| 청구기호 |
TK9185 .W556 2016eb |
| 형태사항 |
1 electronic document (various pagings) : illustrations (some color).
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| 총서명 |
IOP expanding physics, 2053-2563
[IOP release 2]
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| 언어 |
English |
| 일반주기 |
"Version: 20160501"--Title page verso.
EPUB version includes embedded videos.
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| 서지주기 |
Includes bibliographical references.
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| 내용 |
9. Mistakes made and lessons learnt -- 9.1. Windscale--Pile 1 -- 9.2. Three Mile Island--Reactor 2 -- 9.3. Chernobyl--Reactor 4 -- 9.4. Fukushima Daiichi -- 9.5. How do the incidents compare?
8. Materials and nuclear fusion -- 8.1. Atomic background and recap -- 8.2. Requirements for fusion -- 8.3. ITER--the International Thermonuclear Experimental Reactor -- 8.4. Outcomes and challenges in fusion -- 8.5. Material requirements -- 8.6. Radiation damage and the first wall -- 8.7. Sputtering -- 8.8. Gas bubble formation -- 8.9. The divertor -- 8.10. Breeding and heat generation -- 8.11. Tritium breeding -- 8.12. Challenges in fission and fusion
7. The challenges of nuclear waste -- 7.1. Sources of nuclear waste -- 7.2. Natural sources of uranium/thorium -- 7.3. Long-term effects in waste forms -- 7.4. Long-term behaviour of nuclear waste -- 7.5. Geological disposal of nuclear waste -- 7.6. Ceramics and glasses--comparison -- 7.7. Transmutation
6. The challenges for materials in new reactor designs -- 6.1. Generation IV--genesis -- 6.2. Reactor types -- 6.3. Material challenges in GenIV -- 6.4. Containment -- 6.5. Radiation damage -- 6.6. Alternative reactor technology -- 6.7. Travelling wave reactor -- 6.8. Thorium reactors -- 6.9. Small modular reactors (SMR)
5. Evolution of reactor technologies -- 5.1. Generation I--prototype reactors -- 5.2. GenII--commercial reactors -- 5.3. GenerationIII/generationIII+--evolved designs -- 5.4. Molten salt reactors -- 5.5. Summary
4. Nuclear fuel, part 2 : operational effects -- 4.1. Initial stages -- 4.2. Classical effects from heating -- 4.3. Fission products -- 4.4. Initial reactor operation -- 4.5. Fuel cladding under operation within the core -- 4.6. Fuel and cladding -- 4.7. Cladding corrosion
3. Nuclear fuel, part 1 : fuel and cladding -- 3.1. What is required from fuel in a fission reactor? -- 3.2. Reminder of the fission process -- 3.3. What are the realistic types of fuel? -- 3.4. Uranium -- 3.5. Plutonium -- 3.6. Fuel containment -- 3.7. Zirconium-based cladding -- 3.8. Iron-based cladding -- 3.9. How do fuel and cladding relate to each other?
2. Radiation damage -- 2.1. Key definitions -- 2.2. Radiation damage -- 2.3. Prediction of damage--the Kinchin-Pease methodology -- 2.4. Implications of damage -- 2.5. Outcomes from damage -- 2.6. Modelling damage build-up in materials -- 2.7. The bulk effects of damage
Preface -- 1. Atomic considerations -- 1.1. Isotopes -- 1.2. Nuclear stability and radioactive decay -- 1.3. Alpha-decay ([alpha]-decay) -- 1.4. Beta-decay ([beta]-decay) -- 1.5. Beta+/positron emission or electron capture -- 1.6. Gamma emission -- 1.7. How do the mechanisms relate to each other? -- 1.8. Radioactive half-life -- 1.9. Decay series -- 1.10. Observations on isotope stability -- 1.11. Binding energy -- 1.12. Fission and fusion -- 1.13. Spontaneous fission -- 1.14. Inducing fission and chain reactions -- 1.15. Neutron absorption and fissile and fertile isotopes -- 1.16. Increasing fission yield -- 1.17. What are the key criteria for nuclear fission?
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| 주제 |
TECHNOLOGY & ENGINEERING / Materials Science. --bisacsh
Materials science. --bicssc
Nuclear fuels.
Nuclear engineering.
Nuclear reactors --Materials.
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| 보유판 및 특별호 저록 |
Print version: 9780750311052
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| ISBN |
9780750311281, 9780750311045 9780750311052, |
| 기타 표준번호 |
10.1088/978-0-7503-1104-5 |
| QR CODE |
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