ML042290171
ML042290171 | |
Person / Time | |
---|---|
Site: | Robinson, 07200003 |
Issue date: | 08/10/2004 |
From: | Progress Energy Carolinas |
To: | Office of Nuclear Material Safety and Safeguards, Office of Nuclear Reactor Regulation |
References | |
-RFPFR | |
Download: ML042290171 (16) | |
Text
H. B. ROBINSON INDEPENDENT SPENT FUEL STORAGE INSTALLATION SAFETY ANALYSIS REPORT TABLE OF CONTENTS SECTION TITLE PAGE
1.0 INTRODUCTION
AND GENERAL DESCRIPTION OF INSTALLATION 1.1-1
1.1 INTRODUCTION
1.1-1 1.2 GENERAL DESCRIPTION OF INSTALLATION 1.2-1 1.2.1 GENERAL DESCRIPTION 1.2-1 1.2.2 PRINCIPAL SITE CHARACTERISTICS 1.2-1 1.2.3 PRINCIPAL DESIGN CRITERIA 1.2-1 1.2.3.1 Structural Features 1.2-1 1.2.3.2 Decay Heat Dissipation 1.2-2 1.2.4 OPERATING AND FUEL HANDLING SYSTEMS 1.2-2 1.2.5 SAFETY FEATURES 1.2-2 1.2.6 RADIOACTIVE WASTE AND AUXILIARY SYSTEMS 1.2-3 1.3 GENERAL SYSTEMS DESCRIPTIONS 1.3-1 1.3.1 SYSTEMS DESCRIPTIONS 1.3-1 1.3.1.1 Canister Design 1.3-1 1.3.1.2 Horizontal Storage Module 1.3-1 1.3.1.3 Transfer Cask 1.3-1 1.3.1.4 Transporter 1.3-1 1.3.1.5 Skid 1.3-2 1.3.1.6 Horizontal Hydraulic Ram 1.3-2 1.3.1.7 System Operation 1.3-2 1.4 IDENTIFICATION OF AGENTS AND CONTRACTORS 1.4-1 1.5 MATERIAL INCORPORATED BY REFERENCE 1.5-1 i Revision No. 19
H. B. ROBINSON INDEPENDENT SPENT FUEL STORAGE INSTALLATION SAFETY ANALYSIS REPORT TABLE OF CONTENTS (Cont=d)
SECTION TITLE PAGE 2.0 SITE CHARACTERISTICS 2.1-1 2.1 GEOGRAPHY AND DEMOGRAPHY 2.1-1 2.1.1 SITE LOCATION 2.1-1 2.1.2 SITE DESCRIPTION 2.1-1 2.1.2.1 Other Activities Within the Site Boundary 2.1-1 2.1.2.2 Boundaries for Establishing Effluent Release Limits 2.1-2 2.1.3 POPULATION DISTRIBUTION AND TRENDS 2.1-2 2.1.3.1 Population Within 10 Miles 2.1-2 2.1.3.2 Population Between 10 and 50 Miles 2.1-2 2.1.3.3 Transient Population 2.1-2 2.1.4 USES OF NEARBY LAND AND WATERS 2.1-2 2.2 NEARBY INDUSTRIAL, TRANSPORTATION, AND MILITARY FACILITIES 2.2-1 2.3 METEOROLOGY 2.3-1 2.4 SURFACE HYDROLOGY 2.4-1 2.4.1 FLOODS 2.4-1 2.4.2 POTENTIAL DAM FAILURES 2.4-1 2.4.3 PROBABLE MAXIMUM SURGE AND SEICHE FLOODING 2.4-1 2.4.4 PROBABLE MAXIMUM TSUNAMI FLOODING 2.4-1 2.4.5 ICE FLOODING 2.4-1 2.4.6 FLOODING PROTECTION REQUIREMENTS 2.4-1 2.4.7 ENVIRONMENTAL ACCEPTANCE OF EFFLUENTS 2.4-1 2.5 SUBSURFACE HYDROLOGY 2.5-1 ii Revision No. 19
