Spectroscopic investigation of N and Ne seeded induced detachment in JET ITER-like wall L-modes combining experiment and EDGE2D modeling

Lomanowski, B. and Carr, M. and Field, A. and Groth, M. and Jaervinen, A.E. and Lowry, C. and Meigs, A.G. and Menmuir, S. and O'Mullane, M. and Reinke, M.L. and Stavrou, C.K. and Wiesen, S. (2019) Spectroscopic investigation of N and Ne seeded induced detachment in JET ITER-like wall L-modes combining experiment and EDGE2D modeling. Nuclear Materials and Energy, 20. 100676. ISSN 2352-1791 (https://doi.org/10.1016/j.nme.2019.100676)

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Abstract

Modeling and experimental investigation of the distribution of seeded impurities and their influence on divertor detachment in all-metal tokamaks is critical for developing reactor-scale exhaust scenarios. In this work, the degree and operating space for Ne and N impurity seeded induced detachment in JET with ITER-like wall (JET-ILW) L-mode discharges is shown to be regulated by the combination of i) the local radiative dissipation in the low-field side divertor; and ii) the incursion of the ionization front towards the X-point with increased impurity seeding. Using a quantitative spectroscopic approach, it is shown that the net particle balance at the low-field side target is dominated by a marked decrease in the ionization source between the X-point and the target with increased N and Ne seeding, and only a marginal increase in the volume recombination rate. With increased seeding, the local radiated power dissipation (N only) and reduction in the power crossing the separatrix (both nitrogen and neon) leads to a reduction in the low-field side target Te. Consequently, the incursion of the ionization front away from a region of enhanced ionization rate caused by high Lyman series opacity at the outer target leads to a steep decrease of the outer target ion flux. In contrast to experiment, EDGE2D-EIRENE simulations using optically thin divertor plasma assumptions show a larger impact of volume recombination and a factor of two shortfall in the low-field side divertor ne. A detailed assessment of opacity effects using the EIRENE photon transport module is recommended.

  • Item type:Article
    ID code:69737
    Dates:
    Date
    Event
    31 August 2019
    Published
    16 April 2019
    Published Online
    15 April 2019
    Accepted
    Subjects:Science > Physics
    Department:Faculty of Science > Physics
    Depositing user: Pure Administrator
    Date deposited:10 Sep 2019 14:18
    Last modified:26 Apr 2024 00:36
    Related URLs:
    URI:https://strathprints.strath.ac.uk/id/eprint/69737
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