure 4.4-8 DELETED Figure 4.4-9 DELETED Figure 4.4-10 DELETED Revision 22 33 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 4.4-11 DELETED Figure 4.4-12 DELETED Figure 4.4-13 DELETED Figure 4.4-14 DELETED Figure 4.4-15 DELETED Figure 4.4-16 DELETED Figure 4.4-17 DELETED Figure 4.4-18 DELETED Figure 4.4-19 DELETED Figure 4.6-1 Control Rod to Control Rod Drive Coupling Figure 4.6-2 Control Rod Drive Unit Figure 4.6-3 Control Rod Drive Schematic Figure 4.6-4 Control Rod Drive Unit (Cutaway)

Figure 4.6-5 (1) D-302-871 Control Rod Drive Hydraulic System Figure 4.6-5 (2) D-302-872 Control Rod Drive Hydraulic System Figure 4.6-6 DELETED Figure 4.6-7 Control Rod Drive Hydraulic System Figure 4.6-8 Control Rod Drive Hydraulic Control Unit Figure 4.6-9 Control Rod Drive Housing Support Chapter 5 Figure 5.1-1 Rated Operating Conditions of the Boiling Water Reactor Figure 5.1-2 Coolant Volumes of the Boiling Water Reactor Figure 5.1-3 (1) D-302-605 Nuclear Boiler System Figure 5.1-3 (2) D-302-606 Nuclear Boiler System Figure 5.1-3 (3) D-302-607 Nuclear Boiler System Figure 5.1-3 (4) D-302-608 Nuclear Boiler System Figure 5.1-4 (1) Preliminary Piping Study Figure 5.1-4 (2) Preliminary Piping Study Figure 5.2-1 Typical Dual Safety/Relief Valve Capacity Characteristics Power-Actuated Relief Mode Figure 5.2-2 Typical Dual Safety/Relief Valve Capacity Characteristics - Spring Action Safety Mode Figure 5.2-3 Initial Cycle MSIV Closure with Flux Scram and Installed Safety/Relief Valve Capacity (Overpressurization Protection Analysis)

Figure 5.2-4 Scram Reactivity vs Time Characteristics Revision 22 34 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 5.2-5 Control Rod Drive vs Time Characteristics Figure 5.2-6a Power Actuated & Safety Action Valve Lift Characterisitics Figure 5.2-6b Reactor Vessel Pressure Following Transient Isolation Event Figure 5.2-7 Peak Vessel Pressure Versus Safety/Relief Capacity Figure 5.2-8 Initial Cycle Time Response for Pressurization Figure 5.2-9 Safety/Relief Valve Schematic Elevation Figure 5.2-10 Safety/Relief Valve and Steamline Schematic Figure 5.2-11 (1) Nuclear Boiler System Figure 5.2-11 (2) Nuclear Boiler System Figure 5.2-12 Schematic of Safety Valve with Auxiliary Activating Device Figure 5.2-13 Typical BWR Flow Diagram Figure 5.2-14 Conductivity pH and Chloride Concentration of Aqueous Solution @ 77F (25C)

Figure 5.2-15 Calculated Leak Rate vs. Crack Length as a Function of Applied Hoop Stress Figure 5.2-16 Axial Throughwall Crack Length Data Correlation Figure 5.3-1 Surveillance Bracket Figure 5.3-2 (1) DELETED Figure 5.3-2 (2) DELETED Figure 5.3-2 (3) DELETED Figure 5.3-2 (4) DELETED Figure 5.3-2 (5) DELETED Figure 5.3-2 (6) DELETED Figure 5.3-3 DELETED Figure 5.3-4 DELETED Figure 5.3-5 (1) DELETED Figure 5.3-5 (2) DELETED Figure 5.3-6 Reactor Vessel Cutaway Diagram Figure 5.3-7 Reactor Vessel Nominal Water Level Trip and Alarm Elevations Figure 5.4-1 Recirculation System Elevation and Isometric Figure 5.4-2 (1) D-302-601 Reactor Water Recirculation System Figure 5.4-2 (2) D-302-602 Reactor Water Recirculation System Figure 5.4-2 (3) D-302-603 Reactor Water Recirculation System Figure 5.4-2 (4) D-302-604 Reactor Water Recirculation System Figure 5.4-3 Typical Recirculation Pump Head, NPSH, and Efficiency Curves Revision 22 35 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 5.4-4 Typical Flow Control Valve Characteristic Figure 5.4-5 Operating Principle of Jet Pump Figure 5.4-6 Core Flooding Capability of Recirculation System Figure 5.4-7 Main Steamline Flow Restrictor Figure 5.4-8 (1) DELETED Figure 5.4-8 Main Steam Isolation Valve Figure 5.4-9 (1) D-302-631 Reactor Core Isolation Cooling System Figure 5.4-9 (2) D-302-632 Reactor Core Isolation Cooling System Figure 5.4-10 Reactor Core Isolation Cooling System Figure 5.4-11 Vessel Coolant Temperature vs. Time (Two Heat Exchangers Available)

Figure 5.4-12 Vessel Coolant Temperature vs. Time (One Heat Exchanger Available)

Figure 5.4-13 (1) D-302-641 Residual Heat Removal System Figure 5.4-13 (2) D-302-642 Residual Heat Removal System Figure 5.4-13 (3) D-302-643 Residual Heat Removal System Figure 5.4-14 (1) Residual Heat Removal System Figure 5.4-14 (2) Residual Heat Removal System Figure 5.4-14 (3) Residual Heat Removal System Figure 5.4-15 RHR Pump Characteristic Curves Figure 5.4-16 (1) D-302-671 Reactor Water Cleanup System Figure 5.4-16 (2) D-302-672 Reactor Water Cleanup System Figure 5.4-17 (1) Reactor Water Cleanup System Figure 5.4-17 (2) Reactor Water Cleanup System Figure 5.4-18 (1) Filter/Demineralizer System, Reactor Water Cleanup System Figure 5.4-18 (2) Filter/Demineralizer System, Reactor Water Cleanup System Figure 5.4-19 D-302-675 Filter/Demineralizer System, Reactor Water Cleanup System Figure 5.4-20 B-301-726 RCIC Turbine Exhaust Sparger Detail Figure 5.4-21 RCIC Pump Performance Curves Chapter 6 Figure 6.2-1 Effective Blowdown Area for Recirculation Line Break Figure 6.2-2 Short Term Pressure Response Following a Recirculation Line Break Figure 6.2-3 Short Term Temperature Response Following a Recirculation Line Break Figure 6.2-4 DELETED Figure 6.2-5 Short Term Vent Flow Rates Following a Recirculation Line Break (Minimum ECCS)

Revision 22 36 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 6.2-6 Long Term Pressure Response Following a Main Steam Line Break (at 3729 MWt)

Figure 6.2-6a Long Term Pressure Response Following a Main Steam Line Break (at 3833 MWt)

Figure 6.2-7 Long Term Drywell Temperature Response Following a Main Steam Line Break (at 3729 MWt)

Figure 6.2-7a Long Term Drywell Temperature Response Following a Main Steam Line Break (at 3833 MWt)

Figure 6.2-8 Long Term Suppression Pool Temperature Response Following a Recirculation Line Break (at 3729 MWt)

Figure 6.2-8a Long Term Suppression Pool Temperature Response Following a Recirculation Line Break (at 3833 MWt)

Figure 6.2-9 RHR Heat Removal Rate Following a Recirculation Line Break (at 3729 MWt)

Figure 6.2-10 Effective Blowdown Area for Main Steam Line Break Figure 6.2-11 Short Term Pressure Response Following a Main Steam Line Break Figure 6.2-12 Short Term Temperature Response Following a Main Steam Line Break Figure 6.2-13 DELETED Figure 6.2-14 Short Term Vent Flow Rates Following a Main Steam Line Break (Minimum ECCS)

Figure 6.2-15 Suppression Pool Temperature for DBA and for Blowdown During Hot Standby Operation (at 3729 MWt)

Figure 6.2-16 Short Term Containment Pressure Response Following an Intermediate Size Break (IBA =

0.68 ft2) (at 3729 MWt)

Figure 6.2-17 Short Term Containment Temperature Response Following an Intermediate Size Break (IBA =

0.68 ft2) (at 3729 MWt)

Figure 6.2-18 Schematic of the RHR Containment Cooling System Analytical Model (Min. ECCS)

Figure 6.2-19 Containment Vacuum Breaker Analysis with Initial Internal Surface Temp. 80F Figure 6.2-20 Containment Vacuum Breaker Analysis with Initial Internal Surface Temp. 90F Figure 6.2-21 Containment Pressure Versus Time - Small Line Break Figure 6.2-22 Total Flow Through Two 24 - Inch Diameter CVR Lines Versus Total System Differential Pressure Figure 6.2-23 Containment Pressure Versus Time Inadvertent Spray Operation - Normal Operation Figure 6.2-24 Initial Relative Humidity Versus Initial Temperature for Inadvertent Spray Operation to Maintain Peak Vacuum 0.72 PSI Revision 22 37 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 6.2-25 Containment Pressure Following a Small Break with Steam Bypass (With Containment Spray and Heat Sinks)

Figure 6.2-26 Reactor Vessel Head Ventilation System Figure 6.2-27 RWCU Main Flow Piping Inside Containment and Drywell Figure 6.2-28 E-018-001 Recirculation Suction Flow Diverter Arrangement Figure 6.2-29 Reactor Annulus Nodalization - Recirculation Line Breaks Figure 6.2-30 Reactor Annulus Nodalization Feedwater Line Break Figure 6.2-31 Reactor Annulus Pressure Differentials (Nodes 1 - 24)

Figure 6.2-32 Reactor Annulus Pressure Differentials (Nodes 6 - 24)

Figure 6.2-33 Reactor Annulus Pressure Differentials (Nodes 11 - 24)

