Page 463 - Fundamentals of Magnetic Thermonuclear Reactor Design
P. 463
440 Index
Power supply systems (PSSs) normal operation, 415
for fusion applications, 323 operational safety, 420
poloidal field coil operational states, dose criteria and
central solenoid coils, 333 acceptable releases, 416
ITER, 337 optimisation principle, 415
plasma equilibrium control coils, 336 safety objectives, 414
pulsed power of, 323 second confinement barrier, 417
switching equipment third confinement barrier, 418
for experimental facilities, 343 national regulations and laws, 404
ITER, 344 objectives, 406
tokamak research, 323 optimisation principle, 407
toroidal field coil organisational and technical safety
ITER, 330 measures, 407
resistive coils, 324 Radiation shielding, 27
superconducting coils, 327 Radioactive materials (RMs), 412
Protective make switch (PMS), 331, 332 liquid and solid, 412
Protium, 1 low-activated materials, 413
reprocessing of, 413
and waste handling processes, 413
R Radioactive substances (RSs), 406, 409
Radiation emergency, 426 Radioactive waste, 412, 426
Radiation risks, 425 RCC-MR 2007 codes, 384
Radiation safety Reactor assembly, 60
criteria, 406 Reduced activation ferritic–martensitic
definition, 404 (RAFM) steels, 294, 301
expediency substantiation principle, 407 Resistive coils, 324
functions, 408 Russian DEMO-S project, 292, 295
collective workers’ radiation dose, 411 Russian helium-cooled ceramic breeder
functional barriers, 409 blanket, 302
general quality assurance program, 410 Russian laws, 404
lines of defence, 409 Russian Li–V blanket, 304, 305
multifunctional systems, 409
occupational gamma radiation dose
rate, 411 S
operational safety, 409 Safety analysis report (SAR), 404
physical barriers, 409 Safety Important System/Component (SIS/
reactor safety analysis, 411 SIC), 409
reactor site requirements, 410 Safety systems (SS), 405
SIC quality requirements, 410 SDC-IC regulatory framework, 385
training programs, 410 Snubber circuit (SC), 332
ITER, 422 Spheromaks, 12
activated removable components, 418 Stacking fault tetrahedra (SFT), 396
auxiliary safety functions, 415 Stellarators, 9
comprehensive safety analysis, 419, 420 functional layout and characteristics, 27
depth protection principle, defence research facilities, 30
in, 417 stellarator fusion reactor, 33
design principles for, 414 Stellarator structural analysis, 372
dose limits, 415 Stress analysis, 352, 361, 382
effluents, estimate of, 419 Stress intensity, 366
first safety confinement barrier, 417 Structural and functional materials
hypothetical events, 420, 421 comparative characteristics
for normal and off-normal aluminium alloys, 392
situations, 419 austenitic chromium nickel steels, 391
