Jean-Claude Amiard
Disarmament and Decommissioning in the Nuclear Domain
Jean-Claude Amiard
Disarmament and Decommissioning in the Nuclear Domain
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Following the acquisition of the atomic bomb by five states, the United Nations began drafting several treaties to limit nuclear proliferation. These efforts failed, as four more states also acquired nuclear weapons. In a similar vein, an attempt to limit atomic weapons - primarily within the two superpowers - was initiated. While the number of weapons has decreased, the new bombs now being manufactured are more powerful and more precise, negating any reduction in numbers. In the field of civil nuclear use, all nuclear facilities (reactors, factories, etc.) have a limited lifespan. Once a…mehr
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Following the acquisition of the atomic bomb by five states, the United Nations began drafting several treaties to limit nuclear proliferation. These efforts failed, as four more states also acquired nuclear weapons. In a similar vein, an attempt to limit atomic weapons - primarily within the two superpowers - was initiated. While the number of weapons has decreased, the new bombs now being manufactured are more powerful and more precise, negating any reduction in numbers. In the field of civil nuclear use, all nuclear facilities (reactors, factories, etc.) have a limited lifespan. Once a plant is permanently shut down, these facilities must be decommissioned and dismantled. These operations are difficult, time-consuming and costly. In addition, decommissioning generates large volumes of radioactive waste of various categories, including long-lived and high-activity waste. Risks to the environment and to health are not negligible during decommissioning. The International Atomic Energy Agency (IAEA) and the Nuclear Energy Agency (NEA) of the Organisation for Economic Co-operation and Development (OECD) have produced numerous publications with recommendations. Each state has its own decommissioning strategy (immediate or delayed) and final plan for the site - whether it be returning it to greenfield status or obtaining a nuclear site license with centuries-long monitoring.
Produktdetails
- Produktdetails
- Verlag: Wiley
- Seitenzahl: 352
- Erscheinungstermin: 15. September 2021
- Englisch
- Abmessung: 240mm x 161mm x 23mm
- Gewicht: 695g
- ISBN-13: 9781786307217
- ISBN-10: 1786307219
- Artikelnr.: 62225719
- Verlag: Wiley
- Seitenzahl: 352
- Erscheinungstermin: 15. September 2021
- Englisch
- Abmessung: 240mm x 161mm x 23mm
- Gewicht: 695g
- ISBN-13: 9781786307217
- ISBN-10: 1786307219
- Artikelnr.: 62225719
Jean-Claude Amiard is a Doctor of Radioecology, Emeritus Research Director at the CNRS (University of Nantes, France) and former Associate Professor in Quebec and China. He is the author of more than 250 publications, 80 books or book chapters and 150 presentations at international conferences.
Preface xi Acknowledgments xiii Chapter 1 Nuclear Non-Proliferation 1 1.1
Introduction 1 1.2 The first countries to acquire the atomic bomb 2 1.3 The
NPT 4 1.3.1 The functioning of the Treaty 5 1.3.2 Revision of the NPT 5
1.3.3 Successes of the NPT 6 1.3.4 Failures of the NPT 7 1.3.5 Future
nuclear-weapon states 10 1.4 Other nuclear non-proliferation treaties 10
1.4.1 The CTBT Treaty 10 1.4.2 The TPNW 11 1.4.3 The Fissile Material
Cut-Off Treaty (FMCT) 12 1.4.4 Regional disarmament treaties 14 1.5
Disarmament controls 15 1.5.1 Principle and practice of disarmament
controls 15 1.5.2 NPT controls 17 1.6 Actions of NGOs 25 1.6.1 The main
actions of NGOs for disarmament 26 1.6.2 NGOs and the Nobel Peace Prize 28
1.7 The military denuclearization of a state 29 1.7.1 South Africa: the
example of the complete denuclearization of a country 29 1.7.2 Other states
that have renounced nuclear weapons 31 1.8 Conclusions 32 Chapter 2
Disarmament of Atomic Weapons 35 2.1 Introduction 35 2.2 Limitations on the
number of nuclear weapons 35 2.2.1 Bilateral disarmament agreements and
treaties between the Americans and Soviets 36 2.2.2 Delivery of nuclear
supplies 39 2.2.3 Controlling the delivery systems of atomic weapons 39
2.2.4 The Hague Code of Conduct (HCoC) 40 2.2.5 The disarmament of France
42 2.3 Nuclear deterrent forces 43 2.3.1 Land forces of nuclear deterrence
45 2.3.2 Air forces of nuclear deterrence 46 2.3.3 Oceanic nuclear
deterrent forces 48 2.3.4 Nuclear weapon manufacturing sites 50 2.3.5
Nuclear weapon deployment and storage sites 53 2.3.6 The state of stocks of