Figure 6.2-34 Reactor Annulus Pressure Differentials (Nodes 16 - 24)

Figure 6.2-35 Reactor Annulus Pressure Differentials (Nodes 20 - 24)

Figure 6.2-36 Reactor Annulus Pressure Differentials (Nodes 25 - 24)

Figure 6.2-37 Reactor Annulus Pressure Differentials (Nodes 26 - 24)

Figure 6.2-38 Reactor Annulus Pressure Differentials (Nodes 1 - 50)

Figure 6.2-39 Reactor Annulus Pressure Differentials (Nodes 8 - 50)

Figure 6.2-40 Reactor Annulus Pressure Differentials (Nodes 15 - 50)

Figure 6.2-41 Reactor Annulus Pressure Differentials (Nodes 22 - 50)

Figure 6.2-42 Reactor Annulus Pressure Differentials (Nodes 29 - 50)

Figure 6.2-43 Reactor Annulus Pressure Differentials (Nodes 30 - 50)

Figure 6.2-44 Reactor Annulus Pressure Differentials (Nodes 36 - 50)

Figure 6.2-45 Reactor Annulus Pressure Differentials (Nodes 34 - 50)

Figure 6.2-46 Drywell Head Pressure Differential Figure 6.2-47 RWCU Heat Exchanger Pressure Differential Figure 6.2-48 RWCU Filter Demineralizer Drain Valve Nest Room Pressure Differential Figure 6.2-49 RWCU Filter Demineralizer Valve Room Pressure Differential Figure 6.2-50 RWCU Filter Demineralizer Room Pressure Differential Figure 6.2-51 Steam Tunnel Pressure Differential Figure 6.2-51a Drywell Bulkhead P Analysis COMPARE Model Revision 22 38 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 6.2-51b Pressure Differential Across Bulkhead Plate Due to MSLB Figure 6.2-51c Pressure Differential Across Bulkhead Plate Due to MSLB Figure 6.2-52 Vessel Blowdown Flow Rates Following a Recirculation Line Break (at 3729 MWt)

Figure 6.2-53 Vessel Blowdown Flow Rates Following a Main Steam Line Break (at 3729 MWt)

Figure 6.2-54 Sensible Energy in the Reactor Pressure Vessel and Internal Metals Following a Main Steam Line Break Figure 6.2-55 D-304-646 Residual Heat Removal System Plan and Section - West Figure 6.2-56 D-304-647 Residual Heat Removal System Plan and Section - East Figure 6.2-57 Model Used In CONTEMPT Figure 6.2-58 Annulus Pressure Following DBA LOCA Versus Time Figure 6.2-59a Annulus Volume Reduction Due to Containment Vessel Response to Post-LOCA Containment Pressure Figure 6.2-59b Annulus Volume Reduction Due to Containment Vessel Response to Post LOCA Containment Temperature Figure 6.2-60 (1) D-300-761 Containment & Drywell Isolation Figure 6.2-60 (2) D-300-762 Containment and Drywell Isolation Figure 6.2-60 (3) D-300-763 Containment & Drywell Isolation Figure 6.2-60 (4) D-300-764 Containment and Drywell Isolation Figure 6.2-61 Hydrogen Concentration Versus Time Figure 6.2-62 D-302-831 Combustible Gas Control System Figure 6.2-63 Hydrogen Recombiner System Figure 6.2-64 Integrated Hydrogen Production Within Containment and Drywell Due to Radiolysis Figure 6.2-65 D-302-811 Containment Integrated Leak Rate Testing System Figure 6.2-66 Details of Personnel Lock for Periodic Testing Figure 6.2-67 D-302-686 Suppression Pool Makeup System Figure 6.2-68 LOCA Signal Used in Initiation Logic of Suppression Pool Makeup System Figure 6.2-69 DELETED Figure 6.2-70 Right Hand Coordinate System Used for Bio-Wall Annulus Pressurization Loadings Figure 6.2-71 Force Moment Arms on Bio-Wall For Annulus Pressurization Due to Feedwater Line Break Figure 6.2-72 Force Moment Arms on Bio-Wall For Annulus Pressurization Due to Recirc Discharge and Suction Line Breaks Figure 6.2-73 Resultant Bio-Wall Forces and Moments Due to Annulus Pressurization Revision 22 39 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 6.2-74 Feedwater Line Break Force X1 Bio-Shield Wall Figure 6.2-75 Feedwater Line Breaks Force X3 Bio-Shield Wall Figure 6.2-76 Recirculation Suction Line Break Force X1 Bio-Shield Wall Figure 6.2-77 Recirculation Discharge Line Break Force X3 Bio-Shield Wall Figure 6.2-78 Feedwater Line Break Moment X1 Bio-Shield Wall Figure 6.2-79 Feedwater Line Break Moment X3 Bio-Shield Wall Figure 6.2-80 Recirculation Suction Line Break Moment At X3 Bio-Shield Wall Figure 6.2-81 Recirculation Discharge Line Break Moment At X1 Bio-Shield Wall Figure 6.2-82 (1) Essential Equipment Location Plan Elev.

599-9 Figure 6.2-82 (2) Essential Equipment Location Plan Elev.

620-6 Figure 6.2-82 (3) Essential Equipment Location Plan Elev.

642-0 Figure 6.2-82 (4) Essential Equipment Location Plan Elev.

664-7 Figure 6.2-82 (5) Essential Equipment Location Plan Elev.

689-6 Figure 6.2-83 D-302-574 ECCS Suction Strainer Figure 6.2-84 Integrated Hydrogen Production Within Containment and Drywell Due to Corrosion of Zinc (3833 MWc)

Figure 6.3-1 High Pressure Core Spray System Process Diagram Figure 6.3-2 Low Pressure Core Spray System Process Diagram Figure 6.3-3 (1) Residual Heat Removal System Process Diagram Figure 6.3-3 (2) Residual Heat Removal System Process Diagram Figure 6.3-3 (3) Residual Heat Removal System Process Diagram Figure 6.3-4 Head Versus High Pressure Core Spray Flow Used in LOCA Analysis Figure 6.3-5 Head Versus Low Pressure Core Spray Flow Used in LOCA Analysis Figure 6.3-6 Head Versus Low Pressure Coolant Injection Flow Used in LOCA Analysis for 1 Pump Only Figure 6.3-7 D-302-701 High Pressure Core Spray System Figure 6.3-8 D-302-705 Low Pressure Core Spray System Figure 6.3-9 Limiting Peak Cladding Temperature Versus Break Area Figure 6.3-10 Normalized Power Versus Time Figure 6.3-11 (1) Water Level in Hot and Average Channels -

DBA Suction - HPCS D/G Failure (Nominal)

LPCS + 3LPCI + ADS Available Revision 22 40 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 6.3-11 (2) Reactor Vessel Pressure - DBA Suction - HPCS D/G Failure (Nominal) LPCS + 3LPCI + ADS Available Figure 6.3-11 (3) DELETED Figure 6.3-11 (4) DELETED Figure 6.3-11 (5) ECCS Flow - DBA Suction - HPCS D/G Failure (Nominal) LPCS + 3LPCI + ADS Available Figure 6.3-11 (6) Peak Cladding Temperature (GE11) - DBA Suction - HPCS D/G Failure (Nominal) LPCS +

3LPCI + ADS Available Figure 6.3-11 (7) Heat Transfer Coefficient (GE11) - DBA Suction - HPCS D/G Failure (Nominal) LPCS +

3LPCI + ADS Available Figure 6.3-11 (8) DELETED Figure 6.3-11 (9) DELETED Figure 6.3-11 (10) Core Average Inlet Flow - DBA Suction - HPCS D/G Failure (Nominal) LPCS + 3LPCI + ADS Available Figure 6.3-11 (11) Minimum Critical Power Ratio - DBA Suction -

HPCS D/G Failure (Nominal) LPCS + 3LPCI +

ADS Available Figure 6.3-12 (1) Water Level in Hot and Average Channel - 1.0 ft2 Suction - HPCS D/G Failure (Nominal) LPCS

+ 3LPCI + ADS Available Figure 6.3-12 (2) Reactor Vessel Pressure - 1.0 ft2 Suction -

HPCS D/G Failure (Nominal) LPCS + 3LPCI +

ADS Available Figure 6.3-12 (3) DELETED Figure 6.3-12 (4) DELETED Figure 6.3-12 (5) ECCS Flow - 1.0 ft2 Suction - HPCS D/G Failure (Nominal) LPCS + 3LPCI + ADS Available Figure 6.3-12 (6) Peak Cladding Temperature (GE11) - 1.0 ft2 Suction - HPCS D/G Failure (Nominal) LPCS +

3LPCI + ADS Available Figure 6.3-12 (7) Heat Transfer Coefficient (GE11) - 1.0 ft2 Suction - HPCS D/G Failure (Nominal) LPCS +

3LPCI + ADS Available Figure 6.3-13 (1) Water Level in Hot and Average Channel - 0.1 ft2 Suction - HPCS D/G Failure (Nominal) LPCS

+ 3LPCI + ADS Available Figure 6.3-13 (2) Reactor Vessel Pressure - 0.1 ft2 Suction -

HPCS D/G Failure (Nominal) LPCS + 3LPCI +

ADS Available Figure 6.3-13 (3) DELETED Figure 6.3-13 (4) DELETED Figure 6.3-13 (5) ECCS Flow - 0.1 ft2 Suction - HPCS D/G Failure (Nominal) LPCS + 3LPCI + ADS Available Revision 22 41 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 6.3-13 (6) Peak Cladding Temperature (GE11) - 0.1 ft2 Suction - HPCS D/G Failure (Nominal) LPCS +

3LPCI + ADS Available Figure 6.3-13 (7) Heat Transfer Coefficient (GE11) - 0.1 ft2 Suction - HPCS D/G Failure (Nominal) LPCS +

