List of Tables
Table 3.3.2-1 Current Missions at Idaho National Engineering Laboratory 3-14
Table 3.3.3-1 Current Missions at Nevada Test Site 3-16
Table 3.3.4-1 Current Missions at Oak Ridge Reservation 3-19
Table 3.3.5-1 Current Missions at Pantex Plant 3-22
Table 3.3.6-1 Current Missions at Savannah River Site 3-25
Table 3.4.2.1-1 Heavy Water Reactor Construction Requirements 3-33
Table 3.4.2.1-2 Heavy Water Reactor Operation Requirements 3-33
Table 3.4.2.1-3 Heavy Water Reactor Estimated Spent Nuclear Fuel and Waste Volumes 3-33
Table 3.4.2.2-1 Modular High Temperature Gas-Cooled Reactor Construction Requirements 3-36
Table 3.4.2.2-2 Modular High Temperature Gas-Cooled Reactor Operation Requirements 3-36
Table 3.4.2.2-3 Modular High Temperature Gas-Cooled Reactor Estimated Spent Nuclear Fuel and
Waste Volumes 3-36
Table 3.4.2.3-1 Advanced Light Water Reactor Construction Requirements 3-39
Table 3.4.2.3-2 Advanced Light Water Reactor Operation Requirements 3-39
Table 3.4.2.3-3 Advanced Light Water Reactor (Large) Estimated Spent Nuclear Fuel and Waste
Volumes 3-39
Table 3.4.2.3-4 Advanced Light Water Reactor (Small) Estimated Spent Nuclear Fuel and Waste
Volumes 3-40
Table 3.4.2.4-1 Accelerator Production of Tritium Construction Requirements 3-43
Table 3.4.2.4-2 Accelerator Production of Tritium Operation Requirements 3-43
Table 3.4.2.4-3 Accelerator Production of Tritium (Full) Estimated Waste Volumes 3-43
Table 3.4.2.4-4 Accelerator Production of Tritium (Phased) Estimated Waste Volumes 3-44
Table 3.4.2.4-5 Accelerator Production of Tritium Power Plant Construction Requirements 3-44
Table 3.4.2.4-6 Accelerator Production of Tritium Power Plant Operation Requirements 3-44
Table 3.4.3.1-1 New Tritium Recycling Facility Construction Requirements 3-48
Table 3.4.3.1-2 New Tritium Recycling Facility Operation Requirements 3-48
Table 3.4.3.1-3 New Tritium Recycling Facility Estimated Waste Volumes 3-48
Table 3.4.3.2-1 Upgraded Tritium Recycling Facilities Construction Requirements 3-51
Table 3.4.3.2-2 Upgraded Tritium Recycling Facilities Operation Requirements 3-51
Table 3.4.3.2-3 Upgraded Tritium Recycling Facilities (Unconsolidated-With Building 232-H)
Waste Volumes 3-51
Table 3.4.3.2-4 Upgraded Tritium Recycling Facilities (Consolidated-Without Building 232-H)
Waste Volumes 3-52
Table 3.4.3.3-1 Extraction Facility for Commercial Light Water Reactor Construction
Requirements 3-53
Table 3.4.3.3-2 Extraction Facility for Commercial Light Water Reactor Operation Requirements 3-53
Table 3.4.3.3-3 Extraction Facility for Commercial Light Water Reactor Waste Volumes 3-54
Table 3.4.3.3-4 Target Fabrication Facility for Commercial Light Water Reactor Construction
Requirements 3-54
Table 3.4.3.3-5 Target Fabrication for Commercial Light Water Reactor Operation Requirements 3-54
Table 3.4.3.3-6 Target Fabrication for Commercial Light Water Reactor Waste Volumes 3-55
Table 3.6-1 Summary Comparison of Environmental Impacts of Tritium Supply and Recycling
Alternatives 3-58
Table 3.6-2 Summary Comparison of Environmental Impacts of the Commercial Light Water
Reactor Alternative 3-108
Table 4.2.2.2-1 Baseline Characteristics for Idaho National Engineering Laboratory 4-21
Table 4.2.2.2-2 Subregional Power Pool Electrical Summary for Idaho National Engineering
Laboratory 4-21
Table 4.2.2.3-1 Comparison of Baseline Ambient Air Concentrations with Most Stringent
Applicable Regulations and Guidelines at Idaho National Engineering Laboratory,
1989-1991 4-23
Table 4.2.2.4-1 Summary of Surface Water Quality Monitoring Data for Big Lost River at Idaho
National Engineering Laboratory, 1985 4-26
Table 4.2.2.4-2 Groundwater Quality Monitoring Data at Idaho National Engineering Laboratory,
1990-1991 4-29
Table 4.2.2.5-1 The Modified Mercalli Scale of 1931, with Approximate Correlations to Richter
Scale and Maximum Ground Acceleration 4-32
Table 4.2.2.6-1 Federal and State-Listed Threatened, Endangered, and Other Special Status
Species That May Be Found On the Site or In the Vicinity of the Proposed Tritium
Supply Site at Idaho National Engineering Laboratory 4-36
Table 4.2.2.9-1 Sources of Radiation Exposure to Individuals in the Vicinity, Unrelated to Idaho
National Engineering Laboratory Operations, 1992 4-42
Table 4.2.2.9-2 Doses to the General Public from Normal Operations at Idaho National
Engineering Laboratory, 1992 (committed effective dose equivalent) 4-43
Table 4.2.2.9-3 Doses to the Worker Onsite from Normal Operations at Idaho National
Engineering Laboratory, 1992 (committed effective dose equivalent) 4-43
Table 4.2.2.10-1 Spent Nuclear Fuel and Waste Management at Idaho National Engineering
Laboratory 4-46
Table 4.2.3.1-1 Potential Changes to Land Use Resulting from Tritium Supply Technologies and
Recycling at Idaho National Engineering Laboratory 4-50
Table 4.2.3.2-1 Modifications to Site Infrastructure for Tritium Supply Technologies and Recycling
at Idaho National Engineering Laboratory 4-52
Table 4.2.3.2-2 Impacts on Subregional Electrical Power Pool from Tritium Supply Technologies
and Recycling at Idaho National Engineering Laboratory 4-53
Table 4.2.3.3-1 Estimated Cumulative Concentrations of Pollutants Resulting from Tritium Supply
Technologies and Recycling Including No Action at Idaho National Engineering
Laboratory 4-55
Table 4.2.3.4-1 Potential Changes to Water Resources Resulting from Tritium Supply Technologies
and Recycling at Idaho National Engineering Laboratory 4-60
Table 4.2.3.6-1 Potential Impacts to Biotic Resources During Construction and Operation Resulting
from Tritium Supply Technologies and Recycling at Idaho National Engineering
Laboratory 4-66
Table 4.2.3.9-1 Potential Radiological Impacts to the Public and Workers Resulting from Normal
Operation of Tritium Supply Technologies and Recycling at Idaho National
Engineering Laboratory 4-88
Table 4.2.3.9-2 Potential Hazardous Chemical Impacts to the Public and Workers Resulting from
Normal Operation at Idaho National Engineering Laboratory 4-90
Table 4.2.3.9-3 Tritium Supply Technologies and Recycling High Consequence/Low Probability
Radioactive Release Accidents and Consequences at Idaho National Engineering
Laboratory 4-92
Table 4.2.3.9-4 Tritium Supply Technologies and Recycling Low-to-Moderate Consequence/
High Probability Radioactive Release Accidents and Consequences at Idaho
National Engineering Laboratory 4-95
Table 4.2.3.10-1 Projected Spent Nuclear Fuel and Waste Management for No Action at Idaho
National Engineering Laboratory 4-98
Table 4.2.3.10-2 Estimated Annual Generated Spent Nuclear Fuel and Waste Volumes for Tritium
Supply Technologies and Recycling at Idaho National Engineering Laboratory 4-101
Table 4.2.3.10-3 Potential Spent Nuclear Fuel and Waste Management Impacts from Tritium
Supply Technologies and Recycling at Idaho National Engineering Laboratory 4-102
Table 4.3.2.2-1 Baseline Characteristics for Nevada Test Site 4-111
Table 4.3.2.2-2 Subregional Power Pool Electrical Summary for Nevada Test Site 4-112
Table 4.3.2.3-1 Comparison of Baseline Ambient Air Concentrations with Most Stringent
Applicable Regulations and Guidelines at Nevada Test Site, 1990-1992 4-113
Table 4.3.2.4-1 Groundwater Quality Monitoring Data at Nevada Test Site, 1991-1992 4-116
Table 4.3.2.6-1 Federal and State-Listed Threatened, Endangered, and Other Special Status
Species That May Be Found On the Site or In the Vicinity of the Proposed Tritium
Supply Site at Nevada Test Site 4-121
Table 4.3.2.9-1 Sources of Radiation Exposure to Individuals in the Vicinity, Unrelated to Nevada
Test Site Operations 4-128
Table 4.3.2.9-2 Doses to the General Public from Normal Operation at Nevada Test Site, 1992
(committed effective dose equivalent) 4-130
Table 4.3.2.9-3 Doses to the Worker Onsite from Normal Operation at Nevada Test Site, 1992
(committed effective dose equivalent) 4-131
Table 4.3.2.10-1 Waste Management at Nevada Test Site 4-133
Table 4.3.3.1-1 Potential Changes to Land Use Resulting from Tritium Supply Technologies and
Recycling at Nevada Test Site 4-135
Table 4.3.3.2-1 Modifications to Site Infrastructure for Tritium Supply Technologies and Recycling
at Nevada Test Site 4-137
Table 4.3.3.2-2 Impacts on Subregional Electrical Power Pool from Tritium Supply Technologies
and Recycling at Nevada Test Site 4-138
Table 4.3.3.3-1 Estimated Cumulative Concentrations of Pollutants Resulting from Tritium Supply
Technologies and Recycling Including No Action at Nevada Test Site 4-140
Table 4.3.3.4-1 Potential Changes to Water Resources Resulting from Tritium Supply Technologies
and Recycling at Nevada Test Site 4-144
Table 4.3.3.6-1 Potential Impacts to Biotic Resources Resulting During Construction and Operation
from Tritium Supply Technologies and Recycling at Nevada Test Site 4-150
Table 4.3.3.9-1 Potential Radiological Impacts to the Public and Workers Resulting from Normal
Operation of Tritium Supply Technologies and Recycling at Nevada Test Site 4-170
Table 4.3.3.9-2 Potential Hazardous Chemical Impacts to the Public and Workers Resulting from
Normal Operation at Nevada Test Site 4-172
Table 4.3.3.9-3 Tritium Supply Technologies and Recycling High Consequence/Low Probability
Radioactive Release Accidents and Consequences at Nevada Test Site 4-174
Table 4.3.3.9-4 Tritium Supply Technologies and Recycling Low-to-Moderate Consequence/High
Probability Radioactive Release Accidents and Consequences at Nevada Test Site 4-177
Table 4.3.3.10-1 Projected Waste Management Under No Action at Nevada Test Site 4-180
Table 4.3.3.10-2 Estimated Annual Generated Spent Nuclear Fuel and Waste Volumes for Tritium
Supply Technologies and Recycling at Nevada Test Site 4-181
Table 4.3.3.10-3 Potential Spent Nuclear Fuel and Waste Management Impacts from the Tritium
Supply Technologies and Recycling at Nevada Test Site 4-182
Table 4.4.2.2-1 Baseline Characteristics for Oak Ridge Reservation 4-192
Table 4.4.2.2-2 Subregional Power Pool Electrical Summary for Oak Ridge Reservation 4-194
Table 4.4.2.3-1 Comparison of Baseline Ambient Air Concentrations with Most Stringent
Applicable Regulations and Guidelines at Oak Ridge Reservation, 1992 4-195
Table 4.4.2.4-1 Summary of Clinch River Surface Water Quality Monitoring at Oak Ridge
Reservation, 1991 4-198
Table 4.4.2.4-2 Groundwater Quality Monitoring Data at Oak Ridge Reservation, 1991 4-200
Table 4.4.2.6-1 Federal and State-Listed Threatened, Endangered, and Other Special Status
Species That May Be Found On the Site or In the Vicinity of Proposed Tritium
Supply Site at Oak Ridge Reservation 4-204
Table 4.4.2.9-1 Sources of Radiation Exposure to Individuals in the Vicinity, Unrelated to Oak
Ridge Reservation Operations 4-211
Table 4.4.2.9-2 Doses to the General Public from Normal Operation at Oak Ridge Reservations,
1992 (committed effective dose equivalent) 4-211
Table 4.4.2.9-3 Doses to the Worker Onsite from Normal Operation at Oak Ridge Reservation,
1992 (committed effective dose equivalent) 4-212
Table 4.4.2.10-1 Spent Nuclear Fuel and Waste Management at Y-12 Plant 4-214
Table 4.4.2.10-2 Spent Nuclear Fuel and Waste Management at Oak Ridge National Laboratory 4-216
Table 4.4.2.10-3 Waste Management at K-25 Site 4-218
Table 4.4.3.1-1 Potential Changes to Land Use Resulting from Tritium Supply Technologies and
Recycling at Oak Ridge Reservation 4-223
Table 4.4.3.2-1 Modifications to Site Infrastructure for Tritium Supply Technologies and Recycling
at Oak Ridge Reservation 4-225
Table 4.4.3.2-2 Impacts on Subregional Electrical Power Pool from Tritium Supply Technologies
and Recycling at Oak Ridge Reservation 4-226
Table 4.4.3.3-1 Estimated Cumulative Concentrations of Pollutants Resulting from Tritium Supply
Technologies and Recycling Including No Action at Oak Ridge Reservation 4-229
Table 4.4.3.4-1 Potential Changes to Water Resources Resulting from Tritium Supply Technologies
and Recycling at Oak Ridge Reservation 4-233
Table 4.4.3.6-1 Potential Impacts to Biotic Resources During Construction and Operation Resulting
from Tritium Supply Technologies and Recycling at Oak Ridge Reservation 4-241
Table 4.4.3.9-1 Potential Radiological Impacts to the Public and Workers Resulting from Normal
Operation of Tritium Supply Technologies and Recycling at Oak Ridge Reservation 4-263
Table 4.4.3.9-2 Potential Hazardous Chemical Impacts to the Public and Workers Resulting from
Normal Operations at Oak Ridge Reservation 4-264
Table 4.4.3.9-3 Tritium Supply Technologies and Recycling High Consequence/Low Probability
Radioactive Release Accidents and Consequences at Oak Ridge Reservation 4-267
Table 4.4.3.9-4 Tritium Supply Technologies and Recycling Low-to-Moderate Consequence/High
Probability Radioactive Release Accidents and Consequences at Oak Ridge
Reservation 4-270
