Hybrid H-mode scenario with nitrogen seeding and type III ELMs in JET
Author | |
Abstract |
The performance of the 'hybrid' H-mode regime (long pulse operation with high neutron fluency) has been extensively investigated in JET during the 2005-2007 experimental campaign up to normalized pressure beta(N) = 3, toroidal magnetic field B-t = 1.7T, with type I ELMs plasma edge conditions. The optimized external current drive sources, self-generated non-inductive bootstrap current and plasma core stability properties provide a good prospect of achieving a high fusion gain at reduced plasma current for long durations in ITER. One of the remaining issues is the erosion of the divertor target plates associated with the type I ELM regime. A possible solution could be to operate with a plasma edge in the type III ELM regime (reduced transient and stationary heat loads) obtained with impurity seeding. An integrated hybrid type III ELM regime with a normalized pressure beta(N) = 2.6 (PNBI similar to 20-22 MW) and a thermal confinement factor of H-98* 98(y, 2) similar to 0.83 has been recently successfully developed on JET with nitrogen seeding. This scenario shows good plasma edge condition (compatible with the future ITER-like wall on JET) and moderate MHD activity. In this paper, we report on the experimental development of the scenario (with plasma current I-p = 1.7MA and magnetic field B-t = 1.7T) and the trade-off between heat load reduction at the target plates and global confinement due to nitrogen seeding and type III ELM working conditions. |
Year of Publication |
2008
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Journal |
Plasma Physics and Controlled Fusion
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Volume |
50
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Number |
11
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Number of Pages |
20
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Date Published |
Nov
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Type of Article |
Article
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ISBN Number |
0741-3335
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Accession Number |
ISI:000260311700012
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URL |
<Go to ISI>://000260311700012
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PId |
05ed723ff0cf9e79390d0257e9be4d4d
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Alternate Journal |
Plasma Phys. Control. Fusion
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Journal Article
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