Nuclear Fusion (Jan 2023)

Impacts of recycling impurity on the background ELM behavior during repetitive radiative divertor experiments in EAST

  • Q.Q. Yang,
  • X. Lin,
  • G.S. Xu,
  • L. Zhang,
  • W.M. Zhang,
  • Y. Ye,
  • K.D. Li,
  • D.G. Wu,
  • Q. Zang,
  • Y.J. Chen,
  • X.M. Zhong,
  • Y.F. Wang,
  • L.Y. Meng,
  • Y.M. Wang,
  • Y.Y. Li,
  • Y.M. Duan

DOI
https://doi.org/10.1088/1741-4326/ace8a7
Journal volume & issue
Vol. 63, no. 9
p. 096026

Abstract

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A significant change in the background ELM behavior prior to neon (Ne) seeding has been observed in a series of repetitive radiative divertor experiments in EAST. With similar operational parameters, the ELM behavior before Ne seeding changes from large to mixed ELMs, and finally evolves to pure small ELMs. Meanwhile, a significant increase in both Ne and high-Z impurity (W and Mo) emissions has been observed in the bulk plasma, suggesting the retention and recycling of Ne impurity from the wall surface. Experimental results show that the variation in background ELM behavior is highly correlated with the occurrence of high-Z impurity accumulation. The increased accumulation of high-Z impurities leads to a lower electron temperature both in the plasma core and edge, accompanied by a higher and more peaked electron density in the plasma core. Pedestal linear stability analysis reveals that the decreased pedestal electron temperature and thus the lower pressure gradient and lower edge current density are the primary reason for the change of background ELM behavior. The concentration of recycling Ne in the bulk plasma is estimated to be ∼1% in the discharges with pure small ELMs.

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