Table 4.4.3.10-1 Projected Spent Nuclear Fuel and Waste Management for No Action at Oak Ridge
Reservation 4-272
Table 4.4.3.10-2 Estimated Generated Annual Spent Nuclear Fuel and Waste Volumes for Tritium
Supply Technologies and Recycling at Oak Ridge Reservation 4-275
Table 4.4.3.10-3 Potential Spent Nuclear Fuel and Waste Management Impacts from Tritium
Supply Technologies and Recycling at Oak Ridge Reservation 4-277
Table 4.5.2.2-1 Baseline Characteristics for Pantex Plant 4-288
Table 4.5.2.2-2 Subregional Power Pool Electrical Summary for Pantex Plant 4-289
Table 4.5.2.3-1 Comparison of Baseline Ambient Air Concentrations with Most Stringent
Applicable Regulations and Guidelines at Pantex Plant, 1991 4-290
Table 4.5.2.4-1 Summary of Surface Water Quality Monitoring Data for Playa 1 at Pantex Plant,
1991 4-294
Table 4.5.2.4-2 Groundwater Quality Monitoring Data for the Ogallala Aquifer Wells at Pantex
Plant, 1990 4-296
Table 4.5.2.4-3 Groundwater Quality Monitoring for the Perched Zone Wells at Pantex Plant,
1990 4-297
Table 4.5.2.6-1 Federal and State-Listed Threatened, Endangered, and Other Special Status
Species That May be Found On the Site or In the Vicinity of Proposed Tritium
Supply Site on Pantex Plant 4-299
Table 4.5.2.9-1 Sources of Radiation Exposure to Individuals in the Vicinity, Unrelated to Pantex
Plant Operations 4-306
Table 4.5.2.9-2 Doses to the General Public from Normal Operation at Pantex Plant, 1992
(committed effective dose equivalent) 4-307
Table 4.5.2.9-3 Doses to the Worker Onsite from Normal Operation at Pantex Plant, 1992
(committed effective dose equivalent) 4-307
Table 4.5.2.10-1 Waste Management at Pantex Plant 4-309
Table 4.5.3.1-1 Potential Changes to Land Use Resulting from Tritium Supply Technologies and
Recycling at Pantex Plant 4-312
Table 4.5.3.2-1 Modifications to Site Infrastructure for Tritium Supply Technologies and Recycling
at Pantex Plant 4-314
Table 4.5.3.2-2 Impacts on Subregional Electrical Power Pool from Tritium Supply Technologies
and Recycling at Pantex Plant 4-315
Table 4.5.3.3-1 Estimated Cumulative Concentrations of Pollutants Resulting from Tritium Supply
Technologies and Recycling Including No Action at Pantex Plant 4-318
Table 4.5.3.4-1 Potential Changes to Water Resources Resulting from Tritium Supply Technologies
and Recycling at Pantex Plant 4-324
Table 4.5.3.6-1 Potential Impacts to Biotic Resources During Construction and Operation Resulting
from Tritium Supply Technologies and Recycling at Pantex Plant 4-331
Table 4.5.3.9-1 Potential Radiological Impacts to the Public and Workers Resulting from Normal
Operation of Tritium Supply Technologies and Recycling at Pantex Plant 4-354
Table 4.5.3.9-2 Potential Hazardous Chemical Impacts to the Public and Workers Resulting from
Normal Operation at Pantex Plant 4-355
Table 4.5.3.9-3 Tritium Supply Technologies and Recycling High Consequence/Low Probability
Radioactive Release Accidents and Consequences at Pantex Plant 4-358
Table 4.5.3.9-4 Tritium Supply Technologies and Recycling Low to Moderate Consequence
Radioactive Release Accidents and Consequences at Pantex Plant 4-361
Table 4.5.3.10-1 Projected Waste Management for No Action at Pantex Plant, 1992 4-364
Table 4.5.3.10-2 Estimated Annual Generated Spent Nuclear Fuel and Waste Volumes for Tritium
Supply Technologies and Recycling at Pantex Plant 4-365
Table 4.5.3.10-3 Potential Spent Nuclear Fuel and Waste Management Impacts from Tritium
Supply Technologies and Recycling at Pantex Plant 4-367
Table 4.6.2.2-1 Baseline Characteristics for Savannah River Site 4-376
Table 4.6.2.2-2 Subregional Power Pool Electrical Summary for Savannah River Site 4-376
Table 4.6.2.3-1 Comparison of Baseline Ambient Air Concentrations with Most Stringent
Applicable Regulations and Guidelines at Savannah River Site, 1985-1987 4-378
Table 4.6.2.4-1 Summary of Surface Water Quality Monitoring Data for the Savannah River at
Savannah River Site, 1991 4-381
Table 4.6.2.4-2 Groundwater Quality Monitoring Data at Savannah River Site, 1991 4-382
Table 4.6.2.6-1 Federal and State-Listed Threatened, Endangered, and Other Special Status
Species That May Be Found On the Site or In the Vicinity of the Proposed Tritium
Supply Site at Savannah River Site 4-387
Table 4.6.2.9-1 Sources of Radiation Exposure to Individuals in the Vicinity, Unrelated to
Savannah River Site Operations, 1992 4-394
Table 4.6.2.9-2 Doses to the General Public from Normal Operations at Savannah River Site,
1992 (committed effective dose equivalent) 4-394
Table 4.6.2.9-3 Doses to the Worker Onsite from Normal Operations at Savannah River Site,
1992 (committed effective dose equivalent) 4-395
Table 4.6.2.10-1 Spent Nuclear Fuel and Waste Management at Savannah River Site 4-397
Table 4.6.3.1-1 Potential Changes to Land Use Resulting from Tritium Supply Technologies and
Recycling at Savannah River Site 4-402
Table 4.6.3.2-1 Modifications to Site Infrastructure for Tritium Supply Technologies and Recycling
Phaseout at Savannah River Site 4-405
Table 4.6.3.2-2 Impacts on the Subregional Electrical Power Pool from Tritium Supply
Technologies at Savannah River Site 4-406
Table 4.6.3.3-1 Estimated Cumulative Concentrations of Pollutants Resulting from Tritium
Supply Technologies and Upgraded Recycling Including No Action at Savannah
River Site 4-408
Table 4.6.3.4-1 Potential Changes to Water Resources Resulting from Tritium Supply Technologies
and Recycling at Savannah River Site 4-412
Table 4.6.3.6-1 Potential Impacts to Biotic Resources Resulting from Tritium Supply Technologies
and Recycling During Construction and Operation at Savannah River Site 4-421
Table 4.6.3.9-1 Potential Radiological Impacts to the Public and Workers Resulting from Normal
Operation of Tritium Supply Technologies and Recycling at Savannah River Site 4-450
Table 4.6.3.9-2 Potential Hazardous Chemical Impacts to the Public and Workers Resulting from
Normal Operation at Savannah River Site 4-451
Table 4.6.3.9-3 Radioactive Release Accidents and Consequences for Existing No Action Tritium
Recycling Operations at Savannah River Site 4-454
Table 4.6.3.9-4 Tritium Supply Technologies and Recycling High Consequence/Low Probability
Radioactive Release Accidents and Consequences at Savannah River Site 4-456
Table 4.6.3.9-5 Tritium Supply Technologies and Recycling Low-to-Moderate Consequence/High
Probability Radioactive Release Accidents and Consequences at Savannah River
Site 4-458
Table 4.6.3.10-1 Projected Spent Nuclear Fuel and Waste Management for No Action at Savannah
River Site 4-461
Table 4.6.3.10-2 Estimated Annual Generated Spent Nuclear Fuel and Waste Volumes for Tritium
Supply Technologies and Recycling at Savannah River Site 4-464
Table 4.6.3.10-3 Potential Spent Nuclear Fuel and Waste Management Impacts from Tritium
Supply Technologies and Recycling at Savannah River Site 4-465
Table 4.7.1.1-1 Transportation Modes and Comparison Ratings for the Candidate Sites 4-471
Table 4.7.2.2-1 Comparison of Relative Mileage Risk 4-473
Table 4.7.2.2-2 Accident Impacts from Transporting Low-Level Waste from Pantex Plant to
Nevada Test Site 4-475
Table 4.8.3.1-1 Pit Disassembly/Conversion/Mixed-Oxide Fuel Fabrication Facility Key Design
Parameters 4-485
Table 4.8.3.1-2 Pit Disassembly/Conversion/Mixed-Oxide Fuel Fabrication Facility Construction
Requirements 4-485
Table 4.8.3.1-3 Pit Disassembly/Conversion/Mixed-Oxide Fuel Fabrication Facility Operation
Requirements 4-485
Table 4.8.3.1-4 Pit Disassembly/Conversion/Mixed-Oxide Fuel Fabrication Facility Waste
Volumes 4-486
Table 4.8.3.1-5 Pit Disassembly/Conversion Facility Key Design Parameters 4-486
Table 4.8.3.1-6 Pit Disassembly/Conversion Facility Construction Requirements 4-486
Table 4.8.3.1-7 Pit Disassembly/Conversion Facility Operation Requirements 4-487
Table 4.8.3.1-8 Pit Disassembly/Conversion Facility Waste Volumes 4-487
Table 4.8.3.1-9 Mixed-Oxide Fuel Fabrication Worker and Population Impacts of High
Consequence Accidents 4-491
Table 4.8.3.1-10 Mixed-Oxide Fuel Fabrication Worker and Population Impacts of Low
Consequence/High Probability Accidents 4-491
Table 4.8.3.2-1 Increase of Radioactive Materials for the Mixed-Oxide Fueled Light Water
Reactor 4-494
Table 4.8.3.3-1 Multipurpose Modular High Temperature Gas-Cooled Reactor Estimated
Construction Material/Resource Requirements 4-496
Table 4.8.3.3-2 Multipurpose Modular High Temperature Gas-Cooled Reactor Estimated Operation
Utility Requirements 4-497
Table 4.10.3.1-1 Estimated Total Construction Materials/Resources Consumption to Complete a
Nuclear Power Plant 4-515
Table 4.10.3.1-2 Estimated Peak Year Construction Air Emissions From Activities to Complete a
Nuclear Power Plant 4-515
Table 4.10.3.1-3 Estimated Construction Workers Needed by Year to Complete a Nuclear Power
Plant 4-516
Table 4.10.3.1-4 Estimated Construction Waste Generated to Complete a Nuclear Power Plant 4-516
Table 4.10.3.1-1 Generic Commercial Light Water Reactor Operational Parameters 4-517
Table 4.10.3.1-2 Commercial Light Water Reactor Operational Parameter Changes From Tritium
Production 4-520
Table 4.10.3.2-3 Radiological Consequences of Transportation Accidents Shipping Tritium Target
Rods 4-524
Table 4.16-1 Selected Demographic Characteristics for Idaho National Engineering Laboratory
Region-of-Influence 4-544
Table 4.16-2 Selected Demographic Characteristics for Nevada Test Site Region-of-Influence 4-544
Table 4.16-3 Selected Demographic Characteristics for Oak Ridge Reservation Region-of-
Influence 4-545
Table 4.16-4 Selected Demographic Characteristics for Pantex Plant Region-of-Influence 4-545
Table 4.16-5 Selected Demographic Characteristics for Savannah River Site Region-of-
Influence 4-546
Table 5.3-1 Federal Environmental Statutes, Regulations, and Orders 5-5
Table 5.3-2 Selected Department of Energy Environment, Safety, and Health Orders 5-10
Table 5.3-3 Department of Energy Agreements with Federal and State Environmental
Regulatory Agencies 5-11
Table 5.3-4 State Environmental Statutes, Regulations, and Orders 5-12
Table 5.5-1 Estimated Number of Construction Worker Fatalities by Technology 5-17
Table A.2.1.1-1 Heavy Water Reactor Construction Material/Resource Requirements A-39
Table A.2.1.1-2 Heavy Water Reactor Operation Utility Requirements A-39
Table A.2.1.1-3 Heavy Water Reactor Annual Chemical Requirements A-39
Table A.2.1.1-4 Heavy Water Reactor Estimated Spent Nuclear Fuel and Waste Volumes A-40
Table A.2.1.2-1 Modular High Temperature Gas-Cooled Reactor Construction
Material/Resource Requirements A-49
Table A.2.1.2-2 Modular High Temperature Gas-Cooled Reactor Operation Utility
Requirements A-49
Table A.2.1.2-3 Modular High Temperature Gas-Cooled Reactor Annual Chemical
Requirements A-49
Table A.2.1.2-4 Modular High Temperature Gas-Cooled Reactor Estimated Spent Nuclear Fuel
and Waste Volumes A-50
Table A.2.1.3-1 Advanced Light Water Reactor Construction Material/Resource
Requirements A-59
Table A.2.1.3-2 Advanced Light Water Reactor Operation Utility Requirements A-59
Table A.2.1.3-3 Advanced Light Water Reactor Annual Chemical Requirements A-59
Table A.2.1.3-4 Advanced Light Water Reactor (Large) Estimated Spent Nuclear Fuel and
Waste Volumes A-60
Table A.2.1.3-5 Advanced Light Water Reactor (Small) Estimated Spent Nuclear Fuel and
Waste Volumes A-61
Table A.2.1.4-1 Accelerator Production of Tritium Construction Material/Resource
Requirements A-73
Table A.2.1.4-2 Accelerator Production of Tritium Operation Utility Requirements A-73
Table A.2.1.4-3 Accelerator Production of Tritium Annual Chemical Requirements A-73
Table A.2.1.4-4 Accelerator Production of Tritium (Helium-3 Target) Estimated Waste
Volumes A-74
Table A.2.1.4-5 Accelerator Production of Tritium (Spallation-Induced Lithium Conversion
Target) Estimated Waste Volumes A-75
Table A.2.1.4-6 Phased Accelerator Production of Tritium (Helium-3 Target Only) Estimated
Waste Volumes A-76
Table A.2.2.1-1 New Tritium Recycling Facility Construction Material/Resource
Requirements A-85
Table A.2.2.1-2 New Tritium Recycling Facility Operation Utility Requirements A-85
Table A.2.2.1-3 New Tritium Recycling Facility Annual Chemical Requirements A-85
Table A.2.2.1-4 New Tritium Recycling Facility Estimated Waste Volumes A-86
Table A.2.2.2-1 Upgraded Tritium Recycling Facilities Construction Material/Resource
Requirements A-94
Table A.2.2.2-2 Upgraded Tritium Recycling Facilities Operation Utility Requirements A-94
Table A.2.2.2-3 Upgraded Tritium Recycling Facilities Annual Chemical Requirements A-94
Table A.2.2.2-4 Upgraded Tritium Recycling Facilities Estimated Waste Volumes A-95
Table B.1.3.1-1 Ambient Air Quality Standards Applicable to the Candidate Sites B-3
Table B.1.3.1-2 Maximum Allowable Prevention of Significant Deterioration Concentration