nuclear weapons and fissile materials 56 2.4 Disarmament controls 61 2.4.1
Controls of the CTBT 61 2.4.2 Bilateral controls 62 2.5 Conclusions 62
Chapter 3 International Recommendations and National Policies in
Decommissioning 65 3.1 Introduction 65 3.1.1 Definitions of terms for
end-of-life operations of a BNI 65 3.1.2 Stages in the life of a BNI 66 3.2
General principles of decommissioning and dismantling 67 3.2.1 The
necessity and goals of decommissioning 67 3.2.2 IAEA recommendations 68
3.2.3 NEA work and publications 70 3.2.4 Decommissioning and dismantling
strategies 70 3.2.5 Decommissioning planning 74 3.2.6 Duration of
decommissioning 77 3.3 Lessons from the past 78 3.3.1 Experience in
decommissioning 79 3.3.2 Structuring and organization of companies 80 3.3.3
Ongoing decommissioning challenges 80 3.3.4 Management of the unexpected in
dismantling 80 3.3.5 The transmission of information 80 3.4 The
decommissioning and dismantling policies of the various states 81 3.4.1 US
policy 82 3.4.2 Russia's policy 83 3.4.3 Germany's policy 85 3.4.4 UK
policy 86 3.4.5 France's policy 88 3.4.6 China 93 3.4.7 Sweden 93 3.4.8
Japan 95 3.4.9 Other states 95 3.5 Conclusions 99 Chapter 4 Procedures and
Technologies Involved in Decommissioning 101 4.1 Introduction 101 4.2 The
cost of dismantling 101 4.2.1 International recommendations 102 4.2.2 The
American example 105 4.2.3 The British example 106 4.2.4 The French example
108 4.2.5 The Russian example 109 4.3 The production of radioactive waste
109 4.3.1 The channels planned for the management of radioactive waste 110
4.3.2 Material release thresholds 112 4.4 The environmental and health
risks of dismantling 114 4.4.1 Assessment of environmental and health risks
during decommissioning 115 4.4.2 Environmental impact studies 117 4.4.3
Total remediation of the site 119 4.4.4 Health impacts of decommissioning
123 4.4.5 Social impacts of decommissioning 124 4.4.6 Regulatory provisions
126 4.5 Nuclear decommissioning techniques 127 4.5.1 Cutting techniques 127
4.5.2 Decontamination techniques 128 4.5.3 Automation or remote operation
129 4.5.4 Remediation processes for civil engineering structures 129 4.5.5
The main demolition techniques 130 4.6 Technical innovations in nuclear
decommissioning 131 4.6.1 Research and development policies in the field of
decommissioning 131 4.6.2 Industrial organization in the field of nuclear
decommissioning 133 4.6.3 Management of radioactive contamination 134 4.6.4
Numerical simulations in the field of nuclear decommissioning 136 4.6.5
Cutting of large parts 139 4.6.6 Automation in the field of nuclear
decommissioning 140 4.6.7 Estimating radiation doses 142 4.7 Conclusions
142 Chapter 5 The Dismantling of Military Nuclear Facilities 145 5.1
Introduction 145 5.2 The decommissioning of military plants at the
beginning of the nuclear fuel cycle 146 5.2.1 The decommissioning of
military uranium enrichment plants 146 5.2.2 Decommissioning of
plutonium-producing reactors 150 5.2.3 Decommissioning of tritium-producing
reactors 157 5.2.4 Decommissioning of fissile fuel fabrication plants 158
5.3 The decommissioning of military spent fuel reprocessing plants 159
5.3.1 The dismantling of US reprocessing plants 160 5.3.2 The UP1 plant in
Marcoule, France 160 5.3.3 The dismantling of other military reprocessing
plants around the world 163 5.4 Decommissioning and decontamination of
military sites 163 5.4.1 US military facilities 164 5.4.2 The dismantling
of Soviet and Russian military nuclear facilities 174 5.4.3 The dismantling
of French military nuclear facilities 176 5.4.4 The decontamination of the
British site of Maralinga 178 5.5 The destruction of atomic weapons and
their vectors 178 5.5.1 The deconstruction of atomic bombs 178 5.5.2
American disarmament 179 5.5.3 Russian disarmament: international
collaboration 180 5.5.4 Disarmament of submarines and other military
nuclear vessels 181 5.5.5 Denuclearization of rocket bases 190 5.6
Conclusions 191 Chapter 6 The Dismantling of Electronuclear Reactors 193
6.1 Introduction 193 6.1.1 The various types of electronuclear reactors 194
6.2 The dismantling of graphite-moderated reactors 195 6.2.1
Decommissioning of French nuclear power reactors (UNGG) 195 6.2.2 The
dismantling of British reactors 200 6.2.3 The dismantling of the RMBK
sector 202 6.3 The dismantling of the pressurized water system (PWR) 203
6.3.1 The dismantling of German reactors 204 6.3.2 The dismantling of
American reactors 205 6.3.3 The dismantling of French reactors 206 6.3.4