H. B. ROBINSON INDEPENDENT SPENT FUEL STORAGE INSTALLATION SAFETY ANALYSIS REPORT TABLE OF CONTENTS (Cont=d)
SECTION TITLE PAGE 2.6 GEOLOGY AND SEISMOLOGY 2.6-1 2.6.1 ISFSI FOUNDATION 2.6-1 2.6.2 SLOPE STABILITY 2.6-1 2.7
SUMMARY
OF SITE CONDITIONS AFFECTING CONSTRUCTION AND OPERATING REQUIREMENTS 2.7-1 3.0 PRINCIPAL DESIGN CRITERIA 3.1-1 3.1 PURPOSE OF THE INSTALLATION 3.1-1 3.1.1 MATERIAL TO BE STORED 3.1-1 3.1.1.1 Physical Characteristics 3.1-1 3.1.1.2 Thermal Characteristics 3.1-1 3.1.1.3 Radiological Characteristics 3.1-1 3.1.2 GENERAL OPERATING FUNCTIONS 3.1-2 3.1.2.1 Overall Functions of the Facility 3.1-2 3.1.2.2 Handling and Transfer Equipment 3.1-3 3.2 STRUCTURAL AND MECHANICAL SAFETY CRITERIA 3.2-1 3.2.1 TORNADO AND WIND LOADINGS 3.2-2 3.2.1.1 Applicable Design Parameters 3.2-2 3.2.1.2 Determination of Forces on the Structures 3.2-2 3.2.1.3 Ability of Structures to Perform 3.2-2 3.2.2 WATER LEVEL (FLOOD) DESIGN 3.2-2 3.2.3 SEISMIC DESIGN 3.2-3 iii Revision No. 19
H. B. ROBINSON INDEPENDENT SPENT FUEL STORAGE INSTALLATION SAFETY ANALYSIS REPORT TABLE OF CONTENTS (Cont=d)
SECTION TITLE PAGE 3.2.3.1 Input Criteria 3.2-3 3.2.3.2 Seismic-System Analysis 3.2-3 3.2.4 SNOW AND ICE LOADS 3.2-3 3.2.5 COMBINED LOAD CRITERIA 3.2-3 3.3 SAFETY PROTECTION SYSTEM 3.3-1 3.3.1 GENERAL 3.3-1 3.3.2 PROTECTION BY MULTIPLE CONFINEMENT BARRIERS AND SYSTEMS 3.3-1 3.3.2.1 Confinement Barriers and Systems 3.3-1 3.3.2.2 Ventilation - Offgas 3.3-1 3.3.3 PROTECTION BY EQUIPMENT AND INSTRUMENTATION SELECTION 3.3-2 3.3.3.1 Equipment 3.3-2 3.3.3.2 Instrumentation 3.3-2 3.3.4 NUCLEAR CRITICALITY SAFETY 3.3-2 3.3.5 RADIOLOGICAL PROTECTION 3.3-3 3.3.5.1 Access Control 3.3-3 3.3.5.2 Shielding 3.3-3 3.3.5.3 Radiological Alarm System 3.3-3 3.3.6 FIRE AND EXPLOSIVE PROTECTION 3.3-3 3.3.6.1 Fire Protection 3.3-3 3.3.6.2 Explosive Protection 3.3-3 3.3.7 MATERIALS HANDLING AND STORAGE 3.3-4 3.3.7.1 Irradiated Fuel Handling and Storage 3.3-4 3.3.7.2 Radioactive Waste Treatment 3.3-4 iv Revision No. 19
H. B. ROBINSON INDEPENDENT SPENT FUEL STORAGE INSTALLATION SAFETY ANALYSIS REPORT TABLE OF CONTENTS (Cont=d)
