Overview of lithium injection and flowing liquid lithium results from the US-China collaboration on EAST

A multi-institutional team consisting of national labs and universities has been conducting research to understand and control the plasma-material interface (PMI) to improve long pulse discharge control and performance in the EAST device in Hefei, China. One particular focus of the group has been to...

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Bibliographic Details
Published in:Physica scripta 2020-01, Vol.T171 (1), p.14067
Main Authors: Andruczyk, D, Maingi, R, Hu, J S, Zuo, G Z, Rizkallah, R, Parsons, M, Shone, A, O'Dea, D, Kapat, A, Szott, M, Stemmley, S, Sun, Z, Xu, W, Meng, X C, Lunsford, R, Gilson, E P, Diallo, A, Tritz, K
Format: Article
Language:English
Subjects:
70 PLASMA PHYSICS AND FUSION TECHNOLOGY
EAST
flowing liquid lithium limiters
fusion
liquid lithium
plasma facing components
plasma material interactions
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Summary:A multi-institutional team consisting of national labs and universities has been conducting research to understand and control the plasma-material interface (PMI) to improve long pulse discharge control and performance in the EAST device in Hefei, China. One particular focus of the group has been to evaluate the performance of different plasma-facing component (PFC) technologies and materials, particularly lithium. Flowing liquid lithium PFC technologies are currently into their third generation of development and deployment in EAST, demonstrating recycling control and mitigation of edge-localized modes (ELMs). A lithium powder dropper has also been used to control ELMs while a lithium granule injector has demonstrated ELM triggering and pacing. To support this work, the facilities at the Center for Plasma Material Interactions such as HIDRA are being commissioned and utilized to develop/test the technologies before deployment on EAST. This paper will present a summary of the collaborative lithium PMI program on EAST.
ISSN:0031-8949
1402-4896
DOI:10.1088/1402-4896/ab6ce1