Reactor decommissioning in other countries 207 6.3.5 The dismantling of
WWER reactors 207 6.4 Dismantling the heavy water sector 210 6.5
Dismantling of the boiling water reactor sector 212 6.6 Dismantling
following a nuclear accident 217 6.6.1 IAEA and NEA recommendations 220
6.6.2 The dismantling of Three Mile Island 221 6.6.3 The dismantling of
Chernobyl 222 6.6.4 The decommissioning of Fukushima 223 6.6.5
Decommissioning of other damaged nuclear facilities 224 6.7 Future reactor
shutdowns 225 6.8 Conclusions 227 Chapter 7 The Decommissioning of Research
Reactors and Other Basic Nuclear Facilities 229 7.1 Introduction 229 7.2
The dismantling of experimental reactors around the world 230 7.2.1 The
main roles of experimental reactors 230 7.2.2 The global overview of
experimental reactors 231 7.2.3 The main types of experimental reactors 233
7.2.4 Major incidents and accidents involving research reactors 235 7.2.5
Cost 236 7.2.6 Some examples of the decommissioning of experimental
reactors 236 7.2.7 Heavy water research reactors (HWRR) 238 7.2.8 Fast
neutron reactors 240 7.2.9 Other research reactors 240 7.3 Decommissioning
and dismantling of fourth-generation reactors 242 7.3.1 The dismantling of
the fast neutron reactor (FNR) industry 243 7.3.2 High-temperature nuclear
reactors 247 7.3.3 The other fourth-generation sectors 248 7.4 The
dismantling of first-generation prototype reactors 249 7.4.1 PWR reactors
250 7.4.2 The dismantling of the boiling water reactor (BWR) process 252
7.4.3 The dismantling of the gas reactor sector (AGR) 252 7.4.4 Dismantling
the heavy water industry 253 7.4.5 The dismantling of prototype reactors
from various sectors 255 7.5 The dismantling of basic nuclear fuel cycle
facilities 256 7.5.1 The dismantling of extraction mines 256 7.5.2 The
dismantling of enrichment plants 257 7.5.3 The dismantling of conversion
and manufacturing plants 259 7.5.4 The dismantling of reprocessing plants
260 7.6 Decommissioning of other basic nuclear facilities 263 7.6.1 The
centers of nuclear studies 263 7.6.2 The centers of industrial operation
266 7.6.3 Service facilities 269 7.6.4 Interim nuclear waste storage
centers 270 7.6.5 Other BNIs in the dismantling stage 271 7.7 Conclusions
273 General Conclusions 275 List of Acronyms 287 References 295 Index 333
Introduction 1 1.2 The first countries to acquire the atomic bomb 2 1.3 The
NPT 4 1.3.1 The functioning of the Treaty 5 1.3.2 Revision of the NPT 5
1.3.3 Successes of the NPT 6 1.3.4 Failures of the NPT 7 1.3.5 Future
nuclear-weapon states 10 1.4 Other nuclear non-proliferation treaties 10
1.4.1 The CTBT Treaty 10 1.4.2 The TPNW 11 1.4.3 The Fissile Material
Cut-Off Treaty (FMCT) 12 1.4.4 Regional disarmament treaties 14 1.5
Disarmament controls 15 1.5.1 Principle and practice of disarmament
controls 15 1.5.2 NPT controls 17 1.6 Actions of NGOs 25 1.6.1 The main
actions of NGOs for disarmament 26 1.6.2 NGOs and the Nobel Peace Prize 28
1.7 The military denuclearization of a state 29 1.7.1 South Africa: the
example of the complete denuclearization of a country 29 1.7.2 Other states
that have renounced nuclear weapons 31 1.8 Conclusions 32 Chapter 2
Disarmament of Atomic Weapons 35 2.1 Introduction 35 2.2 Limitations on the
number of nuclear weapons 35 2.2.1 Bilateral disarmament agreements and
treaties between the Americans and Soviets 36 2.2.2 Delivery of nuclear
supplies 39 2.2.3 Controlling the delivery systems of atomic weapons 39
2.2.4 The Hague Code of Conduct (HCoC) 40 2.2.5 The disarmament of France
42 2.3 Nuclear deterrent forces 43 2.3.1 Land forces of nuclear deterrence
45 2.3.2 Air forces of nuclear deterrence 46 2.3.3 Oceanic nuclear
deterrent forces 48 2.3.4 Nuclear weapon manufacturing sites 50 2.3.5
Nuclear weapon deployment and storage sites 53 2.3.6 The state of stocks of
nuclear weapons and fissile materials 56 2.4 Disarmament controls 61 2.4.1
Controls of the CTBT 61 2.4.2 Bilateral controls 62 2.5 Conclusions 62
Chapter 3 International Recommendations and National Policies in
Decommissioning 65 3.1 Introduction 65 3.1.1 Definitions of terms for
end-of-life operations of a BNI 65 3.1.2 Stages in the life of a BNI 66 3.2
General principles of decommissioning and dismantling 67 3.2.1 The
necessity and goals of decommissioning 67 3.2.2 IAEA recommendations 68
3.2.3 NEA work and publications 70 3.2.4 Decommissioning and dismantling
strategies 70 3.2.5 Decommissioning planning 74 3.2.6 Duration of
decommissioning 77 3.3 Lessons from the past 78 3.3.1 Experience in
decommissioning 79 3.3.2 Structuring and organization of companies 80 3.3.3