3LPCI + ADS Available Figure 6.3-14 (1) Water Level in Hot and Average Channel - DBA Suction - HPCS D/G Failure (Appendix K) LPCS

+ 3LPCI + ADS Available Figure 6.3-14 (2) Reactor Vessel Pressure - DBA Suction - HPCS D/G Failure (Appendix K) LPCS + 3LPCI + ADS Available Figure 6.3-14 (3) DELETED Figure 6.3-14 (4) DELETED Figure 6.3-14 (5) ECCS Flow - DBA Suction - HPCS D/G Failure (Appendix K) LPCS + 3LPCI + ADS Available Figure 6.3-14 (6) Peak Cladding Temperature (GE11) - DBA Suction - HPCS D/G Failure (Appendix K) LPCS

+ 3LPCI + ADS Available Figure 6.3-14 (7) Heat Transfer Coefficient (GE11) - DBA Suction - HPCS D/G Failure (Appendix K) LPCS

+ 3LPCI + ADS Available Figure 6.3-14 (8) DELETED Figure 6.3-14 (9) DELETED Figure 6.3-14 (10) Core Average Inlet Flow - DBA Suction - HPCS D/G Failure (Appendix K) LPCS + 3LPCI + ADS Available Figure 6.3-14 (11) Minimum Critical Power Ratio - DBA Suction -

HPCS D/G Failure (Appendix K) LPCS + 3LPCI +

ADS Available Figure 6.3-15 (1) Water Level in Hot and Average Channel - 1.0 ft2 Suction - HPCS D/G Failure (Appendix K)

LPCS + 3LPCI + ADS Available Figure 6.3-15 (2) Reactor Vessel Pressure - 1.0 ft2 Suction -

HPCS D/G Failure (Appendix K) LPCS + 3LPCI +

ADS Available Figure 6.3-15 (3) DELETED Figure 6.3-15 (4) DELETED Figure 6.3-15 (5) ECCS Flow - 1.0 ft2 Suction - HPCS D/G Failure (Appendix K) LPCS + 3LPCI + ADS Available Figure 6.3-15 (6) Peak Cladding Temperature (GE11) - 1.0 ft2 Suction - HPCS D/G Failure (Appendix K) LPCS

+ 3LPCI + ADS Available Figure 6.3-15 (7) Heat Transfer Coefficient (GE11) - 1.0 ft2 Suction - HPCS D/G Failure (Appendix K) LPCS

+ 3LPCI + ADS Available Figure 6.3-16 (1) Water Level in Hot and Average Channel - 0.1 ft2 Suction - HPCS D/G Failure (Appendix K)

LPCS + 3LPCI + ADS Available Revision 22 42 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 6.3-16 (2) Reactor Vessel Pressure - 0.1 ft2 Suction -

HPCS D/G Failure (Appendix K) LPCS + 3LPCI +

ADS Available Figure 6.3-16 (3) DELETED Figure 6.3-16 (4) DELETED Figure 6.3-16 (5) ECCS Flow - 0.1 ft2 Suction - HPCS D/G Failure (Appendix K) LPCS + 3LPCI + ADS Available Figure 6.3-16 (6) Peak Cladding Temperature (GE11) - 0.1 ft2 Suction - HPCS D/G Failure (Appendix K) LPCS

+ 3LPCI + ADS Available Figure 6.3-16 (7) Heat Transfer Coefficient (GE11) - 0.1 ft2 Suction - HPCS D/G Failure (Appendix K) LPCS

+ 3LPCI + ADS Available Figure 6.3-17 DELETED Figure 6.3-18 DELETED Figure 6.3-19 DELETED Figure 6.3-20 DELETED Figure 6.3-21 DELETED Figure 6.3-22 DELETED Figure 6.3-23 DELETED Figure 6.3-24 DELETED Figure 6.3-25 DELETED Figure 6.3-26 DELETED Figure 6.3-27 DELETED Figure 6.3-28 DELETED Figure 6.3-29 DELETED Figure 6.3-30 DELETED Figure 6.3-31 DELETED Figure 6.3-32 DELETED Figure 6.3-33 DELETED Figure 6.3-34 DELETED Figure 6.3-35 DELETED Figure 6.3-36 DELETED Figure 6.3-37 DELETED Figure 6.3-38 DELETED Figure 6.3-39 DELETED Figure 6.3-40 DELETED Figure 6.3-41 DELETED Figure 6.3-42 DELETED Revision 22 43 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 6.3-43 DELETED Figure 6.3-44 DELETED Figure 6.3-45 DELETED Figure 6.3-46 DELETED Figure 6.3-47 DELETED Figure 6.3-48 DELETED Figure 6.3-49 DELETED Figure 6.3-50 DELETED Figure 6.3-51 DELETED Figure 6.3-52 DELETED Figure 6.3-53 DELETED Figure 6.3-54 DELETED Figure 6.3-55 DELETED Figure 6.3-56 DELETED Figure 6.3-57 DELETED Figure 6.3-58 DELETED Figure 6.3-59 DELETED Figure 6.3-60 DELETED Figure 6.3-61 DELETED Figure 6.3-62 DELETED Figure 6.3-63 DELETED Figure 6.3-64 DELETED Figure 6.3-65 DELETED Figure 6.3-66 DELETED Figure 6.3-67 DELETED Figure 6.3-68 DELETED Figure 6.3-69 DELETED Figure 6.3-70 DELETED Figure 6.3-71 DELETED Figure 6.3-72 DELETED Figure 6.3-73 DELETED Figure 6.3-74 Jockey Pump Performance Curve Figure 6.3-75 Pump Curves for HPCS Pump Figure 6.3-76 Pump Curves for LPCS Pump Figure 6.3-77 Pump Curves for RHR Pump Figure 6.4-1 (1) D-912-610 Control Room HVAC and Emergency Recirculation Systems Revision 22 44 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 6.4-1 (2) D-912-611 Notes and Operating Data for Figure 6.4-1 and Figure 9.4-1 Figure 6.4-2 D-105-015 Control Room Envelope Figure 6.4-3 DELETED Figure 6.4-4 (1) DELETED Figure 6.4-4 (2) DELETED Figure 6.5-1 D-912-605 Annulus Exhaust Gas Treatment System Figure 6.5-2 Annulus Exhaust Gas Treatment System Distribution Ductwork Figure 6.5-2 (2) DELETED Figure 6.5-3 D-302-661 Containment Spray System Figure 6.5-4 DELETED Figure 6.5-5 DELETED Figure 6.7-1 (1) DELETED Figure 6.7-1 (2) DELETED Figure 6.7-2 (1) DELETED Figure 6.7-2 (2) DELETED Figure 6.7-2 (3) DELETED Figure 6.7-3 DELETED Figure 6.7-4 DELETED Figure 6.8-1 D-302-271 Safety Related Instrument Air System Figure 6.9-1 D-302-971 Feedwater Leakage Control System Figure 6.9-1 (2) DELETED Chapter 7 Figure 7.2-1 (1) D-808-302(1) Reactor Protection System Figure 7.2-1 (2) D-808-302(2) Reactor Protection System Figure 7.2-1 (3) D-808-302(3) Reactor Protection System Figure 7.2-1 (4) D-808-302(4) Reactor Protection System Instrumentation and Electrical Diagram Figure 7.2-2 DELETED Figure 7.3-1 (1) D-808-311 High Pressure Core Spray System Figure 7.3-1 (2) D-808-311 High Pressure Core Spray System Figure 7.3-1 (3) D-808-311 High Pressure Core Spray System Figure 7.3-2 DELETED Figure 7.3-3 (1) D-808-303(1) Nuclear Boiler System Figure 7.3-3 (2) D-808-303(2) Nuclear Boiler System Figure 7.3-3 (3) D-808-303(3) Nuclear Boiler System Figure 7.3-3 (4) D-808-303(4) Nuclear Boiler System Revision 22 45 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 7.3-3 (5) D-808-303(5) Nuclear Boiler System Figure 7.3-3 (6) D-808-303(6) Nuclear Boiler System Figure 7.3-3 (7) D-808-303(7) Nuclear Boiler System Figure 7.3-4 (1) D-808-310(1) Low Pressure Core Spray System Figure 7.3-4 (2) D-808-310(2) Low Pressure Core Spray System Figure 7.3-5 (1) D-808-309(1) Residual Heat Removal System Figure 7.3-5 (2) D-808-309(2) Residual Heat Removal System Figure 7.3-5 (3) D-808-309(3) Residual Heat Removal System Figure 7.3-5 (4) D-808-309(4) Residual Heat Removal System Figure 7.3-5 (5) D-808-309(5) Residual Heat Removal System Figure 7.3-6 D-808-315 Reactor Water Cleanup System Figure 7.3-7 (1) DELETED Figure 7.3-7 (2) DELETED Figure 7.3-7 (3) DELETED Figure 7.3-7 (4) DELETED Figure 7.3-8 D-302-832 Hydrogen Analysis System Figure 7.3-9 Suppression Pool Makeup System Logic Diagram Figure 7.3-10 D-912-606 Drywell and Containment Vacuum Relief System Figure 7.3-11 Containment Vacuum Relief System Control Logic Figure 7.3-12 DELETED Figure 7.4-1 (1) D-808-314(1) Reactor Core Isolation Cooling System Figure 7.4-1 (2) D-808-314(2) Reactor Core Isolation Cooling System Figure 7.4-1 (3) D-808-314(3) Reactor Core Isolation Cooling System Figure 7.4-1 (4) D-808-314(4) Reactor Core Isolation Cooling System Figure 7.4-1 (5) D-808-314(5) Reactor Core Isolation Cooling System Figure 7.4-2 (1) D-808-306(1) Standby Liquid Control System Figure 7.4-2 (2) D-808-306 Standby Liquid Control System Figure 7.6-1 (1) D-302-961 Leak Detection System Figure 7.6-1 (2) D-302-962 Leak Detection System Figure 7.6-1 (3) D-302-963 Leak Detection System Figure 7.6-1 (4) D-302-964 Leak Detection System Figure 7.6-2 (1) D-808-307(1) Neutron Monitoring System Figure 7.6-2 (2) D-808-307(2) Neutron Monitoring System Figure 7.6-2 (3) D-808-307(3) Neutron Monitoring System Figure 7.6-2 (4) D-808-307(4) Neutron Monitoring System Figure 7.6-2 (5) D-808-307(5) Neutron Monitoring System Revision 22 46 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 7.6-2 (6) D-808-307(6) Neutron Monitoring System Figure 7.6-2 (7) D-808-307(7) Neutron Monitoring System Figure 7.6-3 Ranges of Neutron Monitoring System Figure 7.6-4 SRM/IRM Neutron Monitoring Unit Figure 7.6-5 (1) Neutron Monitoring System Arrangement Figure 7.6-5 (2) Neutron Monitoring System Arrangement Figure 7.6-5 (3) Neutron Monitoring System Arrangement Figure 7.6-5 (4) Neutron Monitoring System Arrangement Figure 7.6-5 (5) Neutron Monitoring System Arrangement Figure 7.6-5 (6) Neutron Monitoring System Arrangement Figure 7.6-5 (7) Neutron Monitoring System Arrangement Figure 7.6-5 (8) Neutron Monitoring System Arrangement Figure 7.6-6 Power Range Monitor Director Assembly Location Figure 7.6-7 D-302-881 Containment Atmosphere Monitoring System Figure 7.6-8 RRCS Initiation Logic Figure 7.6-9 Perry RRCS ARI Valves Figure 7.6-10 RRCS Separation Block Diagram Figure 7.7-1 (1) D-808-305(1) Control Rod Drive Hydraulic System Figure 7.7-1 (2) D-808-305(2) Control Rod Drive Hydraulic System Figure 7.7-1 (3) D-808-305(3) Control Rod Drive Hydraulic System Figure 7.7-1 (4) D-808-305(4) Control Rod Drive Hydraulic System Figure 7.7-1 (5) D-808-305(5) Control Rod Drive Hydraulic System Figure 7.7-1 (6) D-808-305(6) Control Rod Drive Hydraulic System Figure 7.7-1 (7) D-808-305(7) Control Rod Drive Hydraulic System Figure 7.7-2 Rod Control and Information System Logic Diagram Figure 7.7-3 Rod Control and Information System Self-Test Provisions Figure 7.7-4 (1) D-808-304(1) Reactor Recirculation System Figure 7.7-4 (2) D-808-304(2) Reactor Recirculation System Figure 7.7-4 (3) D-808-304(3) Reactor Recirculation System Figure 7.7-4 (4) D-808-304(4) Reactor Recirculation System Figure 7.7-4 (5) D-808-304(5) Reactor Recirculation System Figure 7.7-4 (6) D-808-304(6) Reactor Recirculation System Figure 7.7-4 (7) D-808-304(7) Reactor Recirculation System Figure 7.7-5 (1) Recirculation Flow Control Illustrations Figure 7.7-5 (2) B-208-015 Recirculation Flow Control Illustrations (200)

