Comparison of hydrogen and tritium uptake and retention in JET

During previous Joint European Torus (JET) deuterium-to-tritium change-over experiments, subdivertor tritium concentrations were compared with those measured at the strike point region and found to differ significantly during the first few discharges, which was correlated with wall saturation. New d...

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Bibliographic Details
Published in:Journal of nuclear materials 2001-03, Vol.290, p.418-422
Main Authors: Hillis, D.L., Hogan, J., Coad, J.P., Duxbury, G., Groth, M., Guo, H.Y., Horton, L., Matthews, G., Meigs, A., Morgan, P., Stamp, M., von Hellermann, M.
Format: Article
Language:English
Subjects:
Carbon
Divertor
EIRENE
Hydrogen retention
JET
Tritium
Wall pumping
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Summary:During previous Joint European Torus (JET) deuterium-to-tritium change-over experiments, subdivertor tritium concentrations were compared with those measured at the strike point region and found to differ significantly during the first few discharges, which was correlated with wall saturation. New deuterium-to-hydrogen fueling experiments in JET have been made and are compared to these previous experiments. Rates of hydrogenic species exchange are similar to those found in previous tritium experiments, granting differences in divertor configuration and mass ratio. In the new experiments, measurements of the CD and CH molecular band intensities near the divertor strike point monitor an intermediate stage of particle exchange between the plasma and wall. The CD/CH ratio correlates well with both the plasma and subdivertor concentration. The neutral transport code EIRENE and the wall hydrogen trapping and diffusion code WDIFFUSE have been used to evaluate the wall saturation. It appears that chemically-related processes play a role in mediating the plasma–wall exchange.
ISSN:0022-3115
1873-4820
DOI:10.1016/S0022-3115(00)00439-6