Ongoing decommissioning challenges 80 3.3.4 Management of the unexpected in
dismantling 80 3.3.5 The transmission of information 80 3.4 The
decommissioning and dismantling policies of the various states 81 3.4.1 US
policy 82 3.4.2 Russia's policy 83 3.4.3 Germany's policy 85 3.4.4 UK
policy 86 3.4.5 France's policy 88 3.4.6 China 93 3.4.7 Sweden 93 3.4.8
Japan 95 3.4.9 Other states 95 3.5 Conclusions 99 Chapter 4 Procedures and
Technologies Involved in Decommissioning 101 4.1 Introduction 101 4.2 The
cost of dismantling 101 4.2.1 International recommendations 102 4.2.2 The
American example 105 4.2.3 The British example 106 4.2.4 The French example
108 4.2.5 The Russian example 109 4.3 The production of radioactive waste
109 4.3.1 The channels planned for the management of radioactive waste 110
4.3.2 Material release thresholds 112 4.4 The environmental and health
risks of dismantling 114 4.4.1 Assessment of environmental and health risks
during decommissioning 115 4.4.2 Environmental impact studies 117 4.4.3
Total remediation of the site 119 4.4.4 Health impacts of decommissioning
123 4.4.5 Social impacts of decommissioning 124 4.4.6 Regulatory provisions
126 4.5 Nuclear decommissioning techniques 127 4.5.1 Cutting techniques 127
4.5.2 Decontamination techniques 128 4.5.3 Automation or remote operation
129 4.5.4 Remediation processes for civil engineering structures 129 4.5.5
The main demolition techniques 130 4.6 Technical innovations in nuclear
decommissioning 131 4.6.1 Research and development policies in the field of
decommissioning 131 4.6.2 Industrial organization in the field of nuclear
decommissioning 133 4.6.3 Management of radioactive contamination 134 4.6.4
Numerical simulations in the field of nuclear decommissioning 136 4.6.5
Cutting of large parts 139 4.6.6 Automation in the field of nuclear
decommissioning 140 4.6.7 Estimating radiation doses 142 4.7 Conclusions
142 Chapter 5 The Dismantling of Military Nuclear Facilities 145 5.1
Introduction 145 5.2 The decommissioning of military plants at the
beginning of the nuclear fuel cycle 146 5.2.1 The decommissioning of
military uranium enrichment plants 146 5.2.2 Decommissioning of
plutonium-producing reactors 150 5.2.3 Decommissioning of tritium-producing
reactors 157 5.2.4 Decommissioning of fissile fuel fabrication plants 158
5.3 The decommissioning of military spent fuel reprocessing plants 159
5.3.1 The dismantling of US reprocessing plants 160 5.3.2 The UP1 plant in
Marcoule, France 160 5.3.3 The dismantling of other military reprocessing
plants around the world 163 5.4 Decommissioning and decontamination of
military sites 163 5.4.1 US military facilities 164 5.4.2 The dismantling
of Soviet and Russian military nuclear facilities 174 5.4.3 The dismantling
of French military nuclear facilities 176 5.4.4 The decontamination of the
British site of Maralinga 178 5.5 The destruction of atomic weapons and
their vectors 178 5.5.1 The deconstruction of atomic bombs 178 5.5.2
American disarmament 179 5.5.3 Russian disarmament: international
collaboration 180 5.5.4 Disarmament of submarines and other military
nuclear vessels 181 5.5.5 Denuclearization of rocket bases 190 5.6
Conclusions 191 Chapter 6 The Dismantling of Electronuclear Reactors 193
6.1 Introduction 193 6.1.1 The various types of electronuclear reactors 194
6.2 The dismantling of graphite-moderated reactors 195 6.2.1
Decommissioning of French nuclear power reactors (UNGG) 195 6.2.2 The
dismantling of British reactors 200 6.2.3 The dismantling of the RMBK
sector 202 6.3 The dismantling of the pressurized water system (PWR) 203
6.3.1 The dismantling of German reactors 204 6.3.2 The dismantling of
American reactors 205 6.3.3 The dismantling of French reactors 206 6.3.4
Reactor decommissioning in other countries 207 6.3.5 The dismantling of
WWER reactors 207 6.4 Dismantling the heavy water sector 210 6.5
Dismantling of the boiling water reactor sector 212 6.6 Dismantling
following a nuclear accident 217 6.6.1 IAEA and NEA recommendations 220
6.6.2 The dismantling of Three Mile Island 221 6.6.3 The dismantling of
Chernobyl 222 6.6.4 The decommissioning of Fukushima 223 6.6.5
Decommissioning of other damaged nuclear facilities 224 6.7 Future reactor
shutdowns 225 6.8 Conclusions 227 Chapter 7 The Decommissioning of Research
Reactors and Other Basic Nuclear Facilities 229 7.1 Introduction 229 7.2
The dismantling of experimental reactors around the world 230 7.2.1 The
main roles of experimental reactors 230 7.2.2 The global overview of