Increments for the Candidate Sites B-4
Table B.1.3.1-3 Pollutant Emissions from Natural Gas-Fired Turbines B-4
Table B.1.3.2-1 Ambient Air Quality at Idaho National Engineering Laboratory B-7
Table B.1.3.2-2 Source Emission Inventory for Idaho National Engineering Laboratory, 1989 B-7
Table B.1.3.2-3 Prevention of Significant Deterioration Sources and Concentration Increments
Consumed at Idaho National Engineering Laboratory Boundary and Nearby
Class I Area B-8
Table B.1.3.2-4 Emission Rates and Maximum Site Boundary Concentration of Toxic/Hazardous
Air Pollutants at Idaho National Engineering Laboratory, 1989 B-8
Table B.1.3.2-5 Estimated Ambient Concentration of Criteria Pollutants from Baseline Sources
at Idaho National Engineering Laboratory, 1991 B-9
Table B.1.3.3-1 Ambient Air Quality Data for Nevada Test Site, 1990 B-11
Table B.1.3.3-2 Source Emission Inventory for Nevada Test Site, 1992 B-11
Table B.1.3.3-3 Estimated Ambient Concentration of Criteria Pollutants from Existing Sources
at Nevada Test Site, 1990 B-11
Table B.1.3.4-1 Ambient Air Quality Data for Oak Ridge Reservation, 1990 B-15
Table B.1.3.4-2 Source Emission Inventory for Oak Ridge Reservation, 1990-1992 B-15
Table B.1.3.4-3 Emission Rates and Maximum Site Boundary Concentration of Toxic/Hazardous
Air Pollutants at Oak Ridge Reservation, 1992 B-16
Table B.1.3.4-4 Estimated Ambient Concentration of Criteria Pollutants from Existing Sources
at Oak Ridge Reservation, 1992 B-16
Table B.1.3.5-1 Ambient Air Quality Data for Pantex Plant, 1986-1991 B-18
Table B.1.3.5-2 Source Emission Inventory for Pantex Plant, 1991 B-19
Table B.1.3.5-3 Emission Rates and Maximum Site Boundary Concentration of Toxic/Hazardous
Air Pollutants at Pantex Plant, 1991 B-19
Table B.1.3.5-4 Estimated Ambient Concentration of Pollutants from Existing Sources at
Pantex Plant, 1991 B-20
Table B.1.3.6-1 Ambient Air Quality Data for Savannah River Site, 1985 B-24
Table B.1.3.6-2 Source Emission Inventory for Savannah River Site, 1987 B-24
Table B.1.3.6-3 Emission Rates and Maximum Site Boundary Concentration of Toxic/Hazardous
Air Pollutants at Savannah River Site, 1990 B-26
Table B.1.3.6-4 Estimated Ambient Concentration of Criteria Pollutants from Existing Sources
at Savannah River Site, 1987 B-26
Table B.1.4-1 Potential Air Emissions Resulting from Tritium Supply Technologies and
Recycling at Idaho National Engineering Laboratory (tons/year) B-28
Table B.1.4-2 Potential Air Emissions Resulting from Tritium Supply Technologies and
Recycling at Nevada Test Site (tons/year) B-30
Table B.1.4-3 Potential Air Emissions Resulting from Tritium Supply Technologies and
Recycling at Oak Ridge Reservation (tons/year) B-31
Table B.1.4-4 Potential Air Emissions Resulting from Tritium Supply Technologies and
Recycling at Pantex Plant (tons/year) B-32
Table B.1.4-5 Potential Air Emissions Resulting from Tritium Supply Technologies and
Upgraded Recycling at Savannah River Site (tons/year) B-33
Table B.2.2.1-1 City of Oak Ridge Maximum Allowable Noise Limits Applicable to
Oak Ridge Reservation B-35
Table B.2.2.2-1 Aiken County Maximum Allowable Noise Levels B-35
Table C-1 Scientific Names of Common Nonthreatened and Nonendangered Plant and
Animal Species Referred to in the Text C-2
Table C-2 Federal- and State-Listed Threatened, Endangered, and Other Special Status
Species That May Be Found On the Site or In the Vicinity of Idaho National
Engineering Laboratory C-4
Table C-3 Federal- and State-Listed Threatened, Endangered, and Other Special Status
Species That May Be Found On the Site or In the Vicinity of Nevada Test Site C-5
Table C-4 Federal- and State-Listed Threatened, Endangered, and Other Special Status
Species That May Be Found On the Site or In the Vicinity of Oak Ridge
Reservation C-6
Table C-5 Federal- and State-Listed Threatened, Endangered, and Other Special Status
Species That May Be Found On the Site or In the Vicinity of Pantex Plant C-9
Table C-6 Federal- and State-Listed Threatened, Endangered, and Other Special Status
Species That May Be Found On the Site or In the Vicinity of Savannah
River Site C-10
Table D.2.1-1 Historical and Projected Site Employment D-1
Table D.2.1-2 Counties Representing the Candidate Sites' Regional Economic Areas D-2
Table D.2.1-3 Assumptions for Regional Economic Area D-4
Table D.2.1-4 Parameters Used by the Model Idaho National Engineering Laboratory
Example D-5
Table D.3-1 Distribution of Employees by Place of Residence for Idaho National
Engineering Laboratory, 1991 D-8
Table D.3-2 Employment and Local Economy Statistics for Idaho National Engineering
Laboratory Regional Economic Area, 1970-2020 D-8
Table D.3-3 Changes to Total Employment, Unemployment Rate, and Per Capita Income
During Peak Construction (2005 (2003 for Phased APT)) and Full Operation
(2010) from Tritium Supply Technologies for Idaho National Engineering
Laboratory Regional Economic Area D-9
Table D.3-3a Changes to Total Employment, Unemployment Rate, and Per Capita Income
During Peak Construction (2005 (2003 for Phased APT)) and Full Operation
(2010) from Accelerator Production of Tritium Power Plant and Multipurpose
Reactor for Idaho National Engineering Laboratory Regional Economic Area D-9
Table D.3-4 Changes to Total Employment, Unemployment Rate, and Per Capita Income
During Peak Construction (2005 (2003 for Phased APT)) and Full Operation
(2010) from Tritium Supply Technologies and Recycling for Idaho National
Engineering Laboratory Regional Economic Area D-10
Table D.3-4a Changes to Total Employment, Unemployment Rate, and Per Capita Income
During Peak Construction (2005 (2003 for Phased APT)) and Full Operation
(2010) from Accelerator Production of Tritium Power Plant and Multipurpose
Reactor for Idaho National Engineering Laboratory Regional Economic Area D-10
Table D.3-5 Population for Idaho National Engineering Laboratory Region of Influence,
1970-2020 D-11
Table D.3-6 Changes to Population During Peak Construction (2005 (2003 for Phased APT))
and Full Operation (2010) from Tritium Supply Technologies for Idaho
National Engineering Laboratory Region of Influence D-12
Table D.3-6a Changes to Population During Peak Construction (2005 (2003 for Phased APT))
and Full Operation (2010) from Accelerator Production of Tritium Power Plant
and Multipurpose Reactor for Idaho National Engineering Laboratory Region
of Influence D-13
Table D.3-7 Changes to Population During Peak Construction (2005 (2003 for Phased APT))
and Full Operation (2010) from Tritium Supply Technologies and Recycling
for Idaho National Engineering Laboratory Region of Influence D-14
Table D.3-7a Changes to Population During Peak Construction (2005 (2003 for Phased APT))
and Full Operation (2010) from Accelerator Production of Tritium Power Plant
and Multipurpose Reactor for Idaho National Engineering Laboratory Region
of Influence D-15
Table D.3-8 Total Housing Units for Idaho National Engineering Laboratory Region of
Influence, 1970-2020 D-16
Table D.3-9 Changes in Housing Demand During Peak Construction (2005 (2003 for Phased
APT)) and Full Operation (2010) from Tritium Supply Technologies for Idaho
National Engineering Laboratory Region of Influence D-17
Table D.3-9a Changes in Housing Demand During Peak Construction (2005 (2003 for Phased
APT)) and Full Operation (2010) from Accelerator Production of Tritium Power
Plant and Multipurpose Reactor for Idaho National Engineering Laboratory
Region of Influence D-18
Table D.3-10 Changes in Housing Demand During Peak Construction (2005 (2003 for Phased
APT)) and Full Operation (2010) from Tritium Supply Technologies and
Recycling for Idaho National Engineering Laboratory Region of Influence D-19
Table D.3-10a Changes in Housing Demand During Peak Construction (2005 (2003 for Phased
APT)) and Full Operation (2010) from Accelerator Production of Tritium Power
Plant and Multipurpose Reactor for Idaho National Engineering Laboratory
Region of Influence D-20
Table D.3-11 County and City Revenues and Expenditures for Idaho National Engineering
Laboratory Region of Influence, 1992 D-21
Table D.3-12 School District Revenues and Expenditures for Idaho National Engineering
Laboratory Region of Influence, 1992 D-22
Table D.3-13 Changes in County and City Total Revenues and Expenditures Over/Under
No Action During Peak Construction (2005 (2003 for Phased APT)) from
Tritium Supply Technologies for Idaho National Engineering Laboratory
Region of Influence D-23
Table D.3-13a Changes in County and City Total Revenues and Expenditures Over/Under
No Action During Peak Construction (2005 (2003 for Phased APT)) from
Accelerator Production of Tritium Power Plant and Multipurpose Reactor for
Idaho National Engineering Laboratory Region of Influence D-24
Table D.3-14 Changes to County and City Total Revenues and Expenditures Over/Under
No Action at Full Operation (2010) from Tritium Supply Technologies for Idaho
National Engineering Laboratory Region of Influence D-25
Table D.3-14a Changes to County and City Total Revenues and Expenditures Over/Under
No Action at Full Operation (2010) from Accelerator Production of Tritium
Power Plant and Multipurpose Reactor for Idaho National Engineering
Laboratory Region of Influence D-26
Table D.3-15 Changes to School District Total Revenues and Expenditures Over/Under
No Action During Peak Construction (2005 (2003 for Phased APT)) from
Tritium Supply Technologies for Idaho National Engineering Laboratory
Region of Influence D-27
Table D.3-15a Changes to School District Total Revenues and Expenditures Over/Under
No Action During Peak Construction (2005 (2003 for Phased APT)) from
Accelerator Production of Tritium Power Plant and Multipurpose Reactor for
Idaho National Engineering Laboratory Region of Influence D-28
Table D.3-16 Changes to School District Total Revenues and Expenditures Over/Under
No Action at Full Operation (2010) from Tritium Supply Technologies for Idaho
National Engineering Laboratory Region of Influence D-29
Table D.3-16a Changes to School District Total Revenues and Expenditures Over/Under
No Action at Full Operation (2010) from Accelerator Production of Tritium
Power Plant and Multipurpose Reactor for Idaho National Engineering
Laboratory Region of Influence D-30
Table D.3-17 Changes to County and City Total Revenues and Expenditures Over/Under
No Action During Peak Construction (2005 (2003 for Phased APT)) from
Tritium Supply Technologies and Recycling for Idaho National Engineering
Laboratory Region of Influence D-31
Table D.3-17a Changes to County and City Total Revenues and Expenditures Over/Under
No Action During Peak Construction (2005 (2003 for Phased APT)) from
Accelerator Production of Tritium Power Plant and Multipurpose Reactor for
Idaho National Engineering Laboratory Region of Influence D-32
Table D.3-18 Changes to County and City Total Revenues and Expenditures Over/Under
No Action at Full Operation (2010) from Tritium Supply Technologies and
Recycling for Idaho National Engineering Laboratory Region of Influence D-33
Table D.3-18a Changes to County and City Total Revenues and Expenditures Over/Under
No Action at Full Operation (2010) from Accelerator Production of Tritium
Power Plant and Multipurpose Reactor for Idaho National Engineering
Laboratory Region of Influence D-34
Table D.3-19 Changes to School District Total Revenues and Expenditures Over/Under
No Action During Peak Construction (2005 (2003 for Phased APT)) from
Tritium Supply Technologies and Recycling for Idaho National Engineering
Laboratory Region of Influence D-35
Table D.3-19a Changes to School District Total Revenues and Expenditures Over/Under
No Action During Peak Construction (2005 (2003 for Phased APT)) from
Accelerator Production of Tritium Power Plant and Multipurpose Reactor for
Idaho National Engineering Laboratory Region of Influence D-36
Table D.3-20 Changes in School District Total Revenues and Expenditures Over/Under
No Action at Full Operation (2010) from Tritium Supply Technologies and
Recycling for Idaho National Engineering Laboratory Region of Influence D-37
Table D.3-20a Changes in School District Total Revenues and Expenditures Over/Under
No Action at Full Operation (2010) from Accelerator Production of Tritium
Power Plant and Multipurpose Reactor for Idaho National Engineering
Laboratory Region of Influence D-38
Table D.3-21 Distribution of Employees by Place of Residence for Nevada Test Site,
1991 D-39
Table D.3-22 Employment and Local Economy Statistics for Nevada Test Site Regional
Economic Area, 1970-2020 D-39
Table D.3-23 Changes in Total Employment, Unemployment Rate, and Per Capita Income
During Peak Construction (2005 (2003 for Phased APT)) and Full Operation
(2010) from Tritium Supply Technologies for Nevada Test Site Regional
Economic Area D-40