Revision 22 47 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 7.7-5 (3) B-208-015 Recirculation Flow Control Illustrations (205)

Figure 7.7-5 (4) B-208-015 Recirculation Flow Control Illustrations (201)

Figure 7.7-5 (5) B-208-015 Recirculation Flow Control Illustrations (202)

Figure 7.7-5 (6) B-208-015 Recirculation Flow Control Illustrations (203)

Figure 7.7-6 (1) B-208-025 Feedwater Control System Instrumentation and (A200) Electrical Diagram Figure 7.7-6 (2) B-208-025 Feedwater Control System Instrumentation and (A201) Electrical Diagram Figure 7.7-7 (1) Pressure Regulator/Turbine Control System Diagram Figure 7.7-7 (2) Pressure Regulator/Turbine Control System Diagram Figure 7.7-8 Drywell Vacuum Relief System Control Logic for Motor Operated Isolation Valves Chapter 8 Figure 8.1-1 FirstEnergy Corporation Transmission System Figure 8.1-2 DELETED Figure 8.2-1 Transmission Lines Layout Figure 8.2-2 345 kV Transmission Substation Main Connection Diagram Figure 8.2-3 Preferred Power System Layout Figure 8.3-1 D-206-010 Main One Line Diagram, 13.8 kV and 4.16 kV Figure 8.3-2 D-206-020 Main One Line Diagram, 480V and Under Figure 8.3-3 E-001-033 Control Complex and Diesel Generator Building Equipment Layout Above Elev.

620-6, Units 1 and 2 Figure 8.3-4 Control Complex Equipment Layout Above Elev. 628-6, Units 1 and 2 Figure 8.3-5 D-015-002 Emergency Service Water Pumphouse Equipment Layout Above Elev. 586-6 Figure 8.3-6 (1) D-808-317(1) Diesel Logic Diagrams, Division 1 Figure 8.3-6 (2) D-808-317(2) Diesel Logic Diagrams, Division 2 Figure 8.3-7 D-206-018 One Line Meter and Relay Diagram, Class 1E, 4.16 kV, Division 3 Figure 8.3-8 D-808-311(4) HPCS Diesel, Diesel Breakers, Alternate Preferred Supply Breakers Logic Diagram, (Division 3)

Figure 8.3-9 D-808-317(3) Diesel Breaker, Preferred, Alternate Preferred and Stub Bus Logic Diagram, Division 1, (Division 2)

Figure 8.3-10 D-206-017 One Line Meter and Relay Diagram, Class 1E, 4.16 kV, Divisions 1 and 2 Figure 8.3-11 D-206-019 One Line Meter and Relay Diagram, Recirculation Pump Motor Feeders, Unit 1 Figure 8.3-12 D-206-053 One Line Diagram, Class 1E, 120 Volt AC, Division 1 Revision 22 48 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 8.3-13 D-206-054 One Line Diagram, Class 1E, 120 Volt AC, Divisions 2 and 3 Figure 8.3-14 DELETED Figure 8.3-15 DELETED Figure 8.3-16 DELETED Figure 8.3-17 DELETED Figure 8.3-18 D-226-501 DELETED (Partial)

