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EMC3-EIRENE modelling of edge impurity transport in the stochastic layer of the large helical device compared with extreme ultraviolet emission measurements
Ist Teil von
Nuclear fusion, 2016-06, Vol.56 (6), p.66005
Erscheinungsjahr
2016
Beschreibungen/Notizen
Abstract
The transport properties and line emissions of carbon impurity in the stochastic layer of the Large Helical Device have been investigated with the 3D edge transport code EMC3-EIRENE. A parameter study has been performed to examine the sensitivity of the simulation results on each transport term in the impurity transport model and the impurity source characteristics, i.e. the source amount and the location. The modelling has revealed that in order to reproduce the experimental results of the emission distribution, the impurity perpendicular transport coefficient (
D
imp
) and the first wall source play important roles, while changes to the ion thermal and the friction forces are rather irrelevant. The detailed study of flux tube tracing and magnetic field structure in the edge stochastic layer, in relation to impurity transport, has shown that the deeper penetration of impurity into the higher plasma density region due to the enhanced
D
imp
and the first wall source is responsible for the change of emission pattern as well as the intensity. The analysis indicates that
D
imp
might be larger than that of background plasma by a few factors and also that there probably exists a substantial amount of first wall impurity source.