Updated Final Safety Analysis Report (Ufsar), Amendment 27, 3 Table of Contents

ML18022A169
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Site:	Browns Ferry
Issue date:	10/05/2017
From:	Tennessee Valley Authority
To:	Office of Nuclear Reactor Regulation
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BFN-26 3.0-i REACTOR TABLE OF CONTENTS 3.0 REACTOR................................................................................................................................. 3.1-1 3.1 Summary Description................................................................................................................ 3.1-1 3.2 Fuel Mechanical Design............................................................................................................ 3.2-1 3.2.1 Power Generation Objective...................................................................................... 3.2-1 3.2.2 Power Generation Design Basis................................................................................ 3.2-2 3.2.3 Safety Design Basis................................................................................................... 3.2-2 3.2.4 Description................................................................................................................. 3.2-3 3.2.5 Safety Evaluation....................................................................................................... 3.2-5 3.2.6 Inspection and Testing............................................................................................... 3.2-7 3.2.7 References................................................................................................................. 3.2-8 3.3 Reactor Vessel Internals Mechanical Design............................................................................ 3.3-1 3.3.1 Power Generation Objective...................................................................................... 3.3-1 3.3.2 Power Generation Design Basis................................................................................ 3.3-1 3.3.3 Safety Design Basis................................................................................................... 3.3-1 3.3.4 Description................................................................................................................. 3.3-2 3.3.5 Safety Evaluation....................................................................................................... 3.3-8 3.3.6 Inspection and Testing............................................................................................... 3.3-17 3.4 Reactivity Control Mechanical Design....................................................................................... 3.4-1 3.4.1 Safety Objective......................................................................................................... 3.4-1 3.4.2 Power Generation Objective...................................................................................... 3.4-1 3.4.3 Safety Design Basis................................................................................................... 3.4-1 3.4.4 Power Generation Design Basis................................................................................ 3.4-2 3.4.5 Description................................................................................................................. 3.4-2 3.4.6 Safety Evaluation....................................................................................................... 3.4-22 3.4.7 Inspection and Testing............................................................................................... 3.4-31 3.5 Control Rod Drive Housing Supports........................................................................................ 3.5-1 3.5.1 Safety Objective......................................................................................................... 3.5-1 3.5.2 Safety Design Basis................................................................................................... 3.5.1 3.5.3 Description................................................................................................................. 3.5-1 3.5.4 Safety Evaluation....................................................................................................... 3.5-3 3.5.5 Inspection and Testing............................................................................................... 3.5-3 3.6 Nuclear Design.......................................................................................................................... 3.6-1 3.6.1 Power Generation Objective...................................................................................... 3.6-1 3.6.2 Power Generation Design Basis................................................................................ 3.6-1 3.6.3 Safety Design Basis................................................................................................... 3.6-1 3.6.4 Description................................................................................................................. 3.6-2 3.6.5 Analytical Methods..................................................................................................... 3.6-7

BFN-26 3.0-ii REACTOR TABLE OF CONTENTS (Cont'd) 3.6.6 Reactivity of Fuel in Storage...................................................................................... 3.6-7 3.6.7 References................................................................................................................. 3.6-8 3.7 Thermal and Hydraulic Design.................................................................................................. 3.7-1 3.7.1 Power Generation Objective...................................................................................... 3.7-1 3.7.2 Power Generation Design Basis................................................................................ 3.7-1 3.7.3 Safety Design Basis................................................................................................... 3.7-1 3.7.4 Thermal and Hydraulic Limits..................................................................................... 3.7-1 3.7.5 Description of Thermal-Hydraulic Design of the Reactor Core................................... 3.7-2 3.7.6 Description of the Thermal-Hydraulic Design of the Reactor Coolant System........... 3.7-8 3.7.7 Evaluation.................................................................................................................. 3.7-12 3.7.8 References................................................................................................................. 3.7-25 3.8 Standby Liquid Control System................................................................................................. 3.8-1 3.8.1 Safety Objective......................................................................................................... 3.8-1 3.8.2 Safety Design Basis................................................................................................... 3.8-1 3.8.3 Description (Figures 3.8-1, 3.8-2, 3.8-3, 3.8-5, 3.8-6, and 3.8-8................................ 3.8-2 3.8.4 Safety Evaluation....................................................................................................... 3.8-5 3.8.5 Inspection and Testing............................................................................................... 3.8-9