SECTION TITLE PAGE 3.3.7.3 Waste Storage Facilities 3.3-4 3.3.8 INDUSTRIAL AND CHEMICAL SAFETY 3.3-4 3.4 CLASSIFICATION OF STRUCTURES, COMPONENTS, AND SYSTEMS 3.4-1 3.5 DECOMMISSIONING CONSIDERATIONS 3.5-1 4.0 INSTALLATION DESIGN 4.1-1 4.1
SUMMARY
DESCRIPTION 4.1-1 4.1.1 LOCATION AND LAYOUT OF INSTALLATION 4.1-1 4.1.2 PRINCIPLE FEATURES 4.1-1 4.1.2.1 Site Boundary 4.1-1 4.1.2.2 Controlled Area 4.1-1 4.1.2.3 Emergency Planning Zone 4.1-1 4.1.2.4 Site Utility Supplies and Systems 4.1-1 4.1.2.5 Storage Facilities 4.1-1 4.1.2.6 Stack 4.1-1 4.2 STORAGE STRUCTURES 4.2-1 4.2.1 STRUCTURAL SPECIFICATIONS 4.2-1 4.2.1.1 Design Basis 4.2-1 4.2.1.2 Construction, Fabrication, and Inspection 4.2-1 4.2.2 INSTALLATION LAYOUT 4.2-1 4.2.2.1 Building Plans 4.2-1 4.2.2.2 Confinement Features 4.2-2 4.2.3 INDIVIDUAL UNIT DESCRIPTION 4.2-2 v Revision No. 19
H. B. ROBINSON INDEPENDENT SPENT FUEL STORAGE INSTALLATION SAFETY ANALYSIS REPORT TABLE OF CONTENTS (Cont=d)
SECTION TITLE PAGE 4.3 AUXILIARY SYSTEMS 4.3-1 4.3.1 VENTILATION AND OFFGAS SYSTEM 4.3-1 4.3.1.1 Ventilation System 4.3-1 4.3.1.2 Offgas System 4.3-1 4.3.2 ELECTRICAL SYSTEM 4.3-1 4.3.3 AIR SUPPLY SYSTEM 4.3-1 4.3.3.1 Compressed Air 4.3-1 4.3.3.2 Breathing Air 4.3-1 4.3.4 STEAM SUPPLY AND DISTRIBUTION SYSTEM 4.3-2 4.3.5 WATER SUPPLY SYSTEM 4.3-2 4.3.5.1 Major Components and Operating Characteristics 4.3-2 4.3.5.2 Safety Consideration and Controls 4.3-2 4.3.6 SEWAGE TREATMENT SYSTEM 4.3-2 4.3.6.1 Sanitary Sewage 4.3-2 4.3.6.2 Chemical Sewage 4.3-2 4.3.7 COMMUNICATIONS AND ALARM SYSTEM 4.3-2 4.3.8 FIRE PROTECTION SYSTEM 4.3-2 4.3.9 MAINTENANCE SYSTEMS 4.3-3 4.3.10 COLD CHEMICAL SYSTEMS 4.3-3 4.3.11 AIR SAMPLING SYSTEM 4.3-3 4.4 DECONTAMINATION SYSTEMS 4.4-1 4.5 SHIPPING CASK REPAIR AND MAINTENANCE 4.5-1 4.6 CATHODIC PROTECTION 4.6-1 vi Revision No. 19
H. B. ROBINSON INDEPENDENT SPENT FUEL STORAGE INSTALLATION SAFETY ANALYSIS REPORT TABLE OF CONTENTS (Cont=d)
SECTION TITLE PAGE 4.7 FUEL HANDLING OPERATION SYSTEM 4.7-1 4.7.1 STRUCTURAL SPECIFICATIONS 4.7-1 4.7.2 INSTALLATION LAYOUT 4.7-1 4.7.2.1 Building Plans 4.7-1 4.7.2.2 Confinement Features 4.7-1 4.7.3 INDIVIDUAL UNIT DESCRIPTION 4.7-1 4.7.3.1 Shipping Cask Preparation 4.7-1 4.7.3.2 Spent Fuel Loading 4.7-2 4.7.3.3 DSC Drying, Backfilling, and Sealing 4.7-2 5.0 OPERATION SYSTEMS 5.1-1 5.1 OPERATION DESCRIPTION 5.1-1 5.1.1 NARRATIVE