experimental reactors 231 7.2.3 The main types of experimental reactors 233
7.2.4 Major incidents and accidents involving research reactors 235 7.2.5
Cost 236 7.2.6 Some examples of the decommissioning of experimental
reactors 236 7.2.7 Heavy water research reactors (HWRR) 238 7.2.8 Fast
neutron reactors 240 7.2.9 Other research reactors 240 7.3 Decommissioning
and dismantling of fourth-generation reactors 242 7.3.1 The dismantling of
the fast neutron reactor (FNR) industry 243 7.3.2 High-temperature nuclear
reactors 247 7.3.3 The other fourth-generation sectors 248 7.4 The
dismantling of first-generation prototype reactors 249 7.4.1 PWR reactors
250 7.4.2 The dismantling of the boiling water reactor (BWR) process 252
7.4.3 The dismantling of the gas reactor sector (AGR) 252 7.4.4 Dismantling
the heavy water industry 253 7.4.5 The dismantling of prototype reactors
from various sectors 255 7.5 The dismantling of basic nuclear fuel cycle
facilities 256 7.5.1 The dismantling of extraction mines 256 7.5.2 The
dismantling of enrichment plants 257 7.5.3 The dismantling of conversion
and manufacturing plants 259 7.5.4 The dismantling of reprocessing plants
260 7.6 Decommissioning of other basic nuclear facilities 263 7.6.1 The
centers of nuclear studies 263 7.6.2 The centers of industrial operation
266 7.6.3 Service facilities 269 7.6.4 Interim nuclear waste storage
centers 270 7.6.5 Other BNIs in the dismantling stage 271 7.7 Conclusions
273 General Conclusions 275 List of Acronyms 287 References 295 Index 333
Preface xi Acknowledgments xiii Chapter 1 Nuclear Non-Proliferation 1 1.1
Introduction 1 1.2 The first countries to acquire the atomic bomb 2 1.3 The
NPT 4 1.3.1 The functioning of the Treaty 5 1.3.2 Revision of the NPT 5
1.3.3 Successes of the NPT 6 1.3.4 Failures of the NPT 7 1.3.5 Future
nuclear-weapon states 10 1.4 Other nuclear non-proliferation treaties 10
1.4.1 The CTBT Treaty 10 1.4.2 The TPNW 11 1.4.3 The Fissile Material
Cut-Off Treaty (FMCT) 12 1.4.4 Regional disarmament treaties 14 1.5
Disarmament controls 15 1.5.1 Principle and practice of disarmament
controls 15 1.5.2 NPT controls 17 1.6 Actions of NGOs 25 1.6.1 The main
actions of NGOs for disarmament 26 1.6.2 NGOs and the Nobel Peace Prize 28
1.7 The military denuclearization of a state 29 1.7.1 South Africa: the
example of the complete denuclearization of a country 29 1.7.2 Other states
that have renounced nuclear weapons 31 1.8 Conclusions 32 Chapter 2
Disarmament of Atomic Weapons 35 2.1 Introduction 35 2.2 Limitations on the
number of nuclear weapons 35 2.2.1 Bilateral disarmament agreements and
treaties between the Americans and Soviets 36 2.2.2 Delivery of nuclear
supplies 39 2.2.3 Controlling the delivery systems of atomic weapons 39
2.2.4 The Hague Code of Conduct (HCoC) 40 2.2.5 The disarmament of France
42 2.3 Nuclear deterrent forces 43 2.3.1 Land forces of nuclear deterrence
45 2.3.2 Air forces of nuclear deterrence 46 2.3.3 Oceanic nuclear
deterrent forces 48 2.3.4 Nuclear weapon manufacturing sites 50 2.3.5
Nuclear weapon deployment and storage sites 53 2.3.6 The state of stocks of
nuclear weapons and fissile materials 56 2.4 Disarmament controls 61 2.4.1
Controls of the CTBT 61 2.4.2 Bilateral controls 62 2.5 Conclusions 62
Chapter 3 International Recommendations and National Policies in
Decommissioning 65 3.1 Introduction 65 3.1.1 Definitions of terms for
end-of-life operations of a BNI 65 3.1.2 Stages in the life of a BNI 66 3.2
General principles of decommissioning and dismantling 67 3.2.1 The
necessity and goals of decommissioning 67 3.2.2 IAEA recommendations 68
3.2.3 NEA work and publications 70 3.2.4 Decommissioning and dismantling
strategies 70 3.2.5 Decommissioning planning 74 3.2.6 Duration of
decommissioning 77 3.3 Lessons from the past 78 3.3.1 Experience in
decommissioning 79 3.3.2 Structuring and organization of companies 80 3.3.3
Ongoing decommissioning challenges 80 3.3.4 Management of the unexpected in
dismantling 80 3.3.5 The transmission of information 80 3.4 The
decommissioning and dismantling policies of the various states 81 3.4.1 US
policy 82 3.4.2 Russia's policy 83 3.4.3 Germany's policy 85 3.4.4 UK
policy 86 3.4.5 France's policy 88 3.4.6 China 93 3.4.7 Sweden 93 3.4.8
Japan 95 3.4.9 Other states 95 3.5 Conclusions 99 Chapter 4 Procedures and
Technologies Involved in Decommissioning 101 4.1 Introduction 101 4.2 The
cost of dismantling 101 4.2.1 International recommendations 102 4.2.2 The
American example 105 4.2.3 The British example 106 4.2.4 The French example
108 4.2.5 The Russian example 109 4.3 The production of radioactive waste