Table D.3-23a Changes in Total Employment, Unemployment Rate, and Per Capita Income
During Peak Construction (2005 (2003 for Phased APT)) and Full Operation
(2010) from Accelerator Production of Tritium Power Plant and Multipurpose
Reactor for Nevada Test Site Regional Economic Area D-40
Table D.3-24 Changes in Total Employment, Unemployment Rate, and Per Capita Income
During Peak Construction (2005 (2003 for Phased APT)) and Full Operation
(2010) from Tritium Supply Technologies and Recycling for Nevada Test Site
Regional Economic Area D-41
Table D.3-24a Changes in Total Employment, Unemployment Rate, and Per Capita Income
During Peak Construction (2005 (2003 for Phased APT)) and Full Operation
(2010) from Accelerator Production of Tritium Power Plant and Multipurpose
Reactor for Nevada Test Site Regional Economic Area D-41
Table D.3-25 Population for Nevada Test Site Region of Influence, 1970-2020 D-42
Table D.3-26 Changes in Population During Peak Construction (2005 (2003 for Phased APT))
and Full Operation (2010) from Tritium Supply Technologies for Nevada Test
Site Region of Influence D-42
Table D.3-26a Changes in Population During Peak Construction (2005 (2003 for Phased APT))
and Full Operation (2010) from Accelerator Production of Tritium Power
Plant and Multipurpose Reactor for Nevada Test Site Region of Influence D-43
Table D.3-27 Changes in Population During Peak Construction (2005 (2003 for Phased APT))
and Full Operation (2010) from Tritium Supply Technologies and Recycling for
Nevada Test Site Region of Influence D-44
Table D.3-27a Changes in Population During Peak Construction (2005 (2003 for Phased APT))
and Full Operation (2010) from Accelerator Production of Tritium Power
Plant and Multipurpose Reactor for Nevada Test Site Region of Influence D-45
Table D.3-28 Total Housing Units for Nevada Test Site Region of Influence, 1970-2020 D-45
Table D.3-29 Changes in Housing Demands During Peak Construction (2005 (2003 for
Phased APT)) and Full Operation (2010) from Tritium Supply Technologies for
Nevada Test Site Region of Influence D-46
Table D.3-29a Changes in Housing Demands During Peak Construction (2005 (2003
for Phased APT)) and Full Operation (2010) from Accelerator Production
of Tritium Power Plant and Multipurpose Reactor for Nevada Test Site
Region of Influence D-47
Table D.3-30 Changes in Housing Demands During Peak Construction (2005 (2003 for
Phased APT)) and Full Operation (2010) from Tritium Supply Technologies
and Recycling for Nevada Test Site Region of Influence D-48
Table D.3-30a Changes in Housing Demands During Peak Construction (2005 (2003 for
Phased APT)) and Full Operation (2010) from Accelerator Production
of Tritium Power Plant and Multipurpose Reactor for Nevada Test Site
Region of Influence D-49
Table D.3-31 County and City Revenues and Expenditures for Nevada Test Site Region
of Influence 1992 D-49
Table D.3-32 School District Revenues and Expenditures for Nevada Test Site Region
of Influence, 1992 D-50
Table D.3-33 Changes in County, City, and School District Total Revenues and
Expenditures Over/Under No Action During Peak Construction (2005 (2003
for Phased APT)) from Tritium Supply Technologies for Nevada Test Site
Region of Influence D-51
Table D.3-33a Changes in County, City, and School District Total Revenues and
Expenditures Over/Under No Action During Peak Construction (2005 (2003
for Phased APT)) from Accelerator Production of Tritium Power Plant and
Multipurpose Reactor for Nevada Test Site Region of Influence D-52
Table D.3-34 Changes in County, City, and School District Total Revenues and
Expenditures Over/Under No Action at Full Operation (2010) from
Tritium Supply Technologies for Nevada Test Site Region of Influence D-53
Table D.3-34a Changes in County, City, and School District Total Revenues and
Expenditures Over/Under No Action at Full Operation (2010) from Accelerator
Production of Tritium Power Plant and Multipurpose Reactor for Nevada Test
Site Region of Influence D-54
Table D.3-35 Changes in County, City, and School District Total Revenues and
Expenditures Over/Under No Action During Peak Construction (2005 (2003 for
Phased APT)) from Tritium Supply Technologies and Recycling for Nevada
Test Site Region of Influence D-55
Table D.3-35a Changes in County, City, and School District Total Revenues and
Expenditures Over/Under No Action During Peak Construction (2005 (2003 for
Phased APT)) from Accelerator Production of Tritium Power Plant and
Multipurpose Reactor for Nevada Test Site Region of Influence D-56
Table D.3-36 Changes in County, City, and School District Total Revenues and
Expenditures Over/Under No Action at Full Operation (2010) from Tritium
Supply Technologies and Recycling for Nevada Test Site Region of Influence D-57
Table D.3-36a Changes in County, City, and School District Total Revenues and
Expenditures Over/Under No Action at Full Operation (2010) from Accelerator
Production of Tritium Power Plant and Multipurpose Reactor for Nevada Test
Site Region of Influence D-58
Table D.3-37 Distribution of Employees by Place of Residence for Oak Ridge Reservation,
1990 D-59
Table D.3-38 Employment and Local Economy Statistics for Oak Ridge Reservation Regional
Economic Area, 1970-2020 D-59
Table D.3-39 Changes in Total Employment, Unemployment Rate, and Per Capita Income
During Peak Construction (2005 (2003 for Phased APT)) and Full Operation
(2010) from Tritium Supply Technologies for Oak Ridge Reservation Regional
Economic Area D-60
Table D.3-39a Changes in Total Employment, Unemployment Rate, and Per Capita Income
During Peak Construction (2005 (2003 for Phased APT)) and Full Operation
(2010) from Accelerator Production of Tritium Power Plant and Multipurpose
Reactor for Oak Ridge Reservation Regional Economic Area D-61
Table D.3-40 Changes in Total Employment, Unemployment Rate, and Per Capita Income
During Peak Construction (2005 (2003 for Phased APT)) and Full Operation
(2010) from Tritium Supply Technologies and Recycling for Oak Ridge
Reservation Regional Economic Area D-61
Table D.3-40a Changes in Total Employment, Unemployment Rate, and Per Capita Income
During Peak Construction (2005 (2003 for Phased APT)) and Full Operation
(2010) from Accelerator Production of Tritium Power Plant and Multipurpose
Reactor for Oak Ridge Reservation Regional Economic Area D-62
Table D.3-41 Population for Oak Ridge Reservation Region of Influence, 1970-2020 D-62
Table D.3-42 Changes in Population During Peak Construction (2005 (2003 for Phased APT))
and Full Operation (2010) from Tritium Supply Technologies for Oak Ridge
Reservation Region of Influence D-63
Table D.3-42a Changes in Population During Peak Construction (2005 (2003 for Phased APT))
and Full Operation (2010) from Accelerator Production of Tritium Power
Plant and Multipurpose Reactor for Oak Ridge Reservation Region of Influence D-64
Table D.3-43 Changes in Population During Peak Construction (2005 (2003 for Phased APT))
and Full Operation (2010) from Tritium Supply Technologies and Recycling for
Oak Ridge Reservation Region of Influence D-65
Table D.3-43a Changes in Population During Peak Construction (2005 (2003 for Phased APT))
and Full Operation (2010) from Accelerator Production of Tritium Power
Plant and Multipurpose Reactor for Oak Ridge Reservation Region of Influence D-66
Table D.3-44 Total Housing Units for Oak Ridge Reservation Region of Influence,
1970-2020 D-67
Table D.3-45 Changes in Housing Demands During Peak Construction (2005 (2003 for
Phased APT)) and Full Operation (2010) from Tritium Supply Technologies for
Oak Ridge Reservation Region of Influence D-68
Table D.3-45a Changes in Housing Demands During Peak Construction (2005 (2003 for
Phased APT)) and Full Operation (2010) from Accelerator Production of
Tritium Power Plant and Multipurpose Reactor for Oak Ridge Reservation
Region of Influence D-69
Table D.3-46 Changes in Housing Demands During Peak Construction (2005 (2003 for
Phased APT)) and Full Operation (2010) from Tritium Supply Technologies
and Recycling for Oak Ridge Reservation Region of Influence D-70
Table D.3-46a Changes in Housing Demands During Peak Construction (2005 (2003 for
Phased APT)) and Full Operation (2010) from Accelerator Production of
Tritium Power Plant and Multipurpose Reactor for Oak Ridge Reservation
Region of Influence D-71
Table D.3-47 County and City Revenues and Expenditures for Oak Ridge Reservation
Region of Influence, 1992 D-72
Table D.3-48 Changes in County, City, and School District Total Revenues and
Expenditures Over/Under No Action During Peak Construction (2005 (2003 for
Phased APT)) from Tritium Supply Technologies for Oak Ridge Reservation
Region of Influence D-73
Table D.3-48a Changes in County, City, and School District Total Revenues and
Expenditures Over/Under No Action During Peak Construction (2005 (2003 for
Phased APT)) from Accelerator Production of Tritium Power Plant and
Multipurpose Reactor for Oak Ridge Reservation Region of Influence D-74
Table D.3-49 Changes in County, City, and School District Total Revenues and E
xpenditures Over/Under No Action at Full Operation (2010) from Tritium
Supply Technologies for Oak Ridge Reservation Region of Influence D-75
Table D.3-49a Changes in County, City, and School District Total Revenues and
Expenditures Over/Under No Action at Full Operation (2010) from Accelerator
Production of Tritium Power Plant and Multipurpose Reactor for Oak Ridge
Reservation Region of Influence D-76
Table D.3-50 Changes in County, City, and School District Total Revenues and
Expenditures Over/Under No Action During Peak Construction (2005 (2003 for
Phased APT)) from Tritium Supply Technologies and Recycling for Oak
Ridge Reservation Region of Influence D-77
Table D.3-50a Changes in County, City, and School District Total Revenues and
Expenditures Over/Under No Action During Peak Construction (2005 (2003 for
Phased APT)) from Accelerator Production of Tritium Power Plant and
Multipurpose Reactor for Oak Ridge Reservation Region of Influence D-78
Table D.3-51 Changes in County, City, and School District Total Revenues and
Expenditures Over/Under No Action at Full Operation (2010) from
Tritium Supply Technologies and Recycling for Oak Ridge Reservation
Region of Influence D-79
Table D.3-51a Changes in County, City, and School District Total Revenues and
Expenditures Over/Under No Action at Full Operation (2010) from Accelerator
Production of Tritium Power Plant and Multipurpose Reactor for Oak Ridge
Reservation Region of Influence D-80
Table D.3-52 Distribution of Employees by Place of Residence for Pantex Plant, 1991 D-81
Table D.3-53 Employment and Local Economy Statistics for Pantex Plant Regional
Economic Area, 1970-2020 D-81
Table D.3-54 Changes in Total Employment, Unemployment Rate, and Per Capita Income
During Peak Construction (2005 (2003 for Phased APT)) and Full Operation
(2010) from Tritium Supply Technologies for Pantex Plant Regional
Economic Area D-82
Table D.3-54a Changes in Total Employment, Unemployment Rate, and Per Capita Income
During Peak Construction (2005 (2003 for Phased APT)) and Full Operation
(2010) from Accelerator Production of Tritium Power Plant and Multipurpose
Reactor for Pantex Plant Regional Economic Area D-82
Table D.3-55 Changes in Total Employment, Unemployment Rate, and Per Capita Income
During Peak Construction (2005 (2003 for Phased APT)) and Full Operation
(2010) from Tritium Supply Technologies and Recycling for Pantex Plant
Regional Economic Area D-83
Table D.3-55a Changes in Total Employment, Unemployment Rate, and Per Capita Income
During Peak Construction (2005 (2003 for Phased APT)) and Full Operation
(2010) from Accelerator Production of Tritium Power Plant and Multipurpose
Reactor for Pantex Plant Regional Economic Area D-83
Table D.3-56 Population for Pantex Plant Region of Influence, 1970-2020 D-84
Table D.3-57 Changes in Population During Peak Construction (2005 (2003 for Phased APT))
and Full Operation (2010) from Tritium Supply Technologies for Pantex Plant
Region of Influence D-84
Table D.3-57a Changes in Population During Peak Construction (2005 (2003 for Phased APT))
and Full Operation (2010) from Accelerator Production of Tritium Power
Plant and Multipurpose Reactor for Pantex Plant Region of Influence D-85
Table D.3-58 Changes in Population During Peak Construction (2005 (2003 for Phased APT))
and Full Operation (2010) from Tritium Supply Technologies and Recycling
for Pantex Plant Region of Influence D-86
Table D.3-58a Changes in Population During Peak Construction (2005 (2003 for Phased APT))
and Full Operation (2010) from Accelerator Production of Tritium Power
Plant and Multipurpose Reactor for Pantex Plant Region of Influence D-87
Table D.3-59 Total Housing Units for Pantex Plant Region of Influence, 1970-2020 D-87
