Journal
VACUUM
Volume 183, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.vacuum.2020.109854
Keywords
Vacuum failure; Plasma recovery; Impurities; Wall-conditioning; EAST
Funding
- National Natural Science Foundation of China [11605237, 11625524, 11605236, 11605246, 11775261]
- National Key Research and Development Program of China [2017YFA0402500]
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The study focused on the plasma recovery after vessel vent in the EAST 2019 spring campaign, showing successful removal of impurities to achieve clean ultra-high vacuum pressure. Further plasma shots were carried out to remove implanted impurities, with significant reduction in H-2 and H2O particles. The results provide valuable reference for recovery plans after vacuum failure in various superconducting fusion devices.
The plasma recovery after vessel vent is studied in the EAST 2019 spring campaign. The removal of condensate water is important for the fully superconducting tokamak. The low-Z impurities are mostly removed after a baking cycle for 200 h and GDC for 111 h. About 49% of H-2 and 40% of H2O molecules are removed in this phase. The clean ultra-high vacuum pressure is re-obtained to 3.0 x 10(-6) Pa. In a follow-up process, about-550 shots with an accumulated plasma duration of 4100 s are carried out to further remove implanted impurities. In the initial discharge stage, the removal rates of H-2 and H2O particles are 4.7 x 10(21) molecules/(m(2).h) and 3.1 x 10(21) molecules/(m(2).h), respectively, which are -4 times higher than that during D-2/He-GDC and baking. About 31% of H-2 and H2O impurities are removed due to the effect of initial plasma shots. And the repeatable plasma shots are achieved with the decrease of impurity level. The results provide reference for the arrangement of recovery plan after vacuum failure of EAST, ITER, CFETR and superconducting fusion devices.
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