109 4.3.1 The channels planned for the management of radioactive waste 110
4.3.2 Material release thresholds 112 4.4 The environmental and health
risks of dismantling 114 4.4.1 Assessment of environmental and health risks
during decommissioning 115 4.4.2 Environmental impact studies 117 4.4.3
Total remediation of the site 119 4.4.4 Health impacts of decommissioning
123 4.4.5 Social impacts of decommissioning 124 4.4.6 Regulatory provisions
126 4.5 Nuclear decommissioning techniques 127 4.5.1 Cutting techniques 127
4.5.2 Decontamination techniques 128 4.5.3 Automation or remote operation
129 4.5.4 Remediation processes for civil engineering structures 129 4.5.5
The main demolition techniques 130 4.6 Technical innovations in nuclear
decommissioning 131 4.6.1 Research and development policies in the field of
decommissioning 131 4.6.2 Industrial organization in the field of nuclear
decommissioning 133 4.6.3 Management of radioactive contamination 134 4.6.4
Numerical simulations in the field of nuclear decommissioning 136 4.6.5
Cutting of large parts 139 4.6.6 Automation in the field of nuclear
decommissioning 140 4.6.7 Estimating radiation doses 142 4.7 Conclusions
142 Chapter 5 The Dismantling of Military Nuclear Facilities 145 5.1
Introduction 145 5.2 The decommissioning of military plants at the
beginning of the nuclear fuel cycle 146 5.2.1 The decommissioning of
military uranium enrichment plants 146 5.2.2 Decommissioning of
plutonium-producing reactors 150 5.2.3 Decommissioning of tritium-producing
reactors 157 5.2.4 Decommissioning of fissile fuel fabrication plants 158
5.3 The decommissioning of military spent fuel reprocessing plants 159
5.3.1 The dismantling of US reprocessing plants 160 5.3.2 The UP1 plant in
Marcoule, France 160 5.3.3 The dismantling of other military reprocessing
plants around the world 163 5.4 Decommissioning and decontamination of
military sites 163 5.4.1 US military facilities 164 5.4.2 The dismantling
of Soviet and Russian military nuclear facilities 174 5.4.3 The dismantling
of French military nuclear facilities 176 5.4.4 The decontamination of the
British site of Maralinga 178 5.5 The destruction of atomic weapons and
their vectors 178 5.5.1 The deconstruction of atomic bombs 178 5.5.2
American disarmament 179 5.5.3 Russian disarmament: international
collaboration 180 5.5.4 Disarmament of submarines and other military
nuclear vessels 181 5.5.5 Denuclearization of rocket bases 190 5.6
Conclusions 191 Chapter 6 The Dismantling of Electronuclear Reactors 193
6.1 Introduction 193 6.1.1 The various types of electronuclear reactors 194
6.2 The dismantling of graphite-moderated reactors 195 6.2.1
Decommissioning of French nuclear power reactors (UNGG) 195 6.2.2 The
dismantling of British reactors 200 6.2.3 The dismantling of the RMBK
sector 202 6.3 The dismantling of the pressurized water system (PWR) 203
6.3.1 The dismantling of German reactors 204 6.3.2 The dismantling of
American reactors 205 6.3.3 The dismantling of French reactors 206 6.3.4
Reactor decommissioning in other countries 207 6.3.5 The dismantling of
WWER reactors 207 6.4 Dismantling the heavy water sector 210 6.5
Dismantling of the boiling water reactor sector 212 6.6 Dismantling
following a nuclear accident 217 6.6.1 IAEA and NEA recommendations 220
6.6.2 The dismantling of Three Mile Island 221 6.6.3 The dismantling of
Chernobyl 222 6.6.4 The decommissioning of Fukushima 223 6.6.5
Decommissioning of other damaged nuclear facilities 224 6.7 Future reactor
shutdowns 225 6.8 Conclusions 227 Chapter 7 The Decommissioning of Research
Reactors and Other Basic Nuclear Facilities 229 7.1 Introduction 229 7.2
The dismantling of experimental reactors around the world 230 7.2.1 The
main roles of experimental reactors 230 7.2.2 The global overview of
experimental reactors 231 7.2.3 The main types of experimental reactors 233
7.2.4 Major incidents and accidents involving research reactors 235 7.2.5
Cost 236 7.2.6 Some examples of the decommissioning of experimental
reactors 236 7.2.7 Heavy water research reactors (HWRR) 238 7.2.8 Fast
neutron reactors 240 7.2.9 Other research reactors 240 7.3 Decommissioning
and dismantling of fourth-generation reactors 242 7.3.1 The dismantling of
the fast neutron reactor (FNR) industry 243 7.3.2 High-temperature nuclear
reactors 247 7.3.3 The other fourth-generation sectors 248 7.4 The
dismantling of first-generation prototype reactors 249 7.4.1 PWR reactors
250 7.4.2 The dismantling of the boiling water reactor (BWR) process 252
