Wall conditioning of JET with the ITER-Like Wall
Author | |
Abstract |
The initial conditioning cycle of \{JET\} İLW\} is analysed and compared with restart and operation in 2008 with a carbon dominated wall. Comparable water and oxygen decay times are observed during bake-out in both cases. Despite a 2 × 10−3 mbar l/s leak rate during plasma operation, no further wall conditioning has been necessary after plasma restart in ILW, which dramatically contrasts with 2008. Plasma O content is lower with the ILW. Higher O levels are measured after nights or week-ends, BeO layers being formed and re-eroded, but do not impact plasma operation and performance. First results on isotopic wall changeover by \{GDC\} on the İLW\} six months of the first \{D2\} campaign evidence a reservoir of about 3 × 1022 atoms, i.e. ten time lower than in carbon PFCs. A study in \{JET\} of the glow discharge current distribution for different ratios of the ionization mean free paths to the vessel dimensions seems to indicate sufficient toroidal and poloidal homogeneity in ITER. |
Year of Publication |
2013
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Journal |
Journal of Nuclear Materials
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Volume |
438, Supplement
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Number of Pages |
S1172 - S1176
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URL |
http://www.sciencedirect.com/science/article/pii/S0022311513002675
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DOI |
10.1016/j.jnucmat.2013.01.259
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PId |
e871f2d57039e54ffebbe25c665aef98
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Alternate Journal |
J. Nucl. Mater.
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Journal Article
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