Fusion Reactor Design
Provides a detailed overview of fusion reactor design, written by an international leader in the field
Nuclear fusion - generating four times as much energy from the same mass of fuel as nuclear fission - is regarded by its proponents as a viable, eco-friendly alternative to gas-fired, coal-fired, and conventional power plants. Although the physics of nuclear fusion is essentially understood, the construction of prototype reactors currently presents significant technical challenges. Fusion Reactor Design: Plasma Physics, Fuel Cycle System, Operation and Maintenance provides a systematic, reader-friendly introduction to the characteristics, components, and critical systems of fusion reactors.
Focusing on the experimental Tokamak reactor, this up-to-date resource covers relevant plasma physics, necessary technology, analysis methods, and the other aspects of fusion reactors. In-depth chapters include derivations of key formulas, figures highlighting physical and structural characteristics of fusion reactors, illustrative numerical calculations, practical design examples, and more. Designed to help researchers and engineers understand and overcome the technological difficulties in making fusion power a reality, this volume: - Provides in-depth knowledge on controlled thermonuclear fusion and its large-scale application in both current fusion reactors and future test reactors - Covers plasma analysis, plasma equilibrium and stability, and plasma transport and confinement, and safety considerations - Explains each component of fusion reactors, including divertors, superconducting coils, plasma heating and current drive systems, and vacuum vessels - Discusses safety aspects of fusion reactors as well as computational approaches to safety aspects of fusion reactors
Fusion Reactor Design: Plasma Physics, Fuel Cycle System, Operation and Maintenance is required reading for undergraduate and graduate students studying plasma physics and fusion reactor technology, and an important reference for nuclear physicists, nuclear reactor manufacturers, and power engineers involved in fusion reactor research and advanced technology development.
Provides a detailed overview of fusion reactor design, written by an international leader in the field
Nuclear fusion - generating four times as much energy from the same mass of fuel as nuclear fission - is regarded by its proponents as a viable, eco-friendly alternative to gas-fired, coal-fired, and conventional power plants. Although the physics of nuclear fusion is essentially understood, the construction of prototype reactors currently presents significant technical challenges. Fusion Reactor Design: Plasma Physics, Fuel Cycle System, Operation and Maintenance provides a systematic, reader-friendly introduction to the characteristics, components, and critical systems of fusion reactors.
Focusing on the experimental Tokamak reactor, this up-to-date resource covers relevant plasma physics, necessary technology, analysis methods, and the other aspects of fusion reactors. In-depth chapters include derivations of key formulas, figures highlighting physical and structural characteristics of fusion reactors, illustrative numerical calculations, practical design examples, and more. Designed to help researchers and engineers understand and overcome the technological difficulties in making fusion power a reality, this volume: - Provides in-depth knowledge on controlled thermonuclear fusion and its large-scale application in both current fusion reactors and future test reactors - Covers plasma analysis, plasma equilibrium and stability, and plasma transport and confinement, and safety considerations - Explains each component of fusion reactors, including divertors, superconducting coils, plasma heating and current drive systems, and vacuum vessels - Discusses safety aspects of fusion reactors as well as computational approaches to safety aspects of fusion reactors
Fusion Reactor Design: Plasma Physics, Fuel Cycle System, Operation and Maintenance is required reading for undergraduate and graduate students studying plasma physics and fusion reactor technology, and an important reference for nuclear physicists, nuclear reactor manufacturers, and power engineers involved in fusion reactor research and advanced technology development.
Table of Contents
Preface xxv
1 Characteristics of the Fusion Reactor 1
2 Basis of the Fusion Reactor 17
3 Basics of Plasma Analysis 31
4 Plasma Equilibrium and Stability 57
5 Plasma Transport and Confinement 113
6 Plasma Design 141
7 Blanket 157
8 Plasma-Facing Components 191
9 Coil System 227
10 Plasma Heating and Current Drive 273
11 Vacuum Vessel 385
12 Fuel Cycle System 405
13 Cryostat 425
14 Nuclear Design 435
15 Operation and Maintenance 457
16 Cooling System 473
17 Power Supply System 483
18 Operation Control and Diagnostic Systems 501
19 Safety 539
20 Analysis Code 563
Index 593