BFN-26 3.0-iii REACTOR LIST OF TABLES Table Title 3.2-1 (Deleted) 3.2-2 (Deleted) 3.2-3 (Deleted 3.2-4 (Deleted) 3.2-5 (Deleted) 3.3-1 Reactor Vessel Internals, Design Data 3.6-1 Definition of Fuel Design Limits

BFN-26 3.0-iv REACTOR LIST OF FIGURES Figure Title 3.2-1 (Deleted) 3.3-1 Reactor Vessel Internals 3.3-2 Reactor Vessel Internal Flow-Schematic 3.3-3 Steam Separator 3.3-4 Fuel Support Pieces 3.3-5 Jet Pump 3.3-6 Steam Dryer 3.3-7 Reactor Internal Pressure Difference (RIPD) Locations 3.3-8 (Deleted) 3.3-9 Thermal Shock Transient Analysis Zones 3.3-10 Material Behavior Graph-Cycles vs. Stress for Stainless Steel 3.3-11 (Deleted) 3.4-1 Control Rod-Isometric 3.4-2 Control Rod-Isometric 3.4-3 Control Rod to Control Rod Drive Coupling-Isometric 3.4-4 Control Rod Velocity Limiter-Isometric 3.4-5 Control Rod Drive, Simplified Component Illustration 3.4-6 Control Rod Drive, Schematic Diagram 3.4-7 Control Rod Drive Hydraulic Control System, Simplified Component Illustration 3.4-8a sht 1 CRD Hydraulic System - Mechanical Control Diagram 3.4-8a sht 2 Control Rod Drive Hydraulic System - Mechanical Control Diagram 3.4-8a sht 3 Control Rod Drive Hydraulic System - Mechanical Control Diagram 3.4-8a sht 4 Control Rod Drive Hydraulic System - Mechanical Control Diagram 3.4-8a sht 5 Control Rod Drive Hydraulic System - Mechanical Control Diagram 3.4-8b Control Rod Hydraulic System - Flow Diagram 3.4-8c Control Rod Hydraulic System - Flow Diagram 3.4-8d CRD Hydraulic System - Mechanical Control Diagram 3.4-8e Control Rod Drive Hydraulic System - Flow Diagram 3.4-8f Control Rod Drive Hydraulic System - Mechanical Control Diagram 3.4-8g CRD Hydraulic System - Mechanical Control Diagram 3.4-8h CRD Hydraulic System - Mechanical Control Diagram 3.4-9 Control Rod Unit Drive-Cutaway Illustration 3.4-9a Modified Control Rod Drive (BWR/6) 3.4-10 (Deleted) 3.4-11 (Deleted) 3.4-12 Marathon Control Rod - Isometric 3.4-13 Westinghouse CR-82M-1 Control Rod 3.5-1 Control Rod Drive Housing Support-Isometric 3.6-1 (Deleted) 3.6-2 (Deleted) 3.6-3 (Deleted) 3.6-4 (Deleted)

BFN-26 3.0-v REACTOR LIST OF FIGURES (Cont'd)

Figure Title 3.6-5 (Deleted) 3.6-6 (Deleted) 3.6-7 (Deleted) 3.6-8 (Deleted) 3.6-9 (Deleted) 3.6-10 (Deleted) 3.6-11 (Deleted) 3.6-12 (Deleted) 3.6-13 (Deleted) 3.7-1 Operating Map, Unit 1 3.7-2 Operating Map, Unit 2 3.7-3 Operating Map, Unit 3 3.8-1 Standby Liquid Control System Flow Diagram 3.8-2 Standby Liquid Control System Mechanical Control Diagram 3.8-3 Standby Liquid Control System - Flow Diagram 3.8-4 (Deleted) 3.8-5 Standby Liquid Control System - Flow Diagram 3.8-6 Standby Liquid Control System - Mechanical Control Diagram 3.8-7 (Deleted) 3.8-8 Standby Liquid Control System - Mechanical Control Diagram