Table D.3-60 Changes to Housing Demands During Peak Construction (2005 (2003 for
Phased APT)) and Full Operation (2010) from Tritium Supply Technologies
for Pantex Plant Region of Influence D-88
Table D.3-60a Changes to Housing Demands During Peak Construction (2005 (2003 for Phased
APT)) and Full Operation (2010) from Accelerator Production of Tritium Power
Plant and Multipurpose Reactor for Pantex Plant Region of Influence D-89
Table D.3-61 Changes in Housing Demands During Peak Construction (2005 (2003 for Phased
APT)) and Full Operation (2010) from Tritium Supply Technologies and
Recycling for Pantex Plant Region of Influence D-89
Table D.3-61a Changes in Housing Demands During Peak Construction (2005 (2003 for Phased
APT)) and Full Operation (2010) from Accelerator Production of Tritium Power
Plant and Multipurpose Reactor for Pantex Plant Region of Influence D-90
Table D.3-62 County and City Revenues and Expenditures for Pantex Plant Region
of Influence, 1992 D-90
Table D.3-63 School District Revenues and Expenditures for Pantex Plant Region
of Influence, 1992 D-91
Table D.3-64 Changes in County and City Total Revenues and Expenditures Over/Under
No Action During Peak Construction (2005 (2003 for Phased APT)) from
Tritium Supply Technologies for Pantex Plant Region of Influence D-92
Table D.3-64a Changes in County and City Total Revenues and Expenditures Over/Under
No Action During Peak Construction (2005 (2003 for Phased APT)) from
Accelerator Production of Tritium Power Plant and Multipurpose Reactor for
Pantex Plant Region of Influencee D-93
Table D.3-65 Changes in County and City Total Revenues and Expenditures Over/Under
No Action at Full Operation (2010) from Tritium Supply Technologies for
Pantex Plant Region of Influence D-94
Table D.3-65a Changes in County and City Total Revenues and Expenditures Over/Under
No Action at Full Operation (2010) from Accelerator Production of Tritium
Power Plant and Multipurpose Reactor for Pantex Plant Region of Influence D-95
Table D.3-66 Changes in School District Total Revenues and Expenditures Over/Under
No Action During Peak Construction (2005 (2003 for Phased APT)) from
Tritium Supply Technologies for Pantex Plant Region of Influence D-96
Table D.3-66a Changes in School District Total Revenues and Expenditures Over/Under
No Action During Peak Construction (2005 (2003 for Phased APT)) from
Accelerator Production of Tritium Power Plant and Multipurpose Reactor for
Pantex Plant Region of Influence D-97
Table D.3-67 Changes in School District Total Revenues and Expenditures Over/Under No
Action at Full Operation (2010) from Tritium Supply Technologies for Pantex
Plant Region of Influence D-98
Table D.3-67a Changes in School District Total Revenues and Expenditures Over/Under
No Action at Full Operation (2010) from Accelerator Production of Tritium
Power Plant and Multipurpose Reactor for Pantex Plant Region of Influence D-99
Table D.3-68 Changes in County and City Total Revenues and Expenditures Over/Under No
Action During Peak Construction (2005 (2003 for Phased APT)) from Tritium
Supply Technologies and Recycling for Pantex Plant Region of Influence D-100
Table D.3-68a Changes in County and City Total Revenues and Expenditures Over/Under No
Action During Peak Construction (2005 (2003 for Phased APT)) from
Accelerator Production of Tritium Power Plant and Multipurpose Reactor for
Pantex Plant Region of Influence D-101
Table D.3-69 Changes in County and City Total Revenues and Expenditures Over/Under No
Action at Full Operation (2010) from Tritium Supply Technologies and
Recycling for Pantex Plant Region of Influence D-102
Table D.3-69a Changes in County and City Total Revenues and Expenditures Over/Under No
Action at Full Operation (2010) from Accelerator Production of Tritium Power
Plant and Multipurpose Reactor for Pantex Plant Region of Influence D-103
Table D.3-70 Changes in School District Total Revenues and Expenditures Over/Under No
Action During Peak Construction (2005 (2003 for Phased APT)) from Tritium
Supply Technologies and Recycling for Pantex Plant Region of Influence D-104
Table D.3-70a Changes in School District Total Revenues and Expenditures Over/Under
No Action During Peak Construction (2005 (2003 for Phased APT)) from
Accelerator Production of Tritium Power Plant and Multipurpose Reactor
for Pantex Plant Region of Influence D-105
Table D.3-71 Changes in School District Total Revenues and Expenditures Over/Under
No Action at Full Operation (2010) from Tritium Supply Technologies and
Recycling for Pantex Plant Region of Influence D-106
Table D.3-71a Changes in School District Total Revenues and Expenditures Over/Under
No Action at Full Operation (2010) from Accelerator Production of Tritium
Power Plant and Multipurpose Reactor for Pantex Plant Region of Influence D-107
Table D.3-72 Distribution of Employees by Place of Residence for Savannah River Site,
1991 D-107
Table D.3-73 Employment and Local Economy Statistics for Savannah River Site Regional
Economic Area, 1970-2020 D-108
Table D.3-74 Changes in Total Employment, Unemployment Rate, and Per Capita Income
During Peak Construction (2005 (2003 Phased APT)) and Full Operation
(2010) from Tritium Supply Technologies and Recycling Upgrade and
Phaseout for Savannah River Site Regional Economic Area D-108
Table D.3-74a Changes in Total Employment, Unemployment Rate, and Per Capita
Income During Peak Construction (2005 (2003 Phased APT)) and Full
Operation (2010) from Accelerator Production of Tritium Power Plant
and Multipurpose Reactor Upgrade and Phaseout for Savannah River Site
Regional Economic Area D-109
Table D.3-75 Population for Savannah River Site Region of Influence, 1970-2020 D-109
Table D.3-76 Changes in Population During Peak Construction (2005 (2003 for Phased APT))
and Full Operation (2010) from Tritium Supply Technologies and Recycling
Upgrade and Phaseout for Savannah River Site Region of Influence D-110
Table D.3-76a Changes in Population During Peak Construction (2005 (2003 for Phased APT))
and Full Operation (2010) from Accelerator Production of Tritium Power Plant
and Multipurpose Reactor Upgrade and Phaseout for Savannah River Site
Region of Influence D-111
Table D.3-77 Total Housing Units for Savannah River Site Region of Influence,
1970-2020 D-111
Table D.3-78 Changes in Housing Demands During Peak Construction (2005 (2003
for Phased APT)) and Full Operation (2010) from Tritium Supply
Technologies and Recycling Upgrade and Phaseout for Savannah River
Site Region of Influence D-112
Table D.3-78a Changes in Housing Demands During Peak Construction (2005 (2003 for
Phased APT)) and Full Operation (2010) from Accelerator Production of
Tritium Power Plant and Multipurpose Reactor Upgrade and Phaseout for
Savannah River Site Region of Influence D-113
Table D.3-79 County and City Revenues and Expenditures for Savannah River Site Region
of Influence, 1992 D-114
Table D.3-80 School District Revenues and Expenditures for Savannah River Site Region
of Influence, 1992 D-115
Table D.3-81 Changes in County and City Total Revenues and Expenditures Over/Under
No Action During Peak Construction (2005 (2003 for Phased APT)) from
Tritium Supply Technologies and Recycling Upgrade for Savannah River Site
Region of Influence D-116
Table D.3-81a Changes in County and City Total Revenues and Expenditures Over/Under
No Action During Peak Construction (2005 (2003 for Phased APT)) from
Accelerator Production of Tritium Power Plant and Multipurpose Reactor
Upgrade for Savannah River Site Region of Influence D-117
Table D.3-82 Changes to County and City Total Revenues and Expenditures Over/Under
No Action at Full Operation (2010) from Tritium Supply Technologies and
Recycling Upgrade and Phaseout for Savannah River Site Region of Influence D-118
Table D.3-82a Changes to County and City Total Revenues and Expenditures Over/Under
No Action at Full Operation (2010) from Accelerator Production of Tritium
Power Plant and Multipurpose Reactor Upgrade and Phaseout for Savannah
River Site Region of Influence D-119
Table D.3-83 Changes in School District Total Revenues and Expenditures Over/Under
No Action During Peak Construction (2005 (2003 for Phased APT)) from
Tritium Supply Technologies and Recycling Upgrade for Savannah River Site
Region of Influence D-120
Table D.3-83a Changes in School District Total Revenues and Expenditures Over/Under
No Action During Peak Construction (2005 (2003 for Phased APT)) from
Accelerator Production of Tritium Power Plant and Multipurpose Reactor
Upgrade for Savannah River Site Region of Influence D-121
Table D.3-84 Changes in School District Total Revenues and Expenditures Over/Under
No Action at Full Operation (2010) from Tritium Supply Technologies and
Recycling Upgrade and Phaseout for Savannah River Site Region of Influence D-122
Table D.3-84a Changes in School District Total Revenues and Expenditures Over/Under
No Action at Full Operation (2010) from Accelerator Production of Tritium
Power Plant and Multipurpose Reactor Upgrade and Phaseout for Savannah
River Site Region of Influence D-123
Table E.2.1.2-1 Lifetime Risks per 100,000 Persons Exposed to a Single Exposure
of 10 Rem E-6
Table E.2.2.2-1 GENII Exposure Parameters to Plumes and Soil Contamination E-11
Table E.2.2.2-2 GENII Usage Parameters for Consumption of Terrestrial Food E-11
Table E.2.2.2-3 GENII Usage Parameters for Consumption of Animal Products E-12
Table E.2.2.2-4 GENII Usage Parameters for Aquatic Activities E-12
Table E.2.3-1 Estimated Annual In-Plant Worker Doses and Resulting Health Effects for
Various Tritium Supply Technologies and Recycling Facilities E-14
Table E.2.3.1-1 Annual Radioactive Releases During Normal Operation from Heavy Water
Reactor (curies) E-15
Table E.2.3.2-1 Annual Atmospheric Radioactive Releases from Modular High Temperature
Gas-Cooled Reactor (curies) E-16
Table E.2.3.3.1-1 Annual Liquid and Atmospheric Radioactive Releases from Large Advanced
Light Water Reactor (Advanced Boiling Water Reactor) (curies) E-17
Table E.2.3.3.1-2 Annual Liquid and Atmospheric Radioactive Releases from Large Advanced
Light Water Reactor (CE System 80+ Reactor) (curies) E-18
Table E.2.3.3.2-1 Annual Liquid and Atmospheric Radioactive Releases from Small Advanced
Light Water Reactor (Simplified Boiling Water Reactor) (curies) E-19
Table E.2.3.3.2-2 Annual Liquid and Atmospheric Radioactive Releases from Small Advanced
Light Water Reactor (AP600 Reactor) (curies) E-20
Table E.2.3.4-1 Annual Atmospheric Releases from Accelerator Production of Tritium
During Normal Operation (curies) E-21
Table E.2.3.5-1 Annual Atmospheric Releases of Tritium from Various Tritium Target
Extraction Facilities for Tritium Supply Technologies (curies) E-21
Table E.2.4-1 Release Point Characteristics, Direction, Distance, and Chi/Q at Idaho
National Engineering Laboratory Boundary E-26
Table E.2.4-2 Direction, Distance, and Meteorological Dispersion to Various Maximum
Individual Receptors at Idaho National Engineering Laboratory Site Boundary E-27
Table E.2.4.1-1 Annual Atmospheric Radioactive Releases from Normal Operation of No Action
at Idaho National Engineering Laboratory (curies) E-28
Table E.2.4.1-2 Doses and Resulting Health Effect to the Maximally Exposed Individual
Resulting from Normal Operation at Idaho National Engineering Laboratory E-29
Table E.2.4.1-3 Doses and Resulting Health Effect to the Population Within 50 Miles
Resulting from Normal Operation at Idaho National Engineering Laboratory E-30
Table E.2.5-1 Release Point Characteristics, Direction, Distance, and Chi/Q at Nevada
Test Site Boundary E-34
Table E.2.5-2 Direction, Distance, and Meteorological Dispersion to Various Maximum
Individual Receptors at Nevada Test Site Boundary E-36
Table E.2.5.1-1 Estimated Annual Atmospheric Radioactive Releases from Normal Operation
of No Action at Nevada Test Site (curies) E-38
Table E.2.5.1-2 Doses and Resulting Health Effect to the Maximally Exposed Individual
Resulting from Normal Operation at Nevada Test Site E-39
Table E.2.5.1-3 Doses and Resulting Health Effect to the Population Within 50 Miles
Resulting from Normal Operation at Nevada Test Site E-40
Table E.2.6-1 Release Point Characteristics, Direction, Distance, and Chi/Q at Oak Ridge
Reservation Boundary E-44
Table E.2.6-2 Direction, Distance, and Meteorological Dispersion to Various Maximum
Individual Receptors at Oak Ridge Reservation Site Boundary E-46
Table E.2.6.1-1 Annual Atmospheric Radioactive Releases from Normal Operation of No Action
at Oak Ridge Reservation (curies) E-47
Table E.2.6.1-2 Doses and Resulting Health Effect to the Maximally Exposed Individual
from Atmospheric Releases Associated with Normal Operation at Oak Ridge
Reservation E-49