DESCRIPTION 5.1-1 5.1.1.1 Preparation of the Transfer Cask and Canister 5.1-1 5.1.1.2 Fuel Loading 5.1-1 5.1.1.3 Cask Drying Process 5.1-2 5.1.1.4 DSC Sealing Operations 5.1-2 5.1.1.5 Transport of the Cask to the Horizontal Storage Module (HSM) 5.1-3 5.1.1.6 Loading of the Canister into the HSM 5.1-3 5.1.1.7 Monitoring Operations 5.1-4 5.1.1.8 Unloading the DSC from the HSM 5.1-4 5.1.2 FLOW SHEET 5.1-5 5.1.3 IDENTIFICATION OF SUBJECTS FOR SAFETY ANALYSIS 5.1-5 vii Revision No. 19
H. B. ROBINSON INDEPENDENT SPENT FUEL STORAGE INSTALLATION SAFETY ANALYSIS REPORT TABLE OF CONTENTS (Cont=d)
SECTION TITLE PAGE 5.1.3.1 Criticality Prevention 5.1-5 5.1.3.2 Chemical Safety 5.1-5 5.1.3.3 Operation Shutdown Modes 5.1-5 5.1.3.4 Instrumentation 5.1-5 5.1.3.5 Maintenance Techniques 5.1-5 5.2 FUEL HANDLING SYSTEMS 5.2-1 5.2.1 SPENT FUEL HANDLING AND TRANSFER 5.2-1 5.2.1.1 Functional Description 5.2-1 5.2.1.2 Safety Features 5.2-2 5.2.2 SPENT FUEL STORAGE 5.2-3 5.2.2.1 Safety Features 5.2-3 5.3 OTHER OPERATING SYSTEM 5.3-1 5.3.1 OPERATING SYSTEM 5.3-1 5.3.2 COMPONENTS/EQUIPMENT SPARES 5.3-1 5.4 OPERATION SUPPORT SYSTEM 5.4-1 5.5 CONTROL ROOM AND/OR CONTROL AREAS 5.5-1 5.6 ANALYTICAL SAMPLING 5.6-1 6.0 WASTE CONFINEMENT AND MANAGEMENT 6.1-1 6.1 WASTE SOURCES 6.1-1 6.2 OFFGAS TREATMENT AND VENTILATION 6.2-1 6.3 LIQUID WASTE TREATMENT AND RETENTION 6.3-1 6.4 SOLID WASTES 6.4-1 6.5 RADIOLOGICAL IMPACT OF NORMAL OPERATIONS-
SUMMARY
6.5-1 viii Revision No. 19
H. B. ROBINSON INDEPENDENT SPENT FUEL STORAGE INSTALLATION SAFETY ANALYSIS REPORT TABLE OF CONTENTS (Cont=d)
SECTION TITLE PAGE 7.0 RADIATION PROTECTION 7.1-1 7.1 ENSURING THAT OCCUPATIONAL RADIATION EXPOSURES ARE ALARA 7.1-1 7.1.1 POLICY CONSIDERATIONS 7.1-1 7.1.2 DESIGN CONSIDERATION 7.1-1 7.1.3 OPERATIONAL CONSIDERATION 7.1-2 7.2 RADIATION PROTECTION 7.2-1 7.2.1 CHARACTERIZATION OF SOURCES 7.2-1 7.2.2 AIRBORNE SOURCES 7.2-1 7.3 RADIATION PROTECTION DESIGN FEATURES 7.3-1 7.3.1 INSTALLATION DESIGN FEATURES 7.3-1 7.3.2 SHIELDING 7.3-1 7.3.2.1 Radiation Shielding Design Features 7.3-1 7.3.2.2 Shielding Analysis 7.3-1 7.3.3 VENTILATION 7.3-4 7.3.4 RADIATION MONITORING INSTRUMENTATION 7.3-4 7.4 ESTIMATED ONSITE COLLECTIVE DOSE ASSESSMENT 7.4-1 7.4.1 OPERATIONAL DOSE ASSESSMENT 7.4-1 7.4.2 STORAGE TERM DOSE ASSESSMENT 7.4-1 7.5 HEALTH PHYSICS PROGRAM 7.5-1 7.5.1 ORGANIZATION 7.5-1 7.5.2 EQUIPMENT, INSTRUMENTATION, AND FACILITIES 7.5-1 7.5.3 PROCEDURES 7.5-1 7.6 ESTIMATED OFFSITE COLLECTIVE DOSE ASSESSMENT 7.6-1 7.6.1 EFFLUENT AND ENVIRONMENTAL MONITORING PROGRAM 7.6-1 ix Revision No. 19
