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Interaction of adhered metallic dust with transient plasma heat loads

Author
Abstract

The first study of the interaction of metallic dust (tungsten, aluminum) adhered on tungsten substrates with transient plasma heat loads is presented. Experiments were carried out in the Pilot-PSI linear device with transient heat fluxes up to 550 MW m −2 and in the DIII-D divertor tokamak. The central role of the dust-substrate contact area in heat conduction is highlighted and confirmed by heat transfer simulations. The experiments provide evidence of the occurrence of wetting-induced coagulation, a novel growth mechanism where cluster melting accompanied by droplet wetting leads to the formation of larger grains. The physical processes behind this mechanism are elucidated. The remobilization activity of the newly formed dust and the survivability of tungsten dust on hot surfaces are documented and discussed in the light of implications for ITER.

Year of Publication
2016
Journal
Nuclear Fusion
Volume
56
Issue
6
Number of Pages
066010
URL
http://www.euro-fusionscipub.org/wp-content/uploads/eurofusion/WPPFCPR15_14670_submitted.pdf
DOI
10.1088/0029-5515/56/6/066010
PId
720ecfa502ac55a87faa514b727421f2
Alternate Journal
Nucl. Fusion
Label
OA
Journal Article
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