7.4.3 The dismantling of the gas reactor sector (AGR) 252 7.4.4 Dismantling
the heavy water industry 253 7.4.5 The dismantling of prototype reactors
from various sectors 255 7.5 The dismantling of basic nuclear fuel cycle
facilities 256 7.5.1 The dismantling of extraction mines 256 7.5.2 The
dismantling of enrichment plants 257 7.5.3 The dismantling of conversion
and manufacturing plants 259 7.5.4 The dismantling of reprocessing plants
260 7.6 Decommissioning of other basic nuclear facilities 263 7.6.1 The
centers of nuclear studies 263 7.6.2 The centers of industrial operation
266 7.6.3 Service facilities 269 7.6.4 Interim nuclear waste storage
centers 270 7.6.5 Other BNIs in the dismantling stage 271 7.7 Conclusions
273 General Conclusions 275 List of Acronyms 287 References 295 Index 333
Introduction 1 1.2 The first countries to acquire the atomic bomb 2 1.3 The
NPT 4 1.3.1 The functioning of the Treaty 5 1.3.2 Revision of the NPT 5
1.3.3 Successes of the NPT 6 1.3.4 Failures of the NPT 7 1.3.5 Future
nuclear-weapon states 10 1.4 Other nuclear non-proliferation treaties 10
1.4.1 The CTBT Treaty 10 1.4.2 The TPNW 11 1.4.3 The Fissile Material
Cut-Off Treaty (FMCT) 12 1.4.4 Regional disarmament treaties 14 1.5
Disarmament controls 15 1.5.1 Principle and practice of disarmament
controls 15 1.5.2 NPT controls 17 1.6 Actions of NGOs 25 1.6.1 The main
actions of NGOs for disarmament 26 1.6.2 NGOs and the Nobel Peace Prize 28
1.7 The military denuclearization of a state 29 1.7.1 South Africa: the
example of the complete denuclearization of a country 29 1.7.2 Other states
that have renounced nuclear weapons 31 1.8 Conclusions 32 Chapter 2
Disarmament of Atomic Weapons 35 2.1 Introduction 35 2.2 Limitations on the
number of nuclear weapons 35 2.2.1 Bilateral disarmament agreements and
treaties between the Americans and Soviets 36 2.2.2 Delivery of nuclear
supplies 39 2.2.3 Controlling the delivery systems of atomic weapons 39
2.2.4 The Hague Code of Conduct (HCoC) 40 2.2.5 The disarmament of France
42 2.3 Nuclear deterrent forces 43 2.3.1 Land forces of nuclear deterrence
45 2.3.2 Air forces of nuclear deterrence 46 2.3.3 Oceanic nuclear
deterrent forces 48 2.3.4 Nuclear weapon manufacturing sites 50 2.3.5
Nuclear weapon deployment and storage sites 53 2.3.6 The state of stocks of
nuclear weapons and fissile materials 56 2.4 Disarmament controls 61 2.4.1
Controls of the CTBT 61 2.4.2 Bilateral controls 62 2.5 Conclusions 62
Chapter 3 International Recommendations and National Policies in
Decommissioning 65 3.1 Introduction 65 3.1.1 Definitions of terms for
end-of-life operations of a BNI 65 3.1.2 Stages in the life of a BNI 66 3.2
General principles of decommissioning and dismantling 67 3.2.1 The
necessity and goals of decommissioning 67 3.2.2 IAEA recommendations 68
3.2.3 NEA work and publications 70 3.2.4 Decommissioning and dismantling
strategies 70 3.2.5 Decommissioning planning 74 3.2.6 Duration of
decommissioning 77 3.3 Lessons from the past 78 3.3.1 Experience in
decommissioning 79 3.3.2 Structuring and organization of companies 80 3.3.3
Ongoing decommissioning challenges 80 3.3.4 Management of the unexpected in
dismantling 80 3.3.5 The transmission of information 80 3.4 The
decommissioning and dismantling policies of the various states 81 3.4.1 US
policy 82 3.4.2 Russia's policy 83 3.4.3 Germany's policy 85 3.4.4 UK
policy 86 3.4.5 France's policy 88 3.4.6 China 93 3.4.7 Sweden 93 3.4.8
Japan 95 3.4.9 Other states 95 3.5 Conclusions 99 Chapter 4 Procedures and
Technologies Involved in Decommissioning 101 4.1 Introduction 101 4.2 The
cost of dismantling 101 4.2.1 International recommendations 102 4.2.2 The
American example 105 4.2.3 The British example 106 4.2.4 The French example
108 4.2.5 The Russian example 109 4.3 The production of radioactive waste
109 4.3.1 The channels planned for the management of radioactive waste 110
4.3.2 Material release thresholds 112 4.4 The environmental and health
risks of dismantling 114 4.4.1 Assessment of environmental and health risks
during decommissioning 115 4.4.2 Environmental impact studies 117 4.4.3
Total remediation of the site 119 4.4.4 Health impacts of decommissioning
123 4.4.5 Social impacts of decommissioning 124 4.4.6 Regulatory provisions
126 4.5 Nuclear decommissioning techniques 127 4.5.1 Cutting techniques 127
4.5.2 Decontamination techniques 128 4.5.3 Automation or remote operation
129 4.5.4 Remediation processes for civil engineering structures 129 4.5.5
The main demolition techniques 130 4.6 Technical innovations in nuclear