Figure 8.3-19 D-215-667 Containment Vessel Penetration Locations (501) Protective Enclosure Spatial Layout Viewed from Inside Unit 1 Containment Vessel Figure 8.3-20 DELETED Figure 8.3-21 D-206-051 One Line Meter and Relay Diagram, Class 1E, 125 Volt DC, Division 1 & 2 Figure 8.3-22 D-206-050 One Line Meter and Relay Diagram, Class 1E, 125 Volt DC, Division 3 Figure 8.3-23 Block Diagram - RPS Protective Circuit Showing EPA Assemblies Chapter 9 Figure 9.1-1 New Fuel Vault Figure 9.1-2 Fuel Storage Racks Figure 9.1-3 Eccentric Fuel Positioning Figure 9.1-4 Fuel Stored in Control Rod Racks Figure 9.1-5 Abnormal Fuel Storage Conditions Figure 9.1-6 Modular Isometric View Figure 9.1-7 7x10+5 Multiple Purpose Cavities BWR Spent Fuel Rack Figure 9.1-8 Detail Sections Figure 9.1-9 (1) D-302-651 Fuel Pool Cooling and Cleanup System Figure 9.1-9 (2) D-302-653 Fuel Pool Filter Demineralizer System Figure 9.1-9 (3) D-302-654 Fuel Pool Transfer Tank Drain Tank System Figure 9.1-9 (4) D-302-655 Fuel Pool Storage and Transfer System Figure 9.1-10 Fuel Preparation Machine Shown Installed in Facsimile Fuel Pool Figure 9.1-11 New Fuel Inspection Stand Figure 9.1-12 Channel Bolt Wrench Figure 9.1-13 Channel Handling Tool Figure 9.1-14 Fuel Pool Sipper - Historical Figure 9.1-15 Channel Gauging Fixture Figure 9.1-16 General Purpose Grapple Figure 9.1-17 DELETED Figure 9.1-18 Channel Handling Boom Revision 22 49 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 9.1-19 Transfer Tube Figure 9.1-20 DELETED Figure 9.1-21 Drywell Head Removal Sequence Figure 9.1-22 Reactor Vessel Head Removal Sequence Figure 9.1-23 Steam Dryer Removal Sequence Figure 9.1-24 Steam Separator Removal Sequence Figure 9.1-25 Fuel Bundle Transfer Sequence Figure 9.1-26 E-015-045 Fuel Handling Facilities, Laydown Study Figure 9.1-27 E-015-044 Reactor Refueling Floor Laydown Study Figure 9.2-1 (1) D-302-791 Emergency Service Water System Figure 9.2-1 (2) D-302-792 Emergency Service Water System Figure 9.2-1 (3) D-302-793 Emergency Service Water Operating Data Figure 9.2-2 (1) D-304-791 Emergency Service Water Plan, Yard Area, Units 1 & 2 Figure 9.2-2 (2) E-304-792 Emergency Service Water Profile & Sections, Yard Area, Units 1 & 2 Figure 9.2-3 (1) D-302-621 Emergency Closed Cooling System Figure 9.2-3 (2) D-302-622 Emergency Closed Cooling System Figure 9.2-3 (3) D-302-623 Emergency Closed Cooling System Figure 9.2-3 (4) D-352-621 Emergency Closed Cooling System Figure 9.2-3 (5) DELETED Figure 9.2-4 (1) D-302-611 Nuclear Closed Cooling System Figure 9.2-4 (2) D-302-612 Nuclear Closed Cooling System Figure 9.2-4 (3) D-352-612 Nuclear Closed Cooling System Figure 9.2-4 (4) D-302-613 Nuclear Closed Cooling System Figure 9.2-4 (5) D-352-613 DELETED Figure 9.2-5 D-302-713 Mixed Bed Demineralizer and Distribution System Figure 9.2-6 D-302-711 Two Bed Demineralizer & Distribution System Storage & North Zone Distribution Figure 9.2-7 D-302-172 Two Bed Demineralizer and Distribution System Regeneration Facilities Figure 9.2-8 D-302-171 Two Bed Demineralizer and Distribution System Cation and Anion Exchangers Figure 9.2-9 (1) D-302-161 Makeup Water System Pretreatment Figure 9.2-9 (2) D-302-162 Makeup Water System Pretreatment Figure 9.2-10 (1) DELETED Figure 9.2-10 D-300-060(2) Ultimate Heat Sink Figure 9.2-11 Heat Rate Input to Ultimate Heat Sink Figure 9.2-12 Total Integrated Heat Input to Ultimate Heat Sink Revision 22 50 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 9.2-13 D-302-102 Condensate Transfer and Storage System Figure 9.2-14 D-302-212 Service Water System Unit 1 Figure 9.2-14 (2) DELETED Figure 9.2-15 (1) D-302-221 Turbine Building Closed Cooling System Figure 9.2-15 (2) D-302-222 Turbine Building Closed Cooling System Figure 9.2-15 (3) D-302-223 Turbine Building Closed Cooling System Figure 9.2-16 D-302-246 Alternate Decay Heat Removal System Figure 9.2-17 DELETED Figure 9.3-1 (1) D-302-241 Service and Instrument Air Supply Figure 9.3-1 (2) D-352-241 Service and Instrument Air Supply Figure 9.3-2 DELETED Figure 9.3-3 DELETED Figure 9.3-4 DELETED Figure 9.3-5 D-911-005 Lube Oil Area and Turbine Location Drains Figure 9.3-6 D-911-021 Turbine Power Complex, Turbine Building, Heater Bay and Offgas Drains Figure 9.3-7 D-911-022 Turbine Power Complex Drains Figure 9.3-8 D-911-023 Turbine Power Complex Drains Figure 9.3-9 D-911-024 Heater Bay Building Drains Figure 9.3-10 D-911-601 Reactor Building Drains Figure 9.3-11 D-911-617 Auxiliary Building Dirty Radwaste Drains Figure 9.3-12 D-911-627 Intermediate Building Clean Radwaste Drains Figure 9.3-13 D-911-628 Intermediate Building Dirty Radwaste Floor and Equipment Drains, Units 1 & 2 Figure 9.3-14 D-911-629 Intermediate Building Dirty Radwaste Floor and Equipment Drains, Units 1 & 2 Figure 9.3-15 D-911-651 Radwaste Building Dirty Radwaste Floor and Equipment Drains Figure 9.3-16 D-911-652 Radwaste Building Clean and Dirty Equipment Drains Figure 9.3-17 D-911-671 Control Complex Dirty Radwaste Floor and Equipment Drain Figure 9.3-18 D-911-691 Diesel Generator Building Drain Figure 9.3-19 (1) D-302-691 Standby Liquid Control System Figure 9.3-19 (2) D-302-692 Standby Liquid Control System Figure 9.3-20 Solubility Isotherms in the Standby Liquid Control System Figure 9.3-21 D-302-180 Turbine Plant Sampling System Figure 9.3-22 D-302-181 Turbine Plant Sampling System Figure 9.3-23 D-302-182 Turbine Plant Sampling System Figure 9.3-24 D-302-183 Turbine Plant Sampling System Revision 22 51 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 9.3-25 D-302-184 Turbine Plant Sampling System Figure 9.3-26 D-302-185 Turbine Plant Sampling System Figure 9.3-26a D-302-186 Turbine Plant Sampling System Figure 9.3-27 D-302-771 Nuclear Sampling System Figure 9.3-28 D-302-772 Reactor Plant Sampling Figure 9.3-29 D-302-242 Service Air Distribution Figure 9.3-30 DELETED Figure 9.3-31 (1) D-302-243 Instrument Air Figure 9.3-31 (2) D-302-244 Parallel Instrument Air Distribution System Figure 9.3-32 DELETED Figure 9.3-33 D-302-431 Post Accident Sampling System Figure 9.3-34 D-302-121 Main Reheat, Extraction and Miscellaneous Drains Figure 9.3-35 D-302-077 Hydrogen Water Chemistry Figure 9.4-1 (1) D-912-609 MCC Switchgear and Miscellaneous Equipment Areas HVAC System Figure 9.4-1 (2) D-912-611 Notes and Operating Data for Figure 6.4-1 and Figure 9.4-1 Figure 9.4-2 D-912-608 Controlled Access and Miscellaneous Equipment Areas HVAC System Figure 9.4-3 D-912-607 Computer Room HVAC System Figure 9.4-4 D-912-617 Fuel Handling Ventilation System Figure 9.4-5 D-912-615 Auxiliary Building Ventilation System Figure 9.4-6 D-912-625 Steam Tunnel Cooling System Figure 9.4-7 D-912-612 Radwaste Building Ventilation System Figure 9.4-8 D-912-614 Turbine Building Ventilation System Figure 9.4-9 D-912-621 Heater Bay Ventilation System Figure 9.4-10 D-912-622 Offgas Building Exhaust Figure 9.4-11 D-912-630 Emergency Service Water Pumphouse Ventilation System Figure 9.4-12 D-912-623 Emergency Closed Cooling Pump Area Cooling System Figure 9.4-13 D-912-616 ECCS Pump Rooms Cooling Systems Figure 9.4-14 D-912-619 Diesel Generator Building Ventilation System Figure 9.4-15 D-912-603 Drywell Cooling System Figure 9.4-16 D-912-602 Containment Vessel Cooling System Figure 9.4-17 D-912-604 Containment Vessel and Drywell Purge Figure 9.4-18 D-912-613 Intermediate Building Ventilation System Figure 9.4-19 D-912-618 Turbine Power Complex Ventilation System Figure 9.4-20 (1) D-913-001 Control Complex Chilled Water Revision 22 52 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 9.4-20 (2) D-913-002 Control Complex Chilled Water Figure 9.4-21 (1) D-913-003 Turbine Building Chilled Water Figure 9.4-21 (2) D-913-004 Turbine Building Chilled Water Figure 9.4-22 (1) D-913-007 Containment Vessel Chilled Water System Figure 9.4-22 (2) D-913-008 Containment Vessel Chilled Water System Figure 9.4-23 (1) D-913-014 Hot Water Heating System, Heater Bay and Auxiliary Boiler Building, Unit 1 Figure 9.4-23 (2) D-913-015 Hot Water Heating System, Turbine Building, Water Treatment Building & Turbine Lube Oil System, Unit 1 Figure 9.4-23 (3) D-913-016 Hot Water Heating System, Turbine Power Complex, Auxiliary Building and Off-Gas Building, Unit 1 Figure 9.4-24 (1) D-912-624 Offgas Charcoal Vault Refrigeration System, Chilled Liquid Diagram Figure 9.4-24 (2) D-913-009 Offgas Charcoal Vault Refrigeration System, Chilled Liquid Diagram Figure 9.4-24 (3) D-913-010 Offgas Charcoal Vault Refrigeration System, Brine Cooling Package Boiler Diagram Figure 9.4-24 (4) D-913-011 Offgas Charcoal Vault Refrigeration System, Brine Cooling Package Boiler Diagram Figure 9.4-24 (5) D-913-012 Offgas Charcoal Vault Refrigeration System, Brine Cooling Package Boiler Diagram Figure 9.4-25 D-912-633 Smoke Venting System, Miscellaneous Electrical Areas Figure 9.4-26 DELETED Figure 9.4-27 D-912-629 Turbine Lube Oil Storage Area, Diesel Driven Fire Pump Area, Service Water Pumphouse, Water Treatment Building, and Circulating Water Pumphouse and Auxiliary Boiler Building Ventilation Systems Figure 9.4-28 D-912-634 Radwaste Control Room HVAC System Figure 9.4-29 D-913-018 Control and Computer Rooms Humidification System Figure 9.5-1 D-914-001 Fire Service Water Yard Area Figure 9.5-2 D-914-002 Fire Service Water (Unit 1, Turbine Area)

Figure 9.5-3 D-914-003 Fire Service Water (Nuclear Plant)

Figure 9.5-4 D-914-004 Fire Protection Water Miscellaneous Services Figure 9.5-5 D-914-005 Carbon Dioxide System Figure 9.5-6 (1) D-218-106 DELETED Figure 9.5-6 (2) D-218-111 DELETED Figure 9.5-7 Exclusion Area, Boundary Layout Figure 9.5-8 D-302-352 Standby Diesel Generator Fuel Oil System Figure 9.5-9 D-302-354 Standby Diesel Generator, Jacket Water Figure 9.5-10 D-302-351 Piping System Diagram, R-44, Standby Diesel Generator Starting Air Revision 22 53 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 9.5-11 D-302-353 Standby Diesel Generator, Lube Oil Figure 9.5-12 D-302-355 Standby Diesel Generator Exhaust, Intake and Crankcase Figure 9.5-13 G.E. Intake Air System 2600 kW Generator Set Figure 9.5-14 G.E. Exhaust Air System 2600 kW Generator Set Figure 9.5-15 D-302-356 HPCS Diesel Generator Fuel Oil System Figure 9.5-16 D-302-360 Division 3 Diesel Jacket Water Cooling System Diagram Figure 9.5-17 D-302-051 Auxiliary Steam Figure 9.5-18 D-302-052 Auxiliary Steam Figure 9.5-19 D-302-053 Auxiliary Steam Figure 9.5-20 D-302-054 Auxiliary Steam Figure 9.5-21 (1) D-304-352 Diesel Generator Fuel Oil Piping - Yard Area Figure 9.5-21 (2) D-304-353 Diesel Generator Fuel Oil Piping - Yard Area Figure 9.5-22 (1) E-744-180 Plant Backfill and Excavation Showing Diesel Generator Piping and Fuel Oil Tanks Figure 9.5-22 (2) E-744-182 Plant Backfill and Excavation Showing Diesel Generator Piping and Fuel Oil Tanks Figure 9.5-22 (3) E-744-188 Plant Backfill and Excavation Showing Diesel Generator Piping and Fuel Oil Tanks Figure 9.5-23 DELETED Figure 9.5-24 D-302-358 Division 3 Diesel Starting Air/ Air Dryer Diagram Figure 9.5-25 D-302-359 Division 3 Diesel Lube Oil System Diagram Figure 9.5-26 Functional Block Diagram of Division 3 HPCS Diesel Generator Figure 9A-1 E-023-001 Fire Protection Evaluation - Plot Plan Figure 9A-2 E-023-002 Fire Protection Evaluation - Unit 1 Auxiliary and Reactor Buildings Plan - Elev.

