1. ERO modelling of local deposition of injected 13C tracer at the outer divertor of JET
- Author
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Marek Rubel, J. D. Strachan, Markus Airila, A. Kirschner, Anna Widdowson, J.P. Coad, S. Brezinsek, Jari Likonen, L. Aho-Mantila, Jet-Efda Contributors, S. Wiesen, and Dmitry Matveev
- Subjects
Jet (fluid) ,Materials science ,EROSION ,Divertor ,chemistry.chemical_element ,Plasma ,SCRAPE-OFF LAYER ,Condensed Matter Physics ,TRANSPORT ,Atomic and Molecular Physics, and Optics ,CARBON ,Physics and Astronomy ,chemistry ,Impurity ,TRACER ,Graphite ,Atomic physics ,Carbon ,Deposition (chemistry) ,Mathematical Physics - Abstract
The 2004 tracer experiment of JET with the injection of 13CH4 into H-mode plasma at the outer divertor has been modelled with the Monte Carlo impurity transport code ERO. EDGE2D solutions for inter-ELM and ELM-peak phases were used as plasma backgrounds. Local two-dimensional (2D) deposition patterns at the vertical outer divertor target plate were obtained for comparison with post-mortem surface analyses. ERO also provides emission profiles for comparison with radially resolved spectroscopic measurements. Modelling indicates that enhanced re-erosion of deposited carbon layers is essential in explaining the amount of local deposition. Assuming negligible effective sticking of hydrocarbons, the measured local deposition of 20–34% is reproduced if re-erosion of deposits is enhanced by a factor of 2.5–7 compared to graphite erosion. If deposits are treated like the substrate, the modelled deposition is 55%. Deposition measurements at the shadowed area around injectors can be well explained by assuming negligible re-erosion but similar sticking behaviour there as on plasma-wetted surfaces.
- Published
- 2009
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