H. B. ROBINSON INDEPENDENT SPENT FUEL STORAGE INSTALLATION SAFETY ANALYSIS REPORT TABLE OF CONTENTS (Cont=d)
SECTION TITLE PAGE 7.6.2 ANALYSIS OF MULTIPLE CONTRIBUTION 7.6-1 7.6.3 ESTIMATED DOSE EQUIVALENTS 7.6-1 8.0 ANALYSIS OF DESIGN EVENTS 8.0-1 8.1 NORMAL AND OFF-NORMAL OPERATIONS 8.1-1 8.1.1 NORMAL OPERATION ANALYSIS 8.1-1 8.1.2 OFF-NORMAL OPERATION ANALYSIS 8.1-3 8.1.2.1 Transport 8.1-3 8.1.2.2 Air Flow Blockage 8.1-4 8.1.3 RADIOLOGICAL IMPACT FROM OFF-NORMAL OPERATIONS 8.1-4 8.2 ACCIDENT ANALYSIS 8.2-1 8.2.1 LOSS OF AIR OUTLET SHIELDING 8.2-1 8.2.2 TORNADO/TORNADO GENERATED MISSILE 8.2-1 8.2.3 EARTHQUAKE 8.2-2 8.2.3.1 Accident Analysis 8.2-2 8.2.3.2 Accident Dose Calculation 8.2-3 8.2.4 DROP ACCIDENT 8.2-3 8.2.4.1 Postulated Cause of Events 8.2-3 8.2.4.2 Drop Accident Analysis 8.2-4 8.2.5 LIGHTNING 8.2-7 8.2.5.1 Postulated Cause of Events 8.2-7 8.2.5.2 Analysis of Effects and Consequences 8.2-7 8.2.6 BLOCKAGE OF AIR INLETS AND OUTLETS 8.2-8 8.2.7 ACCIDENT PRESSURIZATION OF DSC 8.2-8 x Revision No. 19
H. B. ROBINSON INDEPENDENT SPENT FUEL STORAGE INSTALLATION SAFETY ANALYSIS REPORT TABLE OF CONTENTS (Cont=d)
SECTION TITLE PAGE 8.2.8 FIRE 8.2-8 8.2.9 DRY STORAGE CANISTER LEAKAGE 8.2-9 8.2.10 LOAD COMBINATION 8.2-9 8.3 FOUNDATION DESIGN 8.3-1 8.4 DSC INSTRUMENTATION PENETRATION DESIGN 8.4-1 8.5 TRAIN DERAILMENT 8.5-1 9.0 CONDUCT OF OPERATIONS 9.1-1 9.1 ORGANIZATIONAL STRUCTURE 9.1-1 9.1.1 CORPORATE ORGANIZATION 9.1-1 9.1.1.1 Corporate Functions, Responsibilities, and Authorities 9.1-1 9.1.1.2 Applicants In-House Organization 9.1-1 9.1.1.3 Interrelationships with Contractors and Suppliers 9.1-1 9.1.1.4 Applicants Technical Staff 9.1-2 9.1.2 OPERATING ORGANIZATION, MANAGEMENT, AND ADMINISTRATIVE CONTROLS SYSTEM 9.1-2 9.1.2.1 Onsite Organization 9.1-2 9.1.3 PERSONNEL QUALIFICATION REQUIREMENTS 9.1-2 9.1.3.1 Minimum Qualification Requirements 9.1-2 9.1.4 LIAISON WITH OUTSIDE ORGANIZATIONS 9.1-2 9.2 PRE-OPERATIONAL TESTING AND OPERATION 9.2-1 9.2.1 ADMINISTRATIVE PROCEDURES FOR CONDUCTING TEST PROGRAM 9.2-1 9.2.2 CP&L TEST PROGRAM DESCRIPTION 9.2-1 9.2.3 TEST DISCUSSION 9.2-1 xi Revision No. 19