Table E.2.6.1-3 Doses and Resulting Health Effect to the Population Within 50 Miles
of Oak Ridge Reservation from Atmospheric Releases Associated with
Normal Operation E-50
Table E.2.6.1-4 Annual Liquid Releases from Normal Operation of No Action at Oak Ridge
Reservation (curies) E-51
Table E.2.6.1-5 Doses and Resulting Health Effect to the Maximally Exposed Individual
at Oak Ridge Reservation from Liquid Releases Associated with Normal
Operation E-52
Table E.2.6.1-6 Doses and Resulting Health Effects to the Population Downstream of Liquid
Releases Associated with Normal Operation at Oak Ridge Reservation E-53
Table E.2.7-1 Release Point Characteristics, Direction, Distance and Chi/Q at Pantex Plant
Boundary E-57
Table E.2.7-2 Direction, Distance, and Meteorological Dispersion to Various Maximum
Individual Receptors at the Pantex Site Boundary E-58
Table E.2.7.1-1 Estimated Annual Atmospheric Radioactive Releases from Normal Operation
of No Action at Pantex Plant (curies) E-58
Table E.2.7.1-2 Doses and Resulting Health Effect to the Maximally Exposed Individual
Resulting from Normal Operation at Pantex Plant E-59
Table E.2.7.1-3 Doses and Resulting Health Effect to the Population Within 50 Miles
Resulting from Normal Operation of Pantex Plant E-60
Table E.2.8-1 Release Point Characteristics, Direction, Distance, and Chi/Q at Savannah
River Site Boundary E-64
Table E.2.8-2 Direction, Distance, and Meteorological Dispersion to Various Maximum
Individual Receptors at Savannah River Site Boundary E-66
Table E.2.8.1-1 Annual Atmospheric Radioactive Releases from Normal Operation of
No Action at Savannah River Site (curies) E-68
Table E.2.8.1-2 Annual Atmospheric Radioactive Releases from Waste Management Facilities
During Normal Operation of No Action at Savannah River Site (curies) E-69
Table E.2.8.1-3 Doses and Resulting Health Effect to Maximally Exposed Individual from
Atmospheric Releases Associated with Normal Operation at Savannah
River Site E-70
Table E.2.8.1-4 Doses and Resulting Health Effect to the Population Within 50 Miles of
Savannah River Site from Atmospheric Releases Associated with Normal
Operation E-71
Table E.2.8.1-5 Annual Liquid Radioactive Releases from Normal Operation of No Action
at Savannah River Site (curies) E-72
Table E.2.8.1-6 Doses and Resulting Health Effect to the Maximally Exposed Member of the
Public from Liquid Releases Associated with Normal Operation at Savannah
River Site E-73
Table E.2.8.1-7 Doses and Resulting Health Effect to the Population from Liquid Releases
Associated with Normal Operation Downstream of Savannah River Site E-74
Table E.3.2-1 Chemical Toxicity Profiles E-77
Table E.3.3-1 Regulated Exposure Limits E-90
Table E.3.4-1 Risk Assessments from Exposure to Hazardous Chemicals from No Action
Operation at Idaho National Engineering Laboratory E-99
Table E.3.4-2 Risk Assessments from Exposure to Hazardous Chemicals from Heavy
Water Reactor Operation at Idaho National Engineering Laboratory E-101
Table E.3.4-3 Risk Assessments from Exposure to Hazardous Chemicals from Modular
High Temperature Gas-Cooled Reactor Operation at Idaho National
Engineering Laboratory E-102
Table E.3.4-4 Risk Assessments from Exposure to Hazardous Chemicals from Advanced
Light Water Reactor Operation at Idaho National Engineering Laboratory E-103
Table E.3.4-5 Risk Assessments from Exposure to Hazardous Chemicals from Accelerator
Production of Tritium Operation at Idaho National Engineering Laboratory E-104
Table E.3.4-6 Risk Assessments from Exposure to Hazardous Chemicals from Tritium
Recycling Operation at Idaho National Engineering Laboratory E-105
Table E.3.4-7 Risk Assessments from Exposure to Hazardous Chemicals at Idaho National
Engineering Laboratory-Summary Hazard Index and Total Cancer Risk E-106
Table E.3.4-8 Risk Assessments from Exposure to Hazardous Chemicals from No Action
Operation at Nevada Test Site E-107
Table E.3.4-9 Risk Assessments from Exposure to Hazardous Chemicals from Heavy
Water Reactor Operation at Nevada Test Site E-108
Table E.3.4-10 Risk Assessments from Exposure to Hazardous Chemicals Modular High
Temperature Gas-Cooled Reactor Operation at Nevada Test Site E-109
Table E.3.4-11 Risk Assessments from Exposure to Hazardous Chemicals from Advanced
Light Water Reactor Operation at Nevada Test Site E-110
Table E.3.4-12 Risk Assessments from Exposure to Hazardous Chemicals from Accelerator
Production of Tritium Operation at Nevada Test Site E-111
Table E.3.4-13 Risk Assessments from Exposure to Hazardous Chemicals from Tritium
Recycling Operation at Nevada Test Site E-112
Table E.3.4-14 Risk Assessments from Exposure to Hazardous Chemicals at Nevada Test
Site- Summary Hazard Index and Total Cancer Risk E-113
Table E.3.4-15 Risk Assessments from Exposure to Hazardous Chemicals from No Action
Operation at Oak Ridge Reservation E-114
Table E.3.4-16 Risk Assessments from Exposure to Hazardous Chemicals from Heavy
Water Reactor Operation at Oak Ridge Reservation E-115
Table E.3.4-17 Risk Assessments from Exposure to Hazardous Chemicals from Modular
High Temperature Gas-Cooled Reactor Operation at Oak Ridge Reservation E-116
Table E.3.4-18 Risk Assessments from Exposure to Hazardous Chemicals from Advanced
Light Water Reactor Operation at Oak Ridge Reservation E-117
Table E.3.4-19 Risk Assessments from Exposure to Hazardous Chemicals from Accelerator
Production of Tritium Operation at Oak Ridge Reservation E-118
Table E.3.4-20 Risk Assessments from Exposure to Hazardous Chemicals from Tritium
Recycling Operation at Oak Ridge Reservation E-119
Table E.3.4-21 Risk Assessments from Exposure to Hazardous Chemicals at Oak Ridge
Reservation-Summary Hazard Index and Total Cancer Risk E-120
Table E.3.4-22 Risk Assessments from Exposure to Hazardous Chemicals from No Action
Operation at Pantex Plant E-121
Table E.3.4-23 Risk Assessments from Exposure to Hazardous Chemicals from Heavy
Water Reactor Operation at Pantex Plant E-124
Table E.3.4-24 Risk Assessments from Exposure to Hazardous Chemicals from Modular
High Temperature Gas-Cooled Reactor Operation at Pantex Plant E-125
Table E.3.4-25 Risk Assessments from Exposure to Hazardous Chemicals from Advanced
Light Water Reactor Operation at Pantex Plant E-126
Table E.3.4-26 Risk Assessments from Exposure to Hazardous Chemicals from Accelerator
Production of Tritium Operation at Pantex Plant E-127
Table E.3.4-27 Risk Assessments from Exposure to Hazardous Chemicals from Tritium
Recycling Operation at Pantex Plant E-128
Table E.3.4-28 Risk Assessments from Exposure to Hazardous Chemicals at Pantex
Plant-Summary Hazard Index and Total Cancer Risk E-129
Table E.3.4-29 Risk Assessments from Exposure to Hazardous Chemicals from No Action
Operation at Savannah River Site E-130
Table E.3.4-30 Risk Assessments from Exposure to Hazardous Chemicals from Heavy
Water Reactor Operation at Savannah River Site E-132
Table E.3.4-31 Risk Assessments from Exposure to Hazardous Chemicals from Modular
High Temperature Gas-Cooled Reactor Operation at Savannah River Site E-133
Table E.3.4-32 Risk Assessments from Exposure to Hazardous Chemicals from Advanced
Light Water Reactor at Savannah River Site E-134
Table E.3.4-33 Risk Assessments from Exposure to Hazardous Chemicals from Accelerator
Production of Tritium Operation at Savannah River Site E-135
Table E.3.4-34 Risk Assessments from Exposure to Hazardous Chemicals from Tritium
Recycling Upgrade Operation at Savannah River Site E-136
Table E.3.4-35 Risk Assessments from Exposure to Hazardous Chemicals from Tritium
Recycling Phaseout Function at Savannah River Site E-137
Table E.3.4-36 Risk Assessments from Exposure to Hazardous Chemicals at Savannah
River Site-Summary Hazard Index and Total Cancer Risk E-139
Table F.2.1.1-1 Heavy Water Reactor High Consequence Accident Source Terms F-6
Table F.2.1.1-2 Heavy Water Reactor High Consequence Accidents at Idaho National
Engineering Laboratory-Public Consequences F-11
Table F.2.1.1-3 Heavy Water Reactor High Consequence Accidents at Nevada Test
Site-Public Consequences F-11
Table F.2.1.1-4 Heavy Water Reactor High Consequence Accidents at Oak Ridge
Reservation-Public Consequences F-12
Table F.2.1.1-5 Heavy Water Reactor High Consequence Accidents at Pantex
Plant-Public Consequences F-12
Table F.2.1.1-6 Heavy Water Reactor High Consequence Accidents at Savannah River
Site-Public Consequences F-13
Table F.2.1.1-7 Heavy Water Reactor High Consequence Accidents at Idaho National
Engineering Laboratory-Worker Consequences F-13
Table F.2.1.1-8 Heavy Water Reactor High Consequence Accidents at Nevada Test
Site-Worker Consequences F-14
Table F.2.1.1-9 Heavy Water Reactor High Consequence Accidents at Oak Ridge
Reservation-Worker Consequences F-14
Table F.2.1.1-10 Heavy Water Reactor High Consequence Accidents at Pantex
Plant-Worker Consequences F-15
Table F.2.1.1-11 Heavy Water Reactor High Consequence Accidents at Savannah River
Site-Worker Consequences F-15
Table F.2.1.2-1 Modular High Temperature Gas-Cooled Reactor High Consequence Accident
Source Terms F-18
Table F.2.1.2-2 Modular High Temperature Gas-Cooled Reactor High Consequence Accidents
at Idaho National Engineering Laboratory-Public Consequences F-20
Table F.2.1.2-3 Modular High Temperature Gas-Cooled Reactor High Consequence Accidents
at Nevada Test Site-Public Consequences F-20
Table F.2.1.2-4 Modular High Temperature Gas-Cooled Reactor High Consequence Accidents
at Oak Ridge Reservation-Public Consequences F-21
Table F.2.1.2-5 Modular High Temperature Gas-Cooled Reactor High Consequence Accidents
at Pantex Plant-Public Consequences F-21
Table F.2.1.2-6 Modular High Temperature Gas-Cooled Reactor High Consequence Accidents
at Savannah River Site-Public Consequences F-22
Table F.2.1.2-7 Modular High Temperature Gas-Cooled Reactor High Consequence Accidents
at Idaho National Engineering Laboratory-Worker Consequences F-22
Table F.2.1.2-8 Modular High Temperature Gas-Cooled Reactor High Consequence Accidents
at Nevada Test Site-Worker Consequences F-23
Table F.2.1.2-9 Modular High Temperature Gas-Cooled Reactor High Consequence Accidents
at Oak Ridge Reservation-Worker Consequences F-23
Table F.2.1.2-10 Modular High Temperature Gas-Cooled Reactor High Consequence Accidents
at Pantex Plant-Worker Consequences F-24
Table F.2.1.2-11 Modular High Temperature Gas-Cooled Reactor High Consequence Accidents
at Savannah River Site-Worker Consequences F-24
Table F.2.1.3.1-1 Advanced Boiling Water Reactor High Consequence Accident Source
Terms F-27
Table F.2.1.3.1-2 Advanced Boiling Water Reactor High Consequence Accidents at Idaho
National Engineering Laboratory-Public Consequences F-28
Table F.2.1.3.1-3 Advanced Boiling Water Reactor High Consequence Accidents at Nevada
Test Site-Public Consequences F-28
Table F.2.1.3.1-4 Advanced Boiling Water Reactor High Consequence Accidents at Oak
Ridge Reservation-Public Consequences F-28
Table F.2.1.3.1-5 Advanced Boiling Water Reactor High Consequence Accidents at Pantex
Plant-Public Consequence F-29
Table F.2.1.3.1-6 Advanced Boiling Water Reactor High Consequence Accidents at Savannah
River Site-Public Consequences F-29
Table F.2.1.3.1-7 Advanced Boiling Water Reactor High Consequence Accidents at Idaho
National Engineering Laboratory-Worker Consequences F-29
Table F.2.1.3.1-8 Advanced Boiling Water Reactor High Consequence Accidents at
Nevada Test Site-Worker Consequences F-30
Table F.2.1.3.1-9 Advanced Boiling Water Reactor High Consequence Accidents at
Oak Ridge Reservation-Worker Consequences F-30
Table F.2.1.3.1-10 Advanced Boiling Water Reactor High Consequence Accidents at
Pantex Plant-Worker Consequences F-30
Table F.2.1.3.1-11 Advanced Boiling Water Reactor High Consequence Accidents at
Savannah River Site-Worker Consequences F-31
Table F.2.1.3.2-1 CE System 80+ Advanced Light Water Reactor High Consequence
Accident Source Terms F-34
Table F.2.1.3.2-2 CE System 80+ Advanced Light Water Reactor High Consequence
Accidents at Idaho National Engineering Laboratory-Public Consequences F-35
Table F.2.1.3.2-3 CE System 80+ Advanced Light Water Reactor High Consequence
Accidents at Nevada Test Site-Public Consequences F-35
Table F.2.1.3.2-4 CE System 80+ Advanced Light Water Reactor High Consequence
Accidents at Oak Ridge Reservation-Public Consequences F-36
Table F.2.1.3.2-5 CE System 80+ Advanced Light Water Reactor High Consequence
Accidents at Pantex Plant-Public Consequences F-36
Table F.2.1.3.2-6 CE System 80+ Advanced Light Water Reactor High Consequence
Accidents at Savannah River Site-Public Consequences F-37
Table F.2.1.3.2-7 CE System 80+ Advanced Light Water Reactor High Consequence
Accidents at Idaho National Engineering Laboratory-Worker Consequences F-37
Table F.2.1.3.2-8 CE System 80+ Advanced Light Water Reactor High Consequence
