Modelling with COREDIV Code of JET ILW Configuration

Zagórski, R.; Telesca, G.; Fundamenski, W.; McCormick, K.

doi:10.1002/ctpp.201010050

Cited by 3 publications

(1 citation statement)

References 10 publications

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“…Additionally, experimental results were supported by simulations using the COREDIV code. 16 This numerical modeling of plasma parameters solves the 1D radial transport equations of plasma and impurities in the core region and 2D multi-fluid transport in the SOL. In the case of presented analysis, simulations for the radial diffusion in SOL with D SOL rad = 0.5 m 2 /s were carried out.…”

Section: Experimental and Simulation Resultsmentioning

confidence: 99%

Application of the VUV and the soft x-ray systems on JET for the study of intrinsic impurity behavior in neon seeded hybrid discharges

Krawczyk

Czarnecka

Ivanova‐Stanik

et al. 2018

Review of Scientific Instruments

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This paper reports on impurity behavior in a set of hybrid discharges with Ne seeding—one of the techniques considered to reduce the power load on reactor walls. A series of experiments carried out with light gas injection on JET with the ITER-Like-Wall (ILW) suggests increased tungsten release and impurity accumulation [C. Challis et al., Europhysics Conference Abstracts 41F, 2.153 (2017)]. The presented method relies mainly on the measurements collected by vacuum-ultra-violet and soft X-ray (SXR) diagnostics including the “SOXMOS” spectrometer and the SXR camera system. Both diagnostics have some limitations. Consequently, only a combination of measurements from these systems is able to provide comprehensive information about high-Z [e.g., tungsten (W)] and mid-Z [nickel (Ni), iron (Fe), copper (Cu), and molybdenum (Mo)] impurities for their further quantitative diagnosis. Moreover, thanks to the large number of the SXR lines of sight, determination of a 2D radiation profile was also possible. Additionally, the experimental results were compared with numerical modeling based on integrated simulations with COREDIV. Detailed analysis confirmed that during seeding experiments, higher tungsten release is observed, which was also found in the past. Additionally, it was noticed that besides W, the contribution of molybdenum to SXR radiation was greater, which can be explained by the place of its origin.

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Section: Experimental and Simulation Resultsmentioning

confidence: 99%