574-10 Figure 9A-3 E-023-003 Fire Protection Evaluation - Unit 1 Intermediate and Fuel Handling Buildings Plan - Elev. 574-10 Figure 9A-4 DELETED Figure 9A-5 E-023-005 Fire Protection Evaluation - Unit 1 Auxiliary and Reactor Buildings Plan - Elev.

599-0 and 599-9 Figure 9A-6 E-023-006 Fire Protection Evaluation - Units 1 and 2 Control Complex Plan - Elev. 574-10 Figure 9A-7 E-023-007 Fire Protection Evaluation - Units 1 and 2 Control Complex Plan - Elev. 599-0 Figure 9A-8 E-023-008 Fire Protection Evaluation - Unit 1 Intermediate and Fuel Handling Buildings Plan - Elev. 599-0 Figure 9A-9 DELETED Revision 22 54 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 9A-10 E-023-010 Fire Protection Evaluation - Unit 1 Auxiliary and Reactor Buildings Plan - Elev.

620-6 Figure 9A-11 E-023-011 Fire Protection Evaluation - Units 1 and 2 Control Complex and Diesel Generator Building Plan - Elev. 620-6 Figure 9A-12 E-023-012 Fire Protection Evaluation - Unit 1 Intermediate and Fuel Handling Buildings Plan - Elev. 620-6 Figure 9A-13 DELETED Figure 9A-14 E-023-014 Fire Protection Evaluation - Unit 1 Reactor Building and Auxiliary Building Roof Plan -

Elev. 642-6 Figure 9A-15 E-023-015 Fire Protection Evaluation - Units 1 and 2 Control Complex and Diesel Generator Building Roof Plan - Elev. 638-6 and 646-6 Figure 9A-16 E-023-016 Fire Protection Evaluation - Unit 1 Intermediate and Fuel Handling Building Plan

- Elev. 639-6 and 654-6 Figure 9A-17 DELETED Figure 9A-18 E-023-018 Fire Protection Evaluation - Unit 1 Reactor Building Plan - Elev. 654-0 Figure 9A-19 E-023-019 Fire Protection Evaluation - Units 1 and 2 Control Complex Plan - Elev. 654-6 and 679-6 Figure 9A-20 E-023-020 Fire Protection Evaluation - Unit 1 Intermediate and Fuel Handling Buildings Plan - Elev. 665-0 Figure 9A-21 DELETED Figure 9A-22 E-023-022 Fire Protection Evaluation - Unit 1 Reactor Building Plan - Elev. 664-7 Figure 9A-23 E-023-023 Fire Protection Evaluation - Units 1 and 2 Control Complex Roof Plan - Elev. 707-6 Figure 9A-24 E-023-024 Fire Protection Evaluation - Unit 1 Intermediate Building and Fuel Handling Building Roof Plan - Elev. 682-6 Figure 9A-25 E-023-025 Fire Protection Evaluation - Unit 1 Reactor Building Plan - Elev. 689-6 Figure 9A-26 E-023-026 Fire Protection Evaluation - Unit 1 Intermediate Building Roof Plan - Elev.

707-6 and 721-6 Figure 9A-27 E-023-027 Fire Protection Evaluation - Unit 1 Reactor Building Plan - Elev. 721-0 Figure 9A-28 E-023-028 Fire Protection Evaluation - Unit 1 Reactor Building Plan - Elev. 757-0 Figure 9A-29 E-023-029 Fire Protection Evaluation - Unit 1 Auxiliary, Reactor and Fuel Handling Buildings - Section A-A Looking West Figure 9A-30 E-023-030 Fire Protection Evaluation Fuel Handling Building Section B-B Looking West Figure 9A-31 E-023-031 Fire Protection Evaluation - Units 1 and 2 Control Complex - Section C-C looking West Revision 22 55 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 9A-32 E-023-032 Fire Protection Evaluation - Units 1 and 2 Fuel Handling Building - Section D-D looking North Figure 9A-33 E-023-033 Fire Protection Evaluation - Unit 1 Control Complex and Diesel Generator Building -

Section E-E Looking North Figure 9A-34 E-023-034 Fire Protection Evaluation - Unit 1 Emergency Service Water Pumphouse - Plans and Sections Chapter 10 Figure 10.1-1 (1) D-302-011 Main Steam System, Unit 1 Figure 10.1-1 (2) D-302-012 Reheat Steam System, Unit 1 Figure 10.1-1 (3) D-302-014 Reheater Heating Steam System Figure 10.1-2 D-302-041 Extraction Steam Figure 10.1-3 (1) D-302-081 Feedwater Figure 10.1-3 (2) D-302-082 Feedwater Figure 10.1-4 (1) D-302-101 Condensate System Figure 10.1-4 (2) D-302-103 Condensate System Figure 10.1-5 (1) D-302-104 Condensate Filtration System Figure 10.1-5 (2) D-302-105 Condensate Filtration System Figure 10.1-5 (3) D-302-106 Condensate Filtration System Figure 10.1-6 (1) D-302-107 Condensate Demineralizer System Figure 10.1-6 (2) D-302-108 Condensate Demineralizer System Figure 10.1-6 (3) D-302-109 Condensate Demineralizer System Figure 10.1-6 (4) D-302-110 Condensate Demineralizer System Figure 10.1-7 D-302-201 Circulating Water System Figure 10.1-8 (1) D-302-111 High Pressure Heater Drains and Vents Figure 10.1-8 (2) D-302-112 High Pressure Heater Drains and Vents Figure 10.1-8 (3) D-302-114 High Pressure Heater Drains and Vents Figure 10.1-8 (4) D-302-115 High Pressure Heater Drains and Vents Figure 10.1-9 D-302-113 Low Pressure Heater Drains and Vents Figure 10.1-10 D-302-141 Steam Seal System Figure 10.1-11 D-302-131 Condenser Air Removal System Figure 10.1-12 Rated Power Figure 10.1-13 Designed Power - VWO Figure 10.2-1 Turbine Stop Valve Closure Characteristics Figure 10.2-2 Turbine Control Valve Fast Closure Characteristics Figure 10.2-3 Turbine Protection System Block Diagram Figure 10.2-4 D-302-301 Hydrogen Supply System Revision 22 56 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 10.2-5 D-302-302 Generator H2 and CO2 Gas Control System Figure 10.2-6 D-914-005 Fire Service Carbon Dioxide Figure 10.2-7 DELETED Figure 10.2-8 DELETED Figure 10.2-9 DELETED Figure 10.3-1 Steam Tunnel Arrangement Figure 10.4-1 D-302-021 Steam Bypass and Pressure Regulation System Figure 10.4-2 Steam Bypass and Pressure Regulation System Pictorial Diagram Figure 10.4-3 (1) Bypass Valves Chest A Figure 10.4-3 (2) Bypass Valves Chest A Chapter 11 Figure 11.1-1 Noble Radiogas Decay Constant Exponent Frequency Histogram Figure 11.1-2 Radiohalogen Decay Constant Exponent Frequency Histogram Figure 11.1-3 Noble Radiogas Leakage vs. I-131 Leakage Figure 11.2-1 (1) D-302-739 Input Streams for the Liquid Radwaste System Figure 11.2-1 (2) D-302-740 Input Streams for the Liquid Radwaste System Figure 11.2-1 (3) D-302-741 Input Streams for the Liquid Radwaste System Figure 11.2-1 (4) Input Streams for the Liquid Radwaste System Figure 11.2-2 Process Flow Paths for the Liquid Radwaste System Figure 11.3-1 (1) Offgas System Process Diagram Figure 11.3-1 (2) Offgas System Process Diagram Figure 11.3-2 (1) D-302-751 Offgas System Figure 11.3-2 (2) D-302-752 Offgas System Figure 11.3-2 (3) D-302-753 Offgas System Figure 11.3-2 (4) D-302-754 Offgas System Figure 11.3-3 D-806-001 Plant Airborne Radiation Monitoring Figure 11.4-1 Solid Radwaste System Figure 11.5-1 (1) D-806-006 Plant Radiation Monitoring Figure 11.5-1 (2) D-806-007 Plant Radiation Monitoring (Partial)

Figure 11.5-1 (3) D-806-008 Plant Radiation Monitoring Figure 11.5-1 (4) D-806-009 Plant Radiation Monitoring Figure 11.5-1 (5) D-806-010 Plant Radiation Monitoring Figure 11.5-1 (6) D-806-017 Plant Radiation Monitoring Figure 11.5-1 (7) D-806-018 Plant Radiation Monitoring Figure 11.5-1 (8) D-806-019 Plant Radiation Monitoring Revision 22 57 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 11.5-1 (9) D-806-022 Plant Radiation Monitoring Figure 11.5-1 (10) D-806-023 Plant Radiation Monitoring Automatic Isokinetic Sampling System Figure 11.5-1 (11) D-806-024 Plant Radiation Monitoring Figure 11.5-1 (12) D-806-025 Plant Radiation Monitoring Chapter 12 Figure 12.2-1 Radiation Source Model Figure 12.3-1 E-013-003 Radiation Zones, Plan A Above Elev. 568-6, 574-10, 577-6, and 580-6 Plant Complex Figure 12.3-2 E-013-004 Radiation Zones Plan B Above Elevs. 593-6, 599-0, 600-6, 602-6, and 605-6 Figure 12.3-3 E-013-005 Radiation Zones, Plan C Above Elevs.

