Page 460 - Fundamentals of Magnetic Thermonuclear Reactor Design
P. 460

Index     437


               radiation safety. See Radiation safety   thermal shields, 56
               R&D programme, 40               toroidal field coil
               reactor assembly, 60              global model of, 362
               reactor configuration and characteristics, 45  physical simulation of, 382
                cooling water system, 44         stress state of, 362
                design parameters, 43          toroidal field coil power supply
                D–T Campaign, parameter for, 43  BPS, 332
                magnetic system, 42              fast discharge units, 330, 331
                plasma heating system, 44        FDR, 332, 333
                toroidal field (TF) coils, 42    ground resistor, 330
                vacuum pumping and tritium complex, 44  MCB, 331, 332
               safety analysis                   PMS, 331, 332
                computer codes, 428              principles, 330
                cryostat events, 427             12-pulse TC, 330
                electric power supply, 427       VCB, 332
                loss of hot cell events, 427   toroidal field model coil, 143
                hot cell events, 427           vacuum chamber, 398
                in-vessel cooling system events, 427  vacuum vessel, 52
                in-vessel heat-transfer system, 427  In-vessel components
                ex-vessel events, 427          divertor, 55
                magnet events, 427             first-wall panels, 54
                maintenance events, 427       Ion cyclotron resonance heating, 288
                plasma events, 427            ITER Magnet Structural Design Criteria, 385
                tritium plant and vacuum system
                  events, 427                 J
               simulation and testing results, 150
               switching equipment            Japanese blankets, 302, 303
                extra protective make switch, 348  HCSB, 299
                FMS, 346                       FFHR-2, 309
                movable contact element, 346   SSTR-2, 306
                multiple-acting switches, 344, 345  Japanese JT-60, 326
                single-acting protective switches, 346  Joule heating, 3
                switch contact system, 345
               test blanket modules           K
                DEMO-S blanket parameters, 310–312  KLONDIKE code, 82
                experimental data, 312        Klystron, 290
                helium-cooled ceramic breeder TBM   KOMPOT code, 77
                  characteristics, 314, 315   Korean He–Li blanket(HCML), 305, 307
                liquid-metal TBM characteristics, 314, 316  Kruskal–Shafranov criterion, 3
                MHD characteristics and properties of
                  electrical insulation barriers, 313
                neutron characteristics, 313  L
                physical and mathematical simulation, 309  Lagrange multiplier method, 88
                Russian Li–V TBM version, 314, 317  Large Helical Device (LHD) torsatron, 9
                thermal hydraulic characteristics, 313  License, 404
                thermal mechanical characteristics, 314  Linear elasticity, 367
                tritium breeding, 312         Lines of defence (LoD), 409, 423
               thermal–hydraulic simulations, 155, 165  Lithium
                central solenoid model, 169    input/output temperature, 296
                central solenoid model coil, 160  lead-lithium, 293
                toroidal field magnet model, 166  liquid, 293
                Venecia basic models and modelling   natural, 292
                  technique, 157               pure, 293
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