Argon–seeded detachment during ELM control by RMPs in KSTAR

Shin, Hang‐Sik; Hwang, Junghoo; Han, Yoon Seong; Shin, Giwook; Lee, H.H.; Chai, Kil-Byoung; Choe, Wonho

doi:10.1088/1741-4326/acbec6

Cited by 2 publications

(3 citation statements)

References 26 publications

(26 reference statements)

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“…with increased radiation remains in the divertor volume itself, as shown in figure 6. This is an important difference compared to similar studies including the prior observations in KSTAR [16,18,19], in which a significant proportion of the additional radiation created by impurities comes from the confined core plasma [18].…”

Section: Compatibility Of Rmp-driven Elm-crash-suppression With Parti...mentioning

confidence: 72%

“…Unfortunately, when applied with RMP, such impurity/gas fueled plasmas often lead to a loss of ELM-crash-suppression with a small reduction of the divertor heat flux with respect to the otherwise similar ELM-crash-suppressed conditions (typically less than a factor of 2) as found in KSTAR [15], and EAST [16]. Larger reductions, while sustaining RMP-driven, ELM-crash suppression, have been obtained in DIII-D and KSTAR [18,19] but not through the increase of radiation in the divertor region but in the confined plasma. ITER is expected to operate with a partially detached high density divertor plasma so as to provide acceptable divertor power load handling [20], while maintaining a low core radiation to sustain the high confinement plasmas required for high fusion gain operation.…”

Section: Introductionmentioning

confidence: 99%

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Radiatively tamed divertor thermal loading in resonant magnetic perturbation (RMP)-driven, ELM-crash-suppressed plasmas

In,

Lee,

Kim

et al. 2024

Nucl. Fusion

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Edge-localized-modes (ELMs) suppression by non-axisymmetric resonant-magnetic-perturbation (RMP) provides the way toreach high performance fusion plasmas without a threatening level of transient heat fluxes to the walls of fusion devices. Theapplication of RMP, however, strongly modifies the heat flux pattern onto in-vessel components in contact with the plasma(especially the divertor) leading to local “hot spots”. Radiative dissipation by partially ionized species (impurities anddeuterium) lowers the heat flux peaks on the walls but has been poorly compatible with such RMP-driven, ELM-crash-suppression.Here, we show how KSTAR has radiatively tamed divertor thermal loading down to more than a factor of 7 in the off-separatrix region without losing ELM-crash-suppression using ITER-like, three-row, RMP configurations, demonstrating its sustainment even in a partially detachedplasma in the outer strike point, as desired for ITER.

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Section: Compatibility Of Rmp-driven Elm-crash-suppression With Parti...mentioning

confidence: 72%

Section: Introductionmentioning

confidence: 99%

Radiatively tamed divertor thermal loading in resonant magnetic perturbation (RMP)-driven, ELM-crash-suppressed plasmas

In,

Lee,

Kim

et al. 2024

Nucl. Fusion

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“…One of the potential candidates is the KSTAR divertor plasma detachment control based on the simplified real-time modeling [66], reducing the heat load on PFCs. However, the impurity seeding, the primary actuator of the detachment control, has a side effect on core plasma performance [67] and affects conditions to access ELM crash suppression by changing electron density and recycling conditions [68,69]. Therefore, incorporating the detachment control requires upgrading the integrated process to balance plasma detachment, ELM crash suppression, and plasma performance enhancement.…”

Section: Plans For Expanding the Integrated Process To Long-pulse Elm...mentioning

confidence: 99%

Integrated RMP-based ELM-crash-control process for plasma performance enhancement during ELM crash suppression in KSTAR

et al. 2023

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The integrated resonant magnetic perturbation (RMP)-based ELM-crash-control process aims to enhance the plasma performance during the RMP-driven ELM crash suppression, where the RMP induces an unwanted confinement degradation. In this study, the normalized beta (βN) is introduced as a metric for plasma performance. The integrated process incorporates the latest achievements in the RMP technique to enhance βN efficiently. The integrated process triggers the n = 1 edge-localized RMP (ERMP) at the L-H transition timing using the real-time machine learning (ML) classifier. The pre-emptive RMP onset can reduce the required external heating power for achieving the same βN by over 10 % compared to the conventional RMP onset. During the RMP phase, the adaptive feedback RMP ELM controller, demonstrating its performance in previous experiments, plays a crucial role in maximizing βN during the suppression phase and sustaining the βN-enhanced suppression state by optimizing the RMP strength. The integrated process achieves βN up to ~2.65 during the suppression phase, which is ~10 % higher than the previous KSTAR record but ~6 % lower than the target of the K-DEMO first phase (βN = 2.8), and maintains the suppression phase above the lower limit of target βN (= 2.4) for ~4 s (~60 τE). In addition to βN enhancement, the integrated process demonstrates quicker restoration of the suppression phase and recovery of βN compared to the adaptive control with the n = 1 conventional RMP (CRMP). The post-analysis of the experiment shows the localized effect of the ERMP spectrum in radial and the close relationship between the evolution of βN and the electron temperature.

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Argon–seeded detachment during ELM control by RMPs in KSTAR

Cited by 2 publications

References 26 publications

Radiatively tamed divertor thermal loading in resonant magnetic perturbation (RMP)-driven, ELM-crash-suppressed plasmas

Radiatively tamed divertor thermal loading in resonant magnetic perturbation (RMP)-driven, ELM-crash-suppressed plasmas

Integrated RMP-based ELM-crash-control process for plasma performance enhancement during ELM crash suppression in KSTAR

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