620-6, 623-6, and 624-6 Figure 12.3-4 E-013-006 Radiation Zones, Plan D Above 638-6, 642-0, and 647-6 Figure 12.3-5 E-013-007 Radiation Zones, Plan E Above Elev. 652-0 and 654-6 Plant Complex Figure 12.3-6 E-013-008 Radiation Zones, Plan F Above Elev. 664-7, 665-0, and 670-6 Plant Complex Figure 12.3-7 E-013-009 Radiation Zone, Plan G Above Elev. 689-6 Figure 12.3-8 E-013-010 Radiation Zone, Plan H Roof Plan Figure 12.3-9 E-013-011 Radiation Zone, Section A-A Figure 12.3-10 E-013-012 Radiation Zone, Section B-B Figure 12.3-11 E-013-013 Radiation Zone, Section C-C Figure 12.3-12 Skyshine Dose Rate (mrem/hr) vs. Distance (ft.)

Figure 12.3-13 General Arrangement - Annulus Exhaust Unit Figure 12.3-14 (1) General Arrangement - Control Room Emergency Recirculation Plenum Figure 12.3-14 (2) General Arrangement - Control Room Emergency Recirculation Plenum Figure 12.3-15 General Arrangement - Offgas Building Exhaust Plenum Figure 12.3-16 General Arrangement - Fuel Handling Area Exhaust Plenum Figure 12.3-17 General Arrangement - Containment Vessel &

Drywell Purge Exhaust Figure 12.3-18 General Arrangement - Controlled Access Area Exhaust Plenum Figure 12.3-19 General Arrangement - Radwaste Building Exhaust Plenum Figure 12.3-20 General Arrangement - Auxiliary Building Exhaust Plenum Figure 12.3-21 Inclined Fuel Transfer Tube Radiation Shielding Figure 12.3-22 Intermediate Building Tool Storage/Decon Area Exhaust Figure 12.4-1 Engineering and Construction Schedule Revision 22 58 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 12.4-2 Site Organization Manning (Without Perry Plant Department)

Figure 12.5-1 DELETED Figure 12.6-1 E-013-003 Post-Accident Radiation Zones, Plan A Above Elev. 568-6, 574-10, 577-6 and 580-6 Plant Complex Figure 12.6-2 E-013-004 Post-Accident Radiation Zones, Plan B Above Elevs. 593-6, 599-0, 600-6, 602-6 and 605-6 Plant Complex Figure 12.6-3 E-013-005 Post Accident Radiation Zones, Plan C Above Elev. 620-6, 623-6, and 624-6, Plant Complex Figure 12.6-4 E-013-006 Post Accident Radiation Zones, Plan D Above Elev. 638-6, 642-0, and 647-0, In Plant Complex Figure 12.6-5 E-013-007 Post-Accident Radiation Zones, Plan E Above Elev. 652-0 and 654-6 Plant Complex Figure 12.6-6 E-013-008 Post-Accident Radiation Zones, Plan F Above Elev. 664-7, 665-0, and 670-6 Plant Complex Figure 12.6-7 E-013-009 Post-Accident Radiation Zones, Plan G Above Elev. 689-6, Plant Complex Figure 12.6-8 Auxiliary Building Dose Rates Versus Time Following a LOCA Figure 12.6-9 Intermediate Building Dose Rates Versus Time Following a LOCA Chapter 13 Figure 13.1-1 DELETED Figure 13.1-2 Onsite Organizational Structure Perry Nuclear Power Plant Updated Final Safety Analysis Report Figure 13.1-3 DELETED Figure 13.1-4 DELETED Figure 13.1-5 DELETED Figure 13.1-6 DELETED Figure 13.2-1 DELETED Figure 13.5-1 Area Designated as At the Controls (Unit 1 shown- Unit 2 similar)

Chapter 14 Figure 14.2-1 DELETED Figure 14.2-2 Nuclear Test Section Organization Chart Figure 14.2-3 Perry Nuclear Power Plant Startup Test Organization Figure 14.2-4 Startup Test Condition Power/Flow Map Figure 14.2-5 Component, Preoperational/ Acceptance and Startup Test Phase Schedule Figure 14.2-6 DELETED Figure 14.2-7 RCIC Acceptance Criteria Curves For Capacity and Actuation Time Revision 22 59 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Chapter 15 Figure 15.0-1 Typical Design Power/Flow Map Standard Power/Flow Region Figure 15.0-2 Scram Reactivity Characteristics (REDY)

Figure 15.0-3 Scram Time Characteristics Figure 15.1-1 Loss of 100F Feedwater Heating, Automatic Flow Control Figure 15.1-2 Loss of 100F Feedwater Heating, Manual Flow Control Figure 15.1-3 Feedwater Controller Failure, Maximum Demand, With HWL Trips Figure 15.1-4 Pressure Regulator Failure - Open to 130%

Figure 15.1-5 High Thermal Power Scram Setpoint for Plant Operation up to 100% NBR Power Figure 15.2-1 Pressure Regulator Downscale Failure Figure 15.2-2 Generator Load Rejection Trip Scram, Bypass

- On Figure 15.2-3 Generator Load Rejection Trip Scram, Bypass

- Off Figure 15.2-4 Turbine Trip, Trip Scram, Bypass and RPT -

On Figure 15.2-5 Turbine Trip, Trip Scram, Bypass - Off, RPT

- On Figure 15.2-6a Three Second Closure of all Main Steam Line Isolation Valves With Position Switch Scram Trip Figure 15.2-6b Response to MSIV Closure With Flux Scram Figure 15.2-7 Loss of Condenser Vacuum at 2 Inches Per Second Figure 15.2-8 Loss of Auxiliary Power Transformer Figure 15.2-9 Loss of All Grid Connections Figure 15.2-10 Loss of All Feedwater Flow Figure 15.2-11 ADS/RHR Cooling Loops Figure 15.2-12 Summary of Paths Available to Achieve Cold Shutdown Figure 15.2-13 (1) DELETED Figure 15.2-13 (2) DELETED Figure 15.2-14 (1) RHR Loop C Figure 15.2-14 (2) LPCS Figure 15.2-15 (1) RHR Loop B (Suppression Pool Cooling Mode)

Figure 15.2-15 (2) RHR Loop A (Suppression Pool Cooling Mode)

Figure 15.2-16 DELETED Figure 15.2-17 Suppression Pool Temperature During Alternate Shutdown (at 3729 MWt)

Figure 15.2-17a Suppression Pool Temperature During Alternate Shutdown (at 3833 MWt)

Revision 22 60 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 15.3-1 Trip of One Recirculation Pump Motor Figure 15.3-2 Trip of Both Recirculation Pump Motors Figure 15.3-3 Fast Closure of One Main Recirculation Valve at 60% Per Second Figure 15.3-4 Fast Closure of Both Main Recirculation Valves at 11% Per Second Figure 15.3-5 Seizure of One Recirculation Pump Figure 15.4-1 Abnormal Startup of Idle Recirculation Loop Pump Figure 15.4-2 Fast Opening of One Main Recirculation Loop Valve at 30% Per Second Figure 15.4-3 Fast Opening of Both Main Recirculation Loop Valves at 11% Per Second Figure 15.4-4 Critical Rod Pattern for Misplaced Bundle Accident Figure 15.4-5 Leakage Path Model for Rod Drop Accident Figure 15.4-6 Rod Pattern for RWE Analysis 1/4 Core Geometry (Rated Power Case)

Figure 15.4-7 DELETED Figure 15.5-1 Inadvertent Startup of HPCS Figure 15.6-1 Steam Flow Schematic For Steam Break Outside Containment Figure 15.6-2 Air Leakage Flowpath Post-LOCA Figure 15.6-2A DELETED Figure 15.6-2B DELETED Figure 15.6-3 Leakage Path for Feedwater Line Break Outside Containment Figure 15A.2-1 Block Diagram Used to Derive Nuclear Safety Operational Requirement, System Level Qualitative Design Basis Confirmation Audits and Technical Specifications Figure 15A.2-2 Possible Inconsistencies in the Selection of Nuclear Safety Operational Requirements Figure 15A.4-1 Format for Protection Sequence Diagrams Figure 15A.4-2 Format for Safety System Auxiliary Diagrams Figure 15A.4-3 Format for Commonality of Auxiliary Diagrams Figure 15A.6-1 Safety System Auxiliaries Figure 15A.6-2 Safety System Auxiliaries Figure 15A.6-3 Safety Action Sequences for Normal Operation in State A.

Figure 15A.6-4 Safety Action Sequences for Normal Operation in State B.

Figure 15A.6-5 Safety Action Sequences for Normal Operation in State C.

Figure 15A.6-6 Safety Action Sequences for Normal Operation in State D.