Accidents at Nevada Test Site-Worker Consequences F-38
Table F.2.1.3.2-9 CE System 80+ Advanced Light Water Reactor High Consequence
Accidents at Oak Ridge Reservation-Worker Consequences F-38
Table F.2.1.3.2-10 CE System 80+ Advanced Light Water Reactor High Consequence
Accidents at Pantex Plant-Worker Consequences F-39
Table F.2.1.3.2-11 CE System 80+ Advanced Light Water Reactor High Consequence
Accidents at Savannah River Site-Worker Consequences F-39
Table F.2.1.3.3-1 AP600 Advanced Light Water Reactor High Consequence Accident
Source Terms F-42
Table F.2.1.3.3-2 AP600 Advanced Light Water Reactor High Consequence Accidents
at Idaho National Engineering Laboratory-Public Consequences F-42
Table F.2.1.3.3-3 AP600 Advanced Light Water Reactor High Consequence Accidents at
Nevada Test Site-Public Consequences F-43
Table F.2.1.3.3-4 AP600 Advanced Light Water Reactor High Consequence Accidents at
Oak Ridge Reservation-Public Consequences F-43
Table F.2.1.3.3-5 AP600 Advanced Light Water Reactor High Consequence Accidents at
Pantex Plant-Public Consequences F-44
Table F.2.1.3.3-6 AP600 Advanced Light Water Reactor High Consequence Accidents at
Savannah River Site-Public Consequences F-44
Table F.2.1.3.3-7 AP600 Advanced Light Water Reactor High Consequence Accidents at
Idaho National Engineering Laboratory-Worker Consequences F-45
Table F.2.1.3.3-8 AP600 Advanced Light Water Reactor High Consequence Accidents at
Nevada Test Site-Worker Consequences F-45
Table F.2.1.3.3-9 AP600 Advanced Light Water Reactor High Consequence Accidents at
Oak Ridge Reservation-Worker Consequences F-46
Table F.2.1.3.3-10 AP600 Advanced Light Water Reactor High Consequence Accidents at
Pantex Plant-Worker Consequences F-46
Table F.2.1.3.3-11 AP600 Advanced Light Water Reactor High Consequence Accidents at
Savannah River Site-Worker Consequences F-47
Table F.2.1.3.4-1 Simplified Boiling Water Reactor High Consequence Accident Source
Terms F-50
Table F.2.1.3.4-2 Simplified Boiling Water Reactor High Consequence Accidents at
Idaho National Engineering Laboratory-Public Consequences F-52
Table F.2.1.3.4-3 Simplified Boiling Water Reactor High Consequence Accidents at Nevada
Test Site-Public Consequences F-52
Table F.2.1.3.4-4 Simplified Boiling Water Reactor High Consequence Accidents at
Oak Ridge Reservation-Public Consequences F-53
Table F.2.1.3.4-5 Simplified Boiling Water Reactor High Consequence Accidents at
Pantex Plant-Public Consequences F-53
Table F.2.1.3.4-6 Simplified Boiling Water Reactor High Consequence Accidents at
Savannah River Site-Public Consequences F-54
Table F.2.1.3.4-7 Simplified Boiling Water Reactor High Consequence Accidents at Idaho
National Engineering Laboratory-Worker Consequences F-54
Table F.2.1.3.4-8 Simplified Boiling Water Reactor High Consequence Accidents at
Nevada Test Site-Worker Consequences F-55
Table F.2.1.3.4-9 Simplified Boiling Water Reactor High Consequence Accidents at
Oak Ridge Reservation-Worker Consequences F-55
Table F.2.1.3.4-10 Simplified Boiling Water Reactor High Consequence Accidents at
Pantex Plant-Worker Consequences F-56
Table F.2.1.3.4-11 Simplified Boiling Water Reactor High Consequence Accidents at
Savannah River Site-Worker Consequences F-56
Table F.2.1.4.2-1 Source Term for Full Accelerator Production of Tritium with Helium-3
Target System High Consequence Accidents F-59
Table F.2.1.4.2-2 Source Term for Phased Accelerator Production of Tritium with Helium-3
Target System High Consequence Accidents F-59
Table F.2.1.4.2-3 Full Accelerator Production of Tritium with the Helium-3 Target System
High Consequence Accidents at Idaho National Engineering
Laboratory-Public Consequences F-60
Table F.2.1.4.2-4 Full Accelerator Production of Tritium with the Helium-3 Target System
High Consequence Accidents at Nevada Test Site-Public
Consequences F-60
Table F.2.1.4.2-5 Full Accelerator Production of Tritium with the Helium-3 Target System
High Consequence Accidents at Oak Ridge Reservation-Public
Consequences F-61
Table F.2.1.4.2-6 Full Accelerator Production of Tritium with the Helium-3 Target System
High Consequence Accidents at Pantex Plant-Public Consequences F-61
Table F.2.1.4.2-7 Full Accelerator Production of Tritium with the Helium-3 Target System
High Consequence Accidents at Savannah River Site-Public Consequences F-62
Table F.2.1.4.2-8 Full Accelerator Production of Tritium with the Helium-3 Target System
High Consequence Accidents at Idaho National Engineering
Laboratory-Worker Consequences F-62
Table F.2.1.4.2-9 Full Accelerator Production of Tritium with the Helium-3 Target System
High Consequence Accidents at Nevada Test Site-Worker Consequences F-63
Table F.2.1.4.2-10 Full Accelerator Production of Tritium with the Helium-3 Target System
High Consequence Accidents at Oak Ridge Reservation-Worker
Consequences F-63
Table F.2.1.4.2-11 Full Accelerator Production of Tritium with the Helium-3 Target System
High Consequence Accidents at Pantex Plant-Worker Consequences F-64
Table F.2.1.4.2-12 Full Accelerator Production of Tritium with the Helium-3 Target System
High Consequence Accidents at Savannah River Site-Worker Consequences F-64
Table F.2.1.4.2-13 Phased Accelerator Production of Tritium with the Helium-3 Target System
High Consequence Accident-Public Consequences F-65
Table F.2.1.4.2-14 Phased Accelerator Production of Tritium with the Helium-3 Target System
High Consequence Accident-Worker Consequences F-65
Table F.2.1.4.3-1 Source Term for Full Accelerator Production of Tritium with Spallation-Induced
Lithium Conversion Target System High Consequence Accident F-68
Table F.2.1.4.3-2 Full Accelerator Production of Tritium with the Spallation-Induced Lithium
Conversion Target System High Consequence Accidents at Idaho National
Engineering Laboratory-Public Consequences F-69
Table F.2.1.4.3-3 Full Accelerator Production of Tritium with the Spallation-Induced Lithium
Conversion Target System High Consequence Accidents at Nevada
Test Site-Public Consequences F-69
Table F.2.1.4.3-4 Full Accelerator Production of Tritium with the Spallation-Induced
Lithium Conversion Target System High Consequence Accidents at Oak Ridge
Reservation-Public Consequences F-70
Table F.2.1.4.3-5 Full Accelerator Production of Tritium with the Spallation-Induced
Lithium Conversion Target System High Consequence Accidents at Pantex
Plant-Public Consequences F-70
Table F.2.1.4.3-6 Full Accelerator Production of Tritium with the Spallation-Induced Lithium
Conversion Target System High Consequence Accidents at Savannah
River Site-Public Consequences F-71
Table F.2.1.4.3-7 Full Accelerator Production of Tritium with the Spallation-Induced Lithium
Conversion Target System High Consequence Accidents at Idaho National
Engineering Laboratory-Worker Consequences F-71
Table F.2.1.4.3-8 Full Accelerator Production of Tritium with the Spallation-Induced Lithium
Conversion Target System High Consequence Accidents at Nevada
Test Site-Worker Consequences F-72
Table F.2.1.4.3-9 Full Accelerator Production of Tritium with the Spallation-Induced Lithium
Conversion Target System High Consequence Accidents at Oak Ridge
Reservation-Worker Consequences F-72
Table F.2.1.4.3-10 Full Accelerator Production of Tritium with the Spallation-Induced Lithium
Conversion Target System High Consequence Accidents at Pantex
Plant-Worker Consequences F-73
Table F.2.1.4.3-11 Full Accelerator Production of Tritium with the Spallation-Induced Lithium
Conversion Target System High Consequence Accidents at Savannah
River Site-Worker Consequences F-73
Table F.2.1.5.2-1 Multipurpose Reactor Fuel Fabrication High Consequence Accident Source
Terms F-77
Table F.2.1.5.2-2 Isotopic Distribution for a Plutonium Release F-77
Table F.2.1.5.2-3 Multipurpose Reactor Fuel Fabrication High Consequence Accidents at Idaho
National Engineering Laboratory-Public Consequences F-78
Table F.2.1.5.2-4 Multipurpose Reactor Fuel Fabrication High Consequence Accidents at
Nevada Test Site-Public Consequences F-78
Table F.2.1.5.2-5 Multipurpose Reactor Fuel Fabrication High Consequence Accidents at
Oak Ridge Reservation-Public Consequences F-79
Table F.2.1.5.2-6 Multipurpose Reactor Fuel Fabrication High Consequence Accidents at
Pantex Plant-Public Consequences F-79
Table F.2.1.5.2-7 Multipurpose Reactor Fuel Fabrication High Consequence Accidents at
Savannah River Site-Public Consequences F-80
Table F.2.1.5.2-8 Multipurpose Reactor Fuel Fabrication High Consequence Accidents at
Idaho National Engineering Laboratory-Worker Consequences F-80
Table F.2.1.5.2-9 Multipurpose Reactor Fuel Fabrication High Consequence Accidents at
Nevada Test Site-Worker Consequences F-81
Table F.2.1.5.2-10 Multipurpose Reactor Fuel Fabrication High Consequence Accidents at
Oak Ridge Reservation-Worker Consequences F-81
Table F.2.1.5.2-11 Multipurpose Reactor Fuel Fabrication High Consequence Accidents at
Pantex Plant-Worker Consequences F-82
Table F.2.1.5.2-12 Multipurpose Reactor Fuel Fabrication High Consequence Accidents at
Savannah River Site-Worker Consequences F-82
Table F.2.1.5.3-1 Pit Disassembly and Conversion High Consequence Accident Source
Terms F-86
Table F.2.1.5.3-2 Pit Disassembly and Conversion High Consequence Accidents at Idaho
National Engineering Laboratory-Public Consequences F-87
Table F.2.1.5.3-3 Pit Disassembly and Conversion High Consequence Accidents at
Nevada Test Site-Public Consequences F-87
Table F.2.1.5.3-4 Pit Disassembly and Conversion High Consequence Accidents at
Oak Ridge Reservation-Public Consequences F-88
Table F.2.1.5.3-5 Pit Disassembly and Conversion High Consequence Accidents at
Pantex Plant-Public Consequences F-88
Table F.2.1.5.3-6 Pit Disassembly and Conversion High Consequence Accidents at Savannah
River Site-Public Consequences F-89
Table F.2.1.5.3-7 Pit Disassembly and Conversion High Consequence Accidents at Idaho
National Engineering Laboratory-Worker Consequences F-89
Table F.2.1.5.3-8 Pit Disassembly and Conversion High Consequence Accidents at
Nevada Test Site-Worker Consequences F-90
Table F.2.1.5.3-9 Pit Disassembly and Conversion High Consequence Accidents at
Oak Ridge Reservation-Worker Consequences F-90
Table F.2.1.5.3-10 Pit Disassembly and Conversion High Consequence Accidents at
Pantex Plant -Worker Consequences F-91
Table F.2.1.5.3-11 Pit Disassembly and Conversion High Consequence Accidents at Savannah
River Site-Worker Consequences F-91
Table F.2.1.6-1 Tritium Target Extraction Facility High Consequence Accident -Public
Consequences F-93
Table F.2.1.6-2 Tritium Target Extraction Facility High Consequence Accident -Worker
Consequences F-94
Table F.2.2.1-1 Source Term for Heavy Water Reactor Charge/Discharge Accident F-95
Table F.2.2.1-2 Heavy Water Reactor Charge/Discharge Accident-Public Consequences F-96
Table F.2.2.1-3 Heavy Water Reactor Charge/Discharge Accident-Worker Consequences F-96
Table F.2.2.2-1 Modular High Temperature Gas-Cooled Reactor Low-to-Moderate
Consequence Accident Source Terms F-98
Table F.2.2.2-2 Modular High Temperature Gas-Cooled Reactor Low-to-Moderate
Consequence Accidents at Idaho National Engineering Laboratory-Public
Consequences F-99
Table F.2.2.2-3 Modular High Temperature Gas-Cooled Reactor Low-to-Moderate
Consequence Accidents at Nevada Test Site-Public Consequences F-99
Table F.2.2.2-4 Modular High Temperature Gas-Cooled Reactor Low-to-Moderate
Consequence Accidents at Oak Ridge Reservation-Public Consequences F-100
Table F.2.2.2-5 Modular High Temperature Gas-Cooled Reactor Low-to-Moderate
Consequence Accidents at Pantex Plant-Public Consequences F-100
Table F.2.2.2-6 Modular High Temperature Gas-Cooled Reactor Low-to-Moderate
Consequence Accidents at Savannah River Site-Public Consequences F-101
Table F.2.2.2-7 Modular High Temperature Gas-Cooled Reactor Low-to-Moderate
Consequence Accidents at Idaho National Engineering Laboratory-Worker
Consequences F-101
Table F.2.2.2-8 Modular High Temperature Gas-Cooled Reactor Low-to-Moderate
Consequence Accidents at Nevada Test Site-Worker Consequences F-102
Table F.2.2.2-9 Modular High Temperature Gas-Cooled Reactor Low-to-Moderate
Consequence Accidents at Oak Ridge Reservation-Worker Consequences F-102
Table F.2.2.2-10 Modular High Temperature Gas-Cooled Reactor Low-to-Moderate
Consequence Accidents at Pantex Plant-Worker Consequences F-103
Table F.2.2.2-11 Modular High Temperature Gas-Cooled Reactor Low-to-Moderate
Consequence Accidents at Savannah River Site-Worker Consequences F-103
Table F.2.2.3.1-1 AP600 Low-to-Moderate Consequence Accident Source Terms F-106
Table F.2.2.3.1-2 AP600 Reactor Low-to-Moderate Consequence Accidents at Idaho National
Engineering Laboratory-Public Consequences F-107
Table F.2.2.3.1-3 AP600 Reactor Low-to-Moderate Consequence Accidents at Nevada
