Tritium distribution analysis of Be limiter tiles from JET-ITER like wall campaigns using imaging plate technique and β-ray induced X-ray spectrometry

•Tritium distributions in Be limiter tiles from the JET with ITER-like wall were analyzed.•The largest tritium retention was observed at the center of outer poloidal limiter.•The inner wall guard limiter and upper dump plate showed smaller tritium retention than outer poloidal limiter.•Distributions...

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Bibliographic Details
Published in:Fusion engineering and design 2020-11, Vol.160, p.111959, Article 111959
Main Authors: Lee, S.E., Hatano, Y., Hara, M., Masuzaki, S., Tokitani, M., Oyaizu, M., Kurotaki, H., Hamaguchi, D., Nakamura, H., Asakura, N., Oya, Y., Likonen, J., Widdowson, A., Jachmich, S., Helariutta, K., Rubel, M.
Format: Article
Language:English
Subjects:
Analytical techniques
Beryllium
Deposition
Deposition profiles
Deuterium
Distribution analysis
Impurities
Ion beam analysis
Ion beams
ITER-like wall
Joint European Torus
Magnetoplasma
Maximum concentrations
Nuclear power plants
Plasma facing surfaces
Poloidal limiters
Positrons
Radiography
Retention mechanism
Scientific imaging
Spectrometry
Tiles
Tokamak devices
Tritium
Tritium analysis
X ray spectrometry
X rays
X-ray spectroscopy
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Summary:•Tritium distributions in Be limiter tiles from the JET with ITER-like wall were analyzed.•The largest tritium retention was observed at the center of outer poloidal limiter.•The inner wall guard limiter and upper dump plate showed smaller tritium retention than outer poloidal limiter.•Distributions of tritium found at castellation grooves were similar to those of metallic impurities and deuterium. Tritium (T) distribution on the plasma-facing surfaces (PFSs) and inside castellation of Be limiter tiles from the JET tokamak with the ITER-like wall (ILW) was analyzed using imaging plate (IP) technique and β-ray induced X-ray spectrometry (BIXS). Regarding to PFSs, the outer poloidal limiter (OPL) showed significantly higher T concentrations than the inner wall guard limiter (IWGL) and upper dump plate (DP). The concentration of T on OPL was high at the central part. However, deuterium (D) and metallic impurities showed maximum concentration at the edges. This difference in distributions indicated different deposition and retention mechanisms between T and D. In contrast, deposition profiles of T concentrations on the castellated surfaces extended up to ∼ 5 mm into the gap, i.e. were similar to those of D and metallic impurities found by ion beam analysis.
ISSN:0920-3796
1873-7196
1873-7196
DOI:10.1016/j.fusengdes.2020.111959