Erosion, screening, and migration of tungsten in the JET divertor

Brezinsek, S.; Kirschner, A.; Mayer, M.; Baron-Wiechec, A.; Borodkina, I.; Borodin, D.; Coffey, I.; Coenen, J. W.; Harder, N. den; Eksaeva, A.; Guillemaut, C.; Heinola, K.; Huber, A.; Huber, V.; Imríšek, M.; Jachmich, S.; Pawelec, E.; Rubel, M.; Krat, S.; Sergienko, G.; Matthews, G. F.; Meigs, A.; Wiesen, S.; Widdowson, A.; Contributors, Jet

doi:10.1088/1741-4326/ab2aef

Cited by 74 publications

(57 citation statements)

References 56 publications

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“…It was already concluded earlier that the erosion of tungsten at the divertor under attached plasma conditions is mainly caused by sputtering by light impurities, especially by B, C and O ions [38,39], while in ELMy H-mode the erosion during ELMs by accelerated fuel-and impurity ions [40] can exceed the erosion in between ELMs considerably [41]. As up to now no ELMs were observed in W7-X, the observed erosion of tungsten at the divertor is due to the attached plasma conditions with relatively high plasma temperatures at the strike line.…”

Section: Test Divertor Unit (Tdu)mentioning

confidence: 94%

Erosion of tungsten marker layers in W7-X

et al. 2021

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In order to get first insight into net tungsten erosion in W7-X, tungsten (W) marker layers were exposed during the operational phase OP 1.2b at one position of the Test Divertor Unit (TDU), at 21 different positions of the inner heat shield, and at two scraper elements. The maximum tungsten erosion rate at the TDU strike line was 0.13 nm s−1 averaged over the whole campaign. The erosion was inhomogeneous on a microscopic scale, with higher erosion on ridges of the rough surface inclined towards the plasma and deposition of hydrocarbon layers in the recessed areas of the rough surface. The W erosion at the inner heat shield was below the detection limit of 3–6 × 1012 W-atoms/cm2s, and all inner heat shield tiles were covered with a thin B/C/O layer with thickness in the range 2 × 1017–1018 B + C atoms/cm2 (about 20–100 nm B + C). W-erosion of the marker layers on the scraper elements was also below the detection limit.

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Section: Test Divertor Unit (Tdu)mentioning

confidence: 94%

Erosion of tungsten marker layers in W7-X

et al. 2021

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“…Figure 31 shows the erosion and deposition distribution along the outer target plate in the conditions at the OSP. The ERO code can reproduce the large gross erosion, the low net erosion, and thus the local high re-deposition on tile 5 with more than 94% in average and at 99% for the sputtering dominating intra-ELM phase [59].…”

Section: E Erosion and Sputteringmentioning

confidence: 99%

Summary of the 27th IAEA Fusion Energy Conference in the categories of EX/W, EX/D, and ICC

Ida

2019

Nucl. Fusion

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The results in the categories of EX/W (wave-plasma interactions, current drive, heating, energetic particles), EX/D (plasma-material interactions, divertors, limiters, scrape-off layer (SOL)), and ICC (innovative confinement concepts) in magnetic confinement experiments are summarized. In total, 121 papers have been contributed to these categories. Interesting results on the coupling between energetic particles, MHD, wave-particle interaction, turbulence, SOL physics, and divertor are presented at this conference. For example, control of energetic particle driven MHD by electron cyclotron heating and resonance magnetic perturbation, mitigation of disruption by energetic particle driven MHD, control of decay length by SOL turbulence, and wave scattering by SOL density fluctuations were discussed in this conference. Deeper understanding of these couplings will be essential for the sustainment of high performance steady-state plasma in ITER.

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“…H-mode discharges were not modelled in this work. Nevertheless, it has to be remarked that the presence of edge localised modes during H-mode can have a vital impact on machines equipped with W PFCs [10]. The paper is organized as follows: in section 2 a representative WEST plasma discharge and the corresponding plasma simulations are presented; in section 3 the set-up of the MC simulations tracking W impurities is described; in section 4 the role of the different PFCs in WEST W contamination from the simulations is discussed followed by an analysis of the influence of light impurities on the capability of heavy wall impurities to reach the separatrix in section 5; in section 6 the role of self-sputtering in plasma contamination in different plasma conditions is discussed; finally, in section 7 a direct comparison with experimental data of the WI emission line from visible spectroscopy is carried out.…”

Section: Introductionmentioning

confidence: 99%

Modelling of tungsten contamination and screening in WEST plasma discharges

et al. 2021

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The WEST experiment is currently operating with tungsten plasmafacing components and testing ITER-like divertor monoblocks. In order to support WEST experiments interpretation, numerical analyses were carried out. Starting from WEST experimental data, realistic background plasma conditions were reproduced through SolEdge-EIRENE and used as input for ERO2.0 simulations to investigate tungsten migration. Tungsten contamination due to the different plasmafacing components was modelled under different plasma conditions, highlighting a non-negligible contribution of tungsten coming from the tokamak main chamber. Tungsten penetration factor was computed and used as an indication for tungsten screening by the background plasma at the different tokamak plasma-facing components. Simulations showed the main chamber components to be very weakly screened. Light impurities charge was showed to influence not only tungsten sputtering, but also its probability to enter the confined plasma. Simulations results indicated that even when the tungsten source is not heavily influenced by self-sputtering, contamination of the confined plasma can be strongly impacted by it in low density 1 background plasma conditions. Finally, a one-to-one comparison between tungsten visible spectroscopy at the lower divertor from experimental data and from synthetic diagnostics was performed, showing that it is possible to reproduce a realistic lower divertor signal following experimental evidence on light impurities asymmetry between the targets.

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Erosion, screening, and migration of tungsten in the JET divertor

Cited by 74 publications

References 56 publications

Erosion of tungsten marker layers in W7-X

Erosion of tungsten marker layers in W7-X

Summary of the 27th IAEA Fusion Energy Conference in the categories of EX/W, EX/D, and ICC

Modelling of tungsten contamination and screening in WEST plasma discharges

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