Page 373 - Fundamentals of Magnetic Thermonuclear Reactor Design
P. 373
Chapter 12
Mechanics of Magnetic Fusion
Reactors
Alexander B. Alekseev
ITER Organization, St Paul Lez Durance, France
Chapter Outline
12.1 Introduction 352 12.5 Magneto-Elastic Stability 366
12.2 Tokamak Superconducting 12.5.1 Problem Statement 366
Magnet: Load Schemes 353 12.5.2 Stability of Toroidal
12.2.1 System of Toroidal and Poloidal Field
Field Coils 353 Systems 367
12.2.2 Poloidal Field 12.6 Strength and Stiffness Analysis
Coils and Central of a Vacuum Vessel 369
Solenoid 354 12.6.1 Mechanical
12.2.3 General Algorithm Loads 369
for Design and 12.6.2 Strength and
Computation 354 Life-Time 370
12.3 Computations for 12.7 Stellarator Structural
Composite Windings 356 Analysis 372
12.4 Stress–Strain State Appendix A.12.1 Magneto-Elastic
of Tokamak Load-Bearing Stability of ITER Poloidal
Structures 360 Field Coil System 374
12.4.1 Global and Local Appendix A.12.2 Poloidal Field
Computational Coil Magneto-Elastic
Models 360 Stability Under the Action
12.4.2 Reaction to Off-Normal of Tokamak Toroidal Field 379
Current Combinations Appendix A.12.3 Physical
in Windings 364 Simulation of ITER
12.4.3 Accident Scenarios 365 Toroidal Field Coil 382
12.4.4 Thermal Mechanics Appendix A.12.4 Codes and
of Superconducting Standards for Tokamaks 383
Magnet Systems 366 References 385
Fundamentals of Magnetic Thermonuclear Reactor Design. http://dx.doi.org/10.1016/B978-0-08-102470-6.00012-3
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