| Autor: |
James R. Wilson, John D Galambos, J. A. Schmidt, I.N. Sviatoslavsky, X.R. Wang, L.R. Grisham, Y. K. M. Peng, Stephen Jardin, Jonathan Menard, Richard Majeski, E. T. Cheng, R.J. Cerbone, Ker-Chung Shaing, F. Dahlgren, Stanley Kaye, J. Robinson, David Gates, W. Reiersen, R. W. Woolley, Dennis J Strickler, D. R. Mikkelsen, Masayuki Ono |
| Rok vydání: |
2000 |
| Předmět: |
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| Zdroj: |
Nuclear Fusion. 40:583-587 |
| ISSN: |
0029-5515 |
| Popis: |
The scientific parameters and the technology issues for a modest size spherical torus (ST) at 10 MA plasma current are discussed. This class of devices includes a DT-capable ST experiment (DTST, R0 = 1.2 m) for extended plasma performance tests for limited pulse lengths and neutron fluences, and a volume neutron source (VNS, R0 = 1.1 m) for steady state energy technology testing to high neutron fluences. The scientific issues of interest for DTST include non-inductive ramp-up of plasma current on a limited timescale (~30 s), the confinement needed for high Q burn, the behaviour of energetic particles, the physics and techniques to handle intense plasma exhaust, and the possibility of high performance plasma regimes free of disruptions or large disruption impact. Of further interest for the VNS would be steady state operation using large external current drive, possibly at a modest Q (~1-2), achieving significant neutron wall loading (~1 MW/m2) and a configuration relatively amenable to remote maintenance. A much longer timescale would be permitted in a VNS for non-inductive current ramp-up. The centre leg of the toroidal field coils, possibly multiturn for DTST and necessarily single turn for a VNS without significant nuclear shielding, presents technical and material issues of unique importance to the ST. Positive ion neutral beam injection and high harmonic fast wave (~80 MHz) heating and current drive systems already available are likely to be adequate for DTST following pulse length extension to ~50 s. Given an adequate physics database, the remaining enabling technologies needed for the VNS appear largely similar in nature to those of the ITER EDA design. |
| Databáze: |
OpenAIRE |
| Externí odkaz: |
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