H. B. ROBINSON INDEPENDENT SPENT FUEL STORAGE INSTALLATION SAFETY ANALYSIS REPORT TABLE OF CONTENTS (Cont=d)
SECTION TITLE PAGE 9.2.3.1 Physical Facilities Testing (Thermal Testing of HSM and DSC) 9.2-1 9.2.3.2 Operations Testing (Handling Rests) 9.2-2 9.3 TRAINING PROGRAM 9.3-1 9.3.1 PLANT STAFF TRAINING PROGRAM 9.3-1 9.3.2 REPLACEMENT AND RETAINING PROGRAM 9.3-1 9.4 NORMAL OPERATIONS 9.4-1 9.4.1 PROCEDURES 9.4-1 9.4.2 RECORDS 9.4-1 9.5 EMERGENCY PLANNING 9.5-1 9.6 DECOMMISSIONING PLAN 9.6-1 10.0 OPERATING CONTROLS AND LIMITS 10.0-1 10.1 FUEL SPECIFICATIONS 10.1-1 10.2 LIMITS FOR THE SURFACE DOSE RATE OF THE HSM WHILE THE DSC IS IN STORAGE 10.2-1 10.3 LIMITS FOR THE MAXIMUM AIR TEMPERATURE RISE AFTER STORAGE 10.3-1 10.4 SURVEILLANCE OF THE HSM AIR INLETS 10.4-1 11.0 QUALITY ASSURANCE 11.0-1 11.1 CORPORATE QUALITY ASSURANCE 11.1-1 11.2 H. B. ROBINSON QUALITY ASSURANCE PROGRAM 11.2-1 11.3 NUTECH QUALITY ASSURANCE 11.3-1 xii Revision No. 19
H. B. ROBINSON INDEPENDENT SPENT FUEL STORAGE INSTALLATION SAFETY ANALYSIS REPORT LIST OF TABLES TABLE TITLE PAGE 1.1-1 ACRONYMS 1.1-3 1.1-2 ABBREVIATIONS 1.1-5 1.2-1 DESIGN PARAMETERS FOR THE HBR ISFSI 1.2-4 1.2-2
SUMMARY
OF ISFSI FUEL HANDLING OPERATIONS 1.2-5 1.2-3 PRIMARY DESIGN PARAMETERS FOR THE ISFSI OPERATING SYSTEMS 1.2-6 1.3-1 MAJOR SYSTEMS, SUBSYSTEMS, AND COMPONENTS OF THE H. B. ROBINSON ISFSI 1.3-6 3.1-1 PHYSICAL CHARACTERISTICS OF PWR FUEL ASSEMBLIES BASED ON NOMINAL DESIGN 3.1-5 3.1-2 ACCEPTABLE RADIOLOGICAL CRITERIA FOR STORAGE OF MATERIAL IN THE HBR ISFSI 3.1-6 3.3-1 H. B. ROBINSON ISFSI IMPORTANT TO SAFETY (SAFETY RELATED) FEATURES 3.3-5 3.3-2 RADIOACTIVITY CONFINEMENT BARRIERS AND SYSTEM OF THE ISFSI 3.3-6 5.2-1 TRANSFER SYSTEM COMPONENT DESCRIPTION 5.2-4 7.3-1 DSC END SHIELDING MATERIAL THICKNESSES 7.3-5 7.3-2 SHIELDING ANALYSIS RESULTS 7.3-6 7.4-1
SUMMARY
OF ESTIMATED ONSITE DOSES DURING FUEL HANDLING OPERATIONS 7.4-2 7.4-2 ESTIMATED ANNUAL ONSITE DOSES DURING STORAGE PHASE 7.4-4 8.1-1 DRY SHIELDED CANISTER AND HORIZONTAL STORAGE MODULE COMPONENT WEIGHTS 8.1-5 8.1-2 MAXIMUM DRY STORAGE CANISTER SHELL STRESSES FOR NORMAL OPERATING LOADS 8.1-6 8.2-1 MAXIMUM DSC STRESSES FOR 8-FOOT BOTTOM END DROP ACCIDENT 8.2-10 xiii Revision No. 19