Test Site-Public Consequences F-107
Table F.2.2.3.1-4 AP600 Reactor Low-to-Moderate Consequence Accidents at Oak Ridge
Reservation-Public Consequences F-108
Table F.2.2.3.1-5 AP600 Reactor Low-to-Moderate Consequence Accidents at Pantex
Plant-Public Consequences F-108
Table F.2.2.3.1-6 AP600 Reactor Low-to-Moderate Consequence Accidents at Savannah
River Site-Public Consequences F-109
Table F.2.2.3.1-7 AP600 Reactor Low-to-Moderate Consequence Accidents at Idaho
National Engineering Laboratory-Worker Consequences F-109
Table F.2.2.3.1-8 AP600 Reactor Low-to-Moderate Consequence Accidents at Nevada
Test Site-Worker Consequences F-110
Table F.2.2.3.1-9 AP600 Reactor Low-to-Moderate Consequence Accidents at Oak Ridge
Reservation-Worker Consequences F-110
Table F.2.2.3.1-10 AP600 Reactor Low-to-Moderate Consequence Accidents at Pantex
Plant-Worker Consequences F-111
Table F.2.2.3.1-11 AP600 Reactor Low-to-Moderate Consequence Accidents at Savannah
River Site-Worker Consequences F-111
Table F.2.2.3.2-1 Simplified Boiling Water Reactor Low-to-Moderate Consequence Accident
Source Terms F-113
Table F.2.2.3.2-2 Simplified Boiling Water Reactor Low-to-Moderate Consequence Accidents
at Idaho National Engineering Laboratory-Public Consequences F-114
Table F.2.2.3.2-3 Simplified Boiling Water Reactor Low-to-Moderate Consequence Accidents
at Nevada Test Site-Public Consequences F-114
Table F.2.2.3.2-4 Simplified Boiling Water Reactor Low-to-Moderate Consequence Accidents
at Oak Ridge Reservation-Public Consequences F-115
Table F.2.2.3.2-5 Simplified Boiling Water Reactor Low-to-Moderate Consequence Accidents
at Pantex Plant-Public Consequences F-115
Table F.2.2.3.2-6 Simplified Boiling Water Reactor Low-to-Moderate Consequence Accidents
at Savannah River Site-Public Consequences F-116
Table F.2.2.3.2-7 Simplified Boiling Water Reactor Low-to-Moderate Consequence Accidents
at Idaho National Engineering Laboratory-Worker Consequences F-116
Table F.2.2.3.2-8 Simplified Boiling Water Reactor Low-to-Moderate Consequence Accidents
at Nevada Test Site-Worker Consequences F-117
Table F.2.2.3.2-9 Simplified Boiling Water Reactor Low-to-Moderate Consequence Accidents
at Oak Ridge Reservation-Worker Consequences F-117
Table F.2.2.3.2-10 Simplified Boiling Water Reactor Low-to-Moderate Consequence Accidents
at Pantex Plant-Worker Consequences F-118
Table F.2.2.3.2-11 Simplified Boiling Water Reactor Low-to-Moderate Consequence Accidents
at Savannah River Site-Worker Consequences F-118
Table F.2.2.3.3-1 Advanced Boiling Water Reactor Low-to-Moderate Consequence Accident
Source Terms F-120
Table F.2.2.3.3-2 Advanced Boiling Water Reactor Low-to-Moderate Consequence Accidents
at Idaho National Engineering Laboratory-Public Consequences F-121
Table F.2.2.3.3-3 Advanced Boiling Water Reactor Low-to-Moderate Consequence Accidents
at Nevada Test Site-Public Consequences F-121
Table F.2.2.3.3-4 Advanced Boiling Water Reactor Low-to-Moderate Consequence Accidents
at Oak Ridge Reservation-Public Consequences F-122
Table F.2.2.3.3-5 Advanced Boiling Water Reactor Low-to-Moderate Consequence Accidents
at Pantex Plant-Public Consequences F-122
Table F.2.2.3.3-6 Advanced Boiling Water Reactor Low-to-Moderate Consequence Accidents
at Savannah River Site-Public Consequences F-123
Table F.2.2.3.3-7 Advanced Boiling Water Reactor Low-to-Moderate Consequence Accidents
at Idaho National Engineering Laboratory-Worker Consequences F-123
Table F.2.2.3.3-8 Advanced Boiling Water Reactor Low-to-Moderate Consequence Accidents
at Nevada Test Site-Worker Consequences F-124
Table F.2.2.3.3-9 Advanced Boiling Water Reactor Low-to-Moderate Consequence Accidents
at Oak Ridge Reservation-Worker Consequences F-124
Table F.2.2.3.3-10 Simplified Boiling Water Reactor Low-to-Moderate Consequence Accidents
at Pantex Plant-Worker Consequences F-125
Table F.2.2.3.3-11 Simplified Boiling Water Reactor Low-to-Moderate Consequence Accidents
at Savannah River Site-Worker Consequences F-125
Table F.2.2.5.2-1 Multipurpose Reactor Fuel Fabrication Low-to-Moderate Consequence
Accident Source Terms F-128
Table F.2.2.5.2-2 Multipurpose Reactor Fuel Fabrication Low-to-Moderate Consequence
Accidents at Idaho National Engineering Laboratory-Public Consequences F-129
Table F.2.2.5.2-3 Multipurpose Reactor Fuel Fabrication Low-to-Moderate Consequence
Accidents at Nevada Test Site-Public Consequences F-129
Table F.2.2.5.2-4 Multipurpose Reactor Fuel Fabrication Low-to-Moderate Consequence
Accidents at Oak Ridge Reservation-Public Consequences F-130
Table F.2.2.5.2-5 Multipurpose Reactor Fuel Fabrication Low-to-Moderate Consequence
Accidents at Pantex Plant-Public Consequences F-130
Table F.2.2.5.2-6 Multipurpose Reactor Fuel Fabrication Low-to-Moderate Consequence
Accidents at Savannah River Site-Public Consequences F-131
Table F.2.2.5.2-7 Multipurpose Reactor Fuel Fabrication Low-to-Moderate Consequence
Accidents at Idaho National Engineering Laboratory-Worker Consequences F-131
Table F.2.2.5.2-8 Multipurpose Reactor Fuel Fabrication Low-to-Moderate Consequence
Accidents at Nevada Test Site-Worker Consequences F-132
Table F.2.2.5.2-9 Multipurpose Reactor Fuel Fabrication Low-to-Moderate Consequence
Accidents at Oak Ridge Reservation-Worker Consequences F-132
Table F.2.2.5.2-10 Mixed Oxide Fuel Fabrication Low-to-Moderate Consequence Accidents at
Pantex Plant-Worker Consequences F-133
Table F.2.2.5.2-11 Multipurpose Reactor Fuel Fabrication Low-to-Moderate Consequence
Accidents at Savannah River Site-Worker Consequences F-133
Table F.2.2.5.3-1 Pit Disassembly and Conversion Low-to-Moderate Consequence Accident
Source Terms F-136
Table F.2.2.5.3-2 Pit Disassembly and Conversion Low-to-Moderate Consequence Accidents
at Idaho National Engineering Laboratory -Public Consequences F-136
Table F.2.2.5.3-3 Pit Disassembly and Conversion Low-to-Moderate Consequence Accidents
at Nevada Test Site-Public Consequences F-137
Table F.2.2.5.3-4 Pit Disassembly and Conversion Low-to-Moderate Consequence Accidents
at Oak Ridge Reservation-Public Consequences F-137
Table F.2.2.5.3-5 Pit Disassembly and Conversion Low-to-Moderate Consequence Accidents
at Pantex Plant-Public Consequences F-138
Table F.2.2.5.3-6 Pit Disassembly and Conversion Low-to-Moderate Consequence Accidents
at Savannah River Site-Public Consequences F-138
Table F.2.2.5.3-7 Pit Disassembly and Conversion Low-to-Moderate Consequence Accidents
at Idaho National Engineering Laboratory -Worker Consequences F-139
Table F.2.2.5.3-8 Pit Disassembly and Conversion Low-to-Moderate Consequence Accidents
at Nevada Test Site-Worker Consequences F-139
Table F.2.2.5.3-9 Pit Disassembly and Conversion Low-to-Moderate Consequence Accidents
at Oak Ridge Reservation-Worker Consequences F-140
Table F.2.2.5.3-10 Pit Disassembly and Conversion Low-to-Moderate Consequence Accidents
at Pantex Plant-Worker Consequences F-140
Table F.2.2.5.3-11 Pit Disassembly and Conversion Low-to-Moderate Consequence Accidents
at Savannah River Site-Worker Consequences F-141
Table F.2.2.6-1 Tritium Target Extraction Facility Bounding Low-to-Moderate Consequence
Accident-Public Consequences F-143
Table F.2.2.6-2 Tritium Target Extraction Facility Bounding Low-to-Moderate Consequence
Accident-Worker Consequences F-143
Table F.2.3-1 Tritium Recycling Facility High Consequence Accident-Public
Consequences F-145
Table F.2.3-2 Tritium Recycling Facility High Consequence Accident-Worker
Consequences F-146
Table F.2.4-1 Tritium Recycling Facility Hydride Bed Rupture Accident-Public
Consequences F-147
Table F.2.4-2 Tritium Recycling Facility Hydride Bed Rupture Accident-Worker
Consequences F-147
Table G.6-1 Five-Year Summary of Traffic To/From Proposed Tritium Supply and
Recycling Sites G-6
Table G.6-2 Hazardous Materials Shipments for Proposed Tritium Supply Technologies
and Recycling Sites, 1991 G-7
Table G.6-3 Air Mileage Between Selected Sites G-9
Table G.7-1 Representative Vessel and Steam Generator Size G-10
Table H.1.1.-1 Spent Nuclear Fuel and Waste Categories H-2
Table H.1.5-1 Low-Level Waste Disposal Land Usage Factors H-9
Table H.2.1-1 High-Level Waste at Idaho National Engineering Laboratory H-19
Table H.2.1-2 High-Level Waste Treatment Capability at Idaho National Engineering
Laboratory H-19
Table H.2.1-3 High-Level Waste Storage at Idaho National Engineering Laboratory H-20
Table H.2.1-4 Mixed Transuranic Waste at Idaho National Engineering Laboratory H-20
Table H.2.1-5 Transuranic and Mixed Transuranic Waste Treatment Capability at Idaho
National Engineering Laboratory H-21
Table H.2.1-6 Transuranic and Mixed Transuranic Waste Storage at Idaho National
Engineering Laboratory H-21
Table H.2.1-7 Mixed Low-Level Waste Streams at Idaho National Engineering
Laboratory H-22
Table H.2.1-8 Mixed Low-Level Waste and Low-Level Waste Treatment Capability at
Idaho National Engineering Laboratory H-23
Table H.2.1-9 Low-Level Waste and Mixed Low-Level Waste Storage at Idaho National
Engineering Laboratory H-25
Table H.2.2-1 Mixed Transuranic Waste Storage at Nevada Test Site H-29
Table H.2.2-2 Low-Level and Mixed Low-Level Waste Storage and Disposal Capacity
at Nevada Test Site H-29
Table H.2.2-3 Mixed Low-Level Waste Streams at Nevada Test Site H-30
Table H.2.2-4 Mixed Low-Level Waste and Low-Level Waste Treatment Capability
at Nevada Test Site H-30
Table H.2.3-1 Low-Level and Mixed Low-Level Waste Treatment Capability at Y-12 H-45
Table H.2.3-2 Low-Level and Mixed Low-Level Waste Storage Capability at Y-12 H-47
Table H.2.3-3 Mixed Low-Level Waste at Y-12 H-49
Table H.2.3-4 Hazardous Waste Treatment Capability at Y-12 H-49
Table H.2.3-5 Hazardous Waste Storage Capability at Y-12 H-50
Table H.2.3-6 Inventory of Reactor-Irradiated Nuclear Material at Oak Ridge Reservation H-51
Table H.2.3-7 Mixed Transuranic Waste at Oak Ridge National Laboratory H-51
Table H.2.3-8 Transuranic and Mixed Transuranic Waste Storage Capability at Oak Ridge
National Laboratory H-52
Table H.2.3-9 Low-Level and Mixed Low-Level Waste Treatment Capability at Oak Ridge
National Laboratory H-53
Table H.2.3-10 Low-Level and Mixed Low-Level Waste Storage Capability at Oak Ridge
National Laboratory H-54
Table H.2.3-11 Low-Level Waste Disposal Units at Oak Ridge National Laboratory H-55
Table H.2.3-12 Mixed Low-Level Waste at Oak Ridge National Laboratory H-56
Table H.2.3-13 Hazardous Waste Treatment Capability at Oak Ridge National Laboratory H-56
Table H.2.3-14 Hazardous Waste Storage Capability at Oak Ridge National Laboratory H-57
Table H.2.3-15 Low-Level, Mixed Low-Level, and Hazardous Waste Treatment Capability
at K-25 Site H-57
Table H.2.3-16 Low Level, Mixed Low-Level, and Hazardous Waste Storage Capability
at K-25 Site H-59
Table H.2.3-17 Low-Level Waste Storage Capability at K-25 Site H-62
Table H.2.3-18 Mixed Low-Level Waste at K-25 Site H-63
Table H.2.4-1 Waste Treatment Capability at Pantex Plant H-67
Table H.2.4-2 Waste Storage Capability at Pantex Plant H-68
Table H.2.4-3 Low-Level Waste Streams at Pantex Plant H-69
Table H.2.4-4 Low-Level Waste Inventory at Pantex Plant H-69
Table H.2.4-5 Mixed Low-Level Waste Streams at Pantex Plant H-70
Table H.2.4-6 Mixed Low-Level Waste Inventory at Pantex Plant H-71
Table H.2.4-7 Hazardous Waste Streams at Pantex Plant H-72
Table H.2.4-8 Hazardous Waste Inventory at Pantex Plant H-73
Table H.2.5-1 High-Level Wastes at Savannah River Site H-86
Table H.2.5-2 High-Level Waste Treatment Capability at Savannah River Site H-86
Table H.2.5-3 High-Level Waste Storage at Savannah River Site H-87
Table H.2.5-4 Mixed Transuranic Waste at Savannah River Site H-87
Table H.2.5-5 Transuranic and Mixed Transuranic Waste Treatment Capability at
Savannah River Site H-87
Table H.2.5-6 Transuranic and Mixed Transuranic Waste Storage at Savannah
River Site H-88
Table H.2.5-7 Low-Level and Mixed Low-Level Wastes at Savannah River Site H-88
Table H.2.5-8 Low-Level and Mixed Low-Level Waste Treatment Capability at
Savannah River Site H-89
Table H.2.5-9 Low-Level and Mixed Low-Level Waste Storage at Savannah River Site H-90
Table H.2.5-10 Waste Disposal at Savannah River Site H-90
Table I.1-1 Comparison of Tritium Supply and Recycling Alternatives I-2
Table I.1-2 Summary Comparison of Environmental Impacts of the Commercial Light
Water Reactor Alternative I-122
Table 1.1-1 Hearing Attendance and Comment Summaries 1-1
Table 1.1-2 Document and Comment Submission Overview 1-1
Table 1.3-1 Issue Categories 1-6
Table 1.3-2 Index of Attendance at Public Hearings 1-7
Table 1.3-3 Index of Commentors, Private Individuals 1-22
Table 1.3-4 Index of Commentors, Organizations 1-31
Table 1.3-5 Comment Document and Summary Locator 1-36
Table 1.3-6 Comments Sorted by Summary Code 1-61
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