Figure 15A.6-7 Protection Sequence for Manual or Inadvertent Scram Revision 22 61 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 15A.6-8 Protective Sequence for Loss of Plant Instrument or Service Air System Figure 15A.6-9 Protective Sequence for Inadvertent Startup of HPCS Pumps Figure 15A.6-10 Protective Sequence for Inadvertent Startup of Idle Recirculation Loop Pump Figure 15A.6-11 Protective Sequence for Recirculation Loop Flow Control Failure - Maximum Demand Figure 15A.6-12 Protective Sequences for Recirculation Loop Flow Control Failure - Decreasing Figure 15A.6-13 Recirculation Loop Pump Trip - one or both Figure 15A.6-14 (1) Protective Sequence for Isolation of All Main Steam Lines Figure 15A.6-14 (2) Protective Sequence for Isolation of One Main Steam Line Figure 15A.6-15 Protective Sequences for Inadvertent Opening of a Safety/ Relief Valve Figure 15A.6-16 Protective Sequence for Control Rod Withdrawal Error for Startup and Refueling Operations Figure 15A.6-17 Protective Sequence for Control Rod Withdrawal Error for Power Operation Figure 15A.6-18 Protective Sequence for RHRS - Loss of Shutdown Cooling Failure Figure 15A.6-19 RHRS - Shutdown Cooling Failure - Increased Cooling Figure 15A.6-20 Protective Sequence for Loss of Feedwater Flow Figure 15A.6-21 Protective Sequence for Loss of a Feedwater Heater Figure 15A.6-22 Protective Sequences for Feedwater Controller Failure - Maximum Demand Figure 15A.6-23 Protective Sequences for Pressure Regulator Failure - Open Figure 15A.6-24 Protective Sequences for Pressure Regulator Failure - Closed Figure 15A.6-25 Protective Sequences for Main Turbine Trip with Bypass Figure 15A.6-26 Protective Sequences for Loss of Main Condenser Vacuum Figure 15A.6-27 Protective Sequences for Main Generator Trip With Bypass Figure 15A.6-28 Protective Sequence for Auxiliary Transformer Failure Figure 15A.6-29 Protective Sequences for Loss of AC Power -

Grid Connection Loss Figure 15A.6-30 Proactive Sequences for Main Generator Trip

- With Bypass Failure Figure 15A.6-31 Protective Sequences for Turbine Trip - With Bypass Failure Figure 15A.6-32 Protective Sequence for Inadvertent Loading and Operation of Fuel Assembly in Improper Position Figure 15A.6-33 Protective Sequence for Recirculation Loop Pump Seizure Revision 22 62 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 15A.6-34 Protective Sequence for Recirculation Loop Pump Shaft Break Figure 15A.6-35 Protective Sequences for Control Rod Drop Accident Figure 15A.6-36 Protective Sequences for Fuel Handling Accident Outside Containment Figure 15A.6-37 Protective Sequences for Loss-of-Coolant Piping Breaks in RCPS - Inside Containment Figure 15A.6-38 Protective Sequences for Liquid, Steam, Large, Small Piping Breaks Outside Containment Figure 15A.6-39 Protective Sequences for Gaseous Radwaste System Leak or Failure Figure 15A.6-40 Protective Sequences Augmented Offgas Treatment System Failure Figure 15A.6-41 Protective Sequences Augmented Liquid Radwaste System Failures Figure 15A.6-42 Protective Sequence for Liquid Radwaste System Storage Tank Failures Figure 15A.6-43 Protective Sequences for Fuel Handling Accident Inside Containment Figure 15A.6-44 Protective Sequence for Reactor Shutdown From Anticipated Transient Without Scram Figure 15A.6-45 Protective Sequences for Reactor Shutdown -

From Outside Main Control Room Figure 15A.6-46 Protective Sequence for Reactor Shutdown -

Without Control Rods Figure 15A.6-47 Commonality of Auxiliary Systems - DC Power Systems (125 Volts)

Figure 15A.6-48 Commonality of Standby AC Power Systems (120/480/4160 Volts)

Figure 15A.6-49 Commonality of Auxiliary Systems - Equipment Area Cooling Systems Figure 15A.6-50 Commonality of Auxiliary Systems - Plant Service Water System Figure 15A.6-51 Commonality of Auxiliary Systems -

Suppression Pool Storage Figure 15C-1 DELETED Figure 15C-2 DELETED Figure 15C-3 DELETED Figure 15C-4 DELETED Figure 15C-5 DELETED Figure 15D-1 (1) Generator Load Rejection with Bypass Failure 3729 MWt Core Power 100% Flow 370F Rated FWT Figure 15D-1 (2) Generator Load Rejection with Bypass Failure 3729 MWt Core Power 100% Flow 370F Rated FWT Figure 15D-2 (1) Generator Load Rejection with Bypass Failure 3729 MWt Core Power 100% Flow 320F Rated FWT Figure 15D-2 (2) Generator Load Rejection with Bypass Failure 3729 MWt Core Power 100% Flow 320F Rated FWT Figure 15D-3a Generator Load Rejection with Bypass Failure 3729 MWt Core Power 100% Flow 250F Rated FWT Revision 22 63 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 15D-3b Generator Load Rejection with Bypass Failure for Power Uprate 100% Power, 105% Flow, 255.5F FWT Figure 15D-4 (1) Feedwater Controller Failure 3729 MWt Core Power 100% Flow 370F Rated FWT Figure 15D-4 (2) Feedwater Controller Failure 3729 MWt Core Power 100% Flow 370F Rated FWT Figure 15D-5 (1) Feedwater Controller Failure3729 MWt Core Power 100% Flow 320F Rated FWT Figure 15D-5 (2) Feedwater Controller Failure 3729 MWt Core Power 100% Flow 320F Rated FWT Figure 15D-6a (1) Feedwater Controller Failure 3729 MWt Core Power 100% Flow 250F Rated FWT Figure 15D-6a (2) Feedwater Controller Failure 3729 MWt Core Power 100% Flow 250F Rated FWT Figure 15D-6a (3) Feedwater Controller Failure 3729 MWt Core Power 100% Flow 250F Rated FWT Figure 15D-6a (4) Feedwater Controller Failure 3729 MWt Core Power 100% Flow 250F Rated FWT Figure 15D-6b Feedwater Controller Failure for Power Uprate, 100% Power, 105% Flow, 255.5F Rated FWT Figure 15E.2-1 Maximum Extended Operating Domain Power/Flow Map Figure 15E.3-1 (1) Generator Load Rejection W/O Bypass 3729 MWt Core Power 105% Core Flow Figure 15E.3-1 (2) Generator Load Rejection W/O Bypass 3729 MWt Core Power 105% Core Flow Figure 15E.3-2 (1) Generator Load Rejection W/O Bypass 3729 MWt Core Power 73.6% Flow Figure 15E.3-2 (2) Generator Load Rejection W/O Bypass 3729 MWt Core Power 73.6% Flow Figure 15E.3-3 (1) Feedwater Controller Failure 3729 MWt Core Power 105% Flow Figure 15E.3-3 (2) Feedwater Controller Failure 3729 MWt Core Power 105% Flow Figure 15E.3-4 (1) Feedwater Controller Failure 3729 MWt Core Power 73.6% Flow Figure 15E.3-4 (2) Feedwater Controller Failure 3729 MWt Core Power 73.6% Flow Figure 15E.5-1 DELETED Figure 15E.5-2 DELETED Figure 15E.11-1 (1) Generator Load Rejection W/O Bypass 104.2%

Power 105% Flow 250F FWT Figure 15E.11-1 (2) Generator Load Rejection W/O Bypass 104.2%

Power 105% Flow 250F FWT Figure 15E.11-2 (1) Feedwater Controller Failure 104.2% Power 105% Flow 250F FWT Figure 15E.11-2 (2) Feedwater Controller Failure 104.2% Power 105% Flow 250F FWT Figure 15E.11-3 (1) Generator Load Rejection W/O Bypass 104.2%

Power 108.7% Flow 370F FWT Revision 22 64 of 65 October, 2021

FIGURE LIST FOR ALL CHAPTERS Figure Drawing # Title of Figure Figure 15E.11-3 (2) Generator Load Rejection W/O Bypass 104.2%

Power 108.7% Flow 370F FWT Figure 15E.11-4 (1) Generator Load Rejection W/O Bypass 104.2%

Power 110% Flow 320F FWT Figure 15E.11-4 (2) Generator Load Rejection W/O Bypass 104.2%

Power 110% Flow 320F FWT Figure 15E.11-5 (1) Feedwater Controller Failure 104.2% Power 108% Flow 370F FWT Figure 15E.11-5 (2) Feedwater Controller Failure 104.2% Power 108% Flow 370F FWT Figure 15E.11-6 (1) Feedwater Controller Failure 104.2% Power 110% Flow 320F FWT Figure 15E.11-6 (2) Feedwater Controller Failure 104.2% Power 110% Flow 320F FWT Figure 15E.11-7 (1) Generator Load Rejection W/O Bypass 104.2%

Power 74.8% Flow 370F FWT Figure 15E.11-7 (2) Generator Load Rejection W/O Bypass 104.2%

Power 74.8% Flow 370F FWT Figure 15E.11-8 (1) Generator Load Rejection W/O Bypass 104.2%

Power 73.7% Flow 320F FWT Figure 15E.11-8 (2) Generator Load Rejection W/O Bypass 104.2%

Power 73.7% Flow 320F FWT Figure 15E.11-9 (1) Feedwater Controller Failure 104.2% Power 74.8% Flow 370F FWT Figure 15E.11-9 (2) Feedwater Controller Failure 104.2% Power 74.8% Flow 370F FWT Figure 15E.11-10 (1) Feedwater Controller Failure 104.2% Power 73.7% Flow 320F FWT Figure 15E.11-10 (2) Feedwater Controller Failure 104.2% Power 73.7% Flow 320F FWT Figure 15F.2-1 Illustration of Single Recirculation Loop Operation Flows Figure 15F.3-1 Peak Dome Pressure Versus Initial Power Level, Turbine Trip at EOEC Figure 15F.3-2 (1) Feedwater Controller Failure - Maximum Demand Single Loop Operations Figure 15F.3-2 (2) Feedwater Controller Failure - Maximum Demand Single Loop Operations Figure 15F.3-3 (1) Generator Load Rejection, W/O Bypass Single Loop Operation Figure 15F.3-3 (2) Generator Load Rejection, W/O Bypass Single Loop Operation Figure 15F.5-1 DELETED Chapter 17 Figure 17.2-1 DELETED Figure 17.2-2 DELETED Revision 22 65 of 65 October, 2021