H. B. ROBINSON INDEPENDENT SPENT FUEL STORAGE INSTALLATION SAFETY ANALYSIS REPORT LIST OF TABLES (Cont=d)
TABLE TITLE PAGE 8.2-2 DSC ENVELOPING LOAD COMBINATION 8.2-11 8.3-1 FOUNDATION BEARING STRESS 8.3-3 8.3-2 FOUNDATION SLAB-MAXIMUM BENDING MOMENTS 8.3-4 8.3-3 FOUNDATION ANCHOR LOADS 8.3-7 10.1-1 ACCEPTABLE RADIOLOGICAL CRITERIA FOR 10.1-2 STORAGE OF MATERIAL IN THE HBR ISFSI xiv Revision No. 19
H. B. ROBINSON INDEPENDENT SPENT FUEL STORAGE INSTALLATION SAFETY ANALYSIS REPORT LIST OF FIGURES FIGURE TITLE 1.1-1 Primary Components of the ISFSI 1.1-2 Plot Plan 1.2-1 Horizontal Storage Module 1.3-1 Dry Shielded Canister and Internal Basket 1.3-2 HSM Air Flow Diagram 1.3-3 Skid Features 1.3-4 Hydraulic Ram 1.3-5 Primary Canister Handling Operations 4.2-1 Dry Shielded Canister (sheet 1of 2) 4.2-1 Dry Shielded Canister (sheet 2of 2) 4.2-2 Horizontal Storage Module 4.5-1 General Arrangement - HBR2 Fuel Handling Building 5.1-1 Cask Extension for GE IF-300 Cask 5.1-2 Cask Liner for GE IF-300 Cask 5.1-3 Handling Operations Flow Sheet (sheet 1of 4) 5.1-3 Handling Operations Flow Sheet (sheet 2of 4) 5.1-3 Handling Operations Flow Sheet (sheet 3 of 4) 5.1-3 Handling Operations Flow Sheet (sheet 4of 4) 5.2-1 Hydraulic Ram System 5.2-2 DSC Grappling System 5.4-1 DSC Instrument Locations xv Revision No. 19
H. B. ROBINSON INDEPENDENT SPENT FUEL STORAGE INSTALLATION SAFETY ANALYSIS REPORT LIST OF FIGURES FIGURE TITLE 7.3-1 Location of Reported Dose Rates (Table 7.3-2) 7.4-1 Annual Dose (mrem/yr) from 3 HSMs (Assuming 2080 hour0.0241 days <br />0.578 hours <br />0.00344 weeks <br />7.9144e-4 months <br />s/yr) 7.4-2 Dose Rate vs. Distance from Surface of HSM (Assuming 3 Modules) 7.4-3 Radiation Zone Map of Module Surface Dose Rates 7.6-1 Annual Offsite Dose (mrem per year) from 3 HSMs (Based on 24 hrs/day, 365 days/yr) 8.2-1 Cask Drop Height Criteria 8.2-2 Cask Deceleration vs. Time, 8-foot Drop 8.2-3 DSC Bottom Region ANSYS Model 8.2-4 DSC Top Region ANSYS Model 8.3-1 Mat Foundation STARDYNE Model 8.3-2 Foundation Uplift Model 8.4-1 Penetration Model for Horizontal Drop Analysis xvi Revision No. 19