2016
DOI: 10.1002/ctpp.201610059
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Simulation Analysis of Carbon Deposition Profile in the Closed Helical Divertor Configuration in the Large Helical Device

Abstract: Recent long pulse plasma discharges in the Large Helical Device have been interrupted by radiation collapse induced by large amounts of dusts released from a closed divertor region. Traces of exfoliation of carbon-rich mixed material deposition layers were found in the divertor region after the experimental campaigns, indicating that the thickly accumulated deposited layers were exfoliated and broken into dusts. Simulation of the density profiles of carbon deposition in the divertor region by EMC3-EIRENE reaso… Show more

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Cited by 4 publications
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“…A three‐dimensional model for the impurity transport simulation for R ax = 3.60 m is shown in Figure . The model includes the peripheral plasma (ergodic layer), the divertor legs, the vacuum vessel, the helical coil cans, and the divertor components for one‐half of the helical coil pitch angle (18° in toroidal direction) . The typical width of the grid cells in the model is less than 10 mm, but it depends on the radial and poloidal positions of the cells.…”
Section: Set‐up Of Impurity Transport Simulation In the Lhd Peripheramentioning
confidence: 99%
“…A three‐dimensional model for the impurity transport simulation for R ax = 3.60 m is shown in Figure . The model includes the peripheral plasma (ergodic layer), the divertor legs, the vacuum vessel, the helical coil cans, and the divertor components for one‐half of the helical coil pitch angle (18° in toroidal direction) . The typical width of the grid cells in the model is less than 10 mm, but it depends on the radial and poloidal positions of the cells.…”
Section: Set‐up Of Impurity Transport Simulation In the Lhd Peripheramentioning
confidence: 99%