decommissioning 131 4.6.1 Research and development policies in the field of
decommissioning 131 4.6.2 Industrial organization in the field of nuclear
decommissioning 133 4.6.3 Management of radioactive contamination 134 4.6.4
Numerical simulations in the field of nuclear decommissioning 136 4.6.5
Cutting of large parts 139 4.6.6 Automation in the field of nuclear
decommissioning 140 4.6.7 Estimating radiation doses 142 4.7 Conclusions
142 Chapter 5 The Dismantling of Military Nuclear Facilities 145 5.1
Introduction 145 5.2 The decommissioning of military plants at the
beginning of the nuclear fuel cycle 146 5.2.1 The decommissioning of
military uranium enrichment plants 146 5.2.2 Decommissioning of
plutonium-producing reactors 150 5.2.3 Decommissioning of tritium-producing
reactors 157 5.2.4 Decommissioning of fissile fuel fabrication plants 158
5.3 The decommissioning of military spent fuel reprocessing plants 159
5.3.1 The dismantling of US reprocessing plants 160 5.3.2 The UP1 plant in
Marcoule, France 160 5.3.3 The dismantling of other military reprocessing
plants around the world 163 5.4 Decommissioning and decontamination of
military sites 163 5.4.1 US military facilities 164 5.4.2 The dismantling
of Soviet and Russian military nuclear facilities 174 5.4.3 The dismantling
of French military nuclear facilities 176 5.4.4 The decontamination of the
British site of Maralinga 178 5.5 The destruction of atomic weapons and
their vectors 178 5.5.1 The deconstruction of atomic bombs 178 5.5.2
American disarmament 179 5.5.3 Russian disarmament: international
collaboration 180 5.5.4 Disarmament of submarines and other military
nuclear vessels 181 5.5.5 Denuclearization of rocket bases 190 5.6
Conclusions 191 Chapter 6 The Dismantling of Electronuclear Reactors 193
6.1 Introduction 193 6.1.1 The various types of electronuclear reactors 194
6.2 The dismantling of graphite-moderated reactors 195 6.2.1
Decommissioning of French nuclear power reactors (UNGG) 195 6.2.2 The
dismantling of British reactors 200 6.2.3 The dismantling of the RMBK
sector 202 6.3 The dismantling of the pressurized water system (PWR) 203
6.3.1 The dismantling of German reactors 204 6.3.2 The dismantling of
American reactors 205 6.3.3 The dismantling of French reactors 206 6.3.4
Reactor decommissioning in other countries 207 6.3.5 The dismantling of
WWER reactors 207 6.4 Dismantling the heavy water sector 210 6.5
Dismantling of the boiling water reactor sector 212 6.6 Dismantling
following a nuclear accident 217 6.6.1 IAEA and NEA recommendations 220
6.6.2 The dismantling of Three Mile Island 221 6.6.3 The dismantling of
Chernobyl 222 6.6.4 The decommissioning of Fukushima 223 6.6.5
Decommissioning of other damaged nuclear facilities 224 6.7 Future reactor
shutdowns 225 6.8 Conclusions 227 Chapter 7 The Decommissioning of Research
Reactors and Other Basic Nuclear Facilities 229 7.1 Introduction 229 7.2
The dismantling of experimental reactors around the world 230 7.2.1 The
main roles of experimental reactors 230 7.2.2 The global overview of
experimental reactors 231 7.2.3 The main types of experimental reactors 233
7.2.4 Major incidents and accidents involving research reactors 235 7.2.5
Cost 236 7.2.6 Some examples of the decommissioning of experimental
reactors 236 7.2.7 Heavy water research reactors (HWRR) 238 7.2.8 Fast
neutron reactors 240 7.2.9 Other research reactors 240 7.3 Decommissioning
and dismantling of fourth-generation reactors 242 7.3.1 The dismantling of
the fast neutron reactor (FNR) industry 243 7.3.2 High-temperature nuclear
reactors 247 7.3.3 The other fourth-generation sectors 248 7.4 The
dismantling of first-generation prototype reactors 249 7.4.1 PWR reactors
250 7.4.2 The dismantling of the boiling water reactor (BWR) process 252
7.4.3 The dismantling of the gas reactor sector (AGR) 252 7.4.4 Dismantling
the heavy water industry 253 7.4.5 The dismantling of prototype reactors
from various sectors 255 7.5 The dismantling of basic nuclear fuel cycle
facilities 256 7.5.1 The dismantling of extraction mines 256 7.5.2 The
dismantling of enrichment plants 257 7.5.3 The dismantling of conversion
and manufacturing plants 259 7.5.4 The dismantling of reprocessing plants
260 7.6 Decommissioning of other basic nuclear facilities 263 7.6.1 The
centers of nuclear studies 263 7.6.2 The centers of industrial operation
266 7.6.3 Service facilities 269 7.6.4 Interim nuclear waste storage
centers 270 7.6.5 Other BNIs in the dismantling stage 271 7.7 Conclusions
273 General Conclusions 275 List of Acronyms 287 References 295 Index 333