Nonlinear MHD modeling of neon doped shattered pellet injection with JOREK and its comparison to experiments in KSTAR

S. J. Lee; D. Hu; M. Lehnen; E. Nardon; Jayhyun Kim; D. Bonfiglio; F. Artola; M. Hoelzl; Yong Su Na

doi:10.1088/1741-4326/ad6ea1

Nonlinear MHD modeling of neon doped shattered pellet injection with JOREK and its comparison to experiments in KSTAR

S. J. Lee
, D. Hu
, M. Lehnen
, E. Nardon
, Jayhyun Kim
, D. Bonfiglio
, F. Artola
, M. Hoelzl
, Yong Su Na^*

^*Corresponding author for this work

School of Physics

Seoul National University
ITER
Commissariat à l’énergie atomique et aux énergies alternatives
National Fusion Research Institute
National Research Council of Italy
Max Planck Institute for Plasma Physics

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

3D nonlinear MHD simulations of neon-doped single shattered pellet injection (SPI) conducted with the JOREK code reveal rich physics during SPI-induced disruptions in KSTAR. In the early phase, pressure-driven modes dominate, and the perturbation of the plasma current is largely consistent with the perturbation of the Pfirsch-Schlüter current. As shards reach the q = 1 surface, resistive current perturbations by helical electron cooling start to dominate, and the electron temperature in the core begins to collapse with convective mixing of the density driven by the internal 1 / 1 kink mode. The confinement of the plasma is later completely destroyed as a cold bubble convects into the core via quasi-interchange mode. Comparisons with available experimental data demonstrate qualitative agreements between JOREK results and experiments, and possible reasons for deviations are discussed.

Original language	English
Article number	106042
Journal	Nuclear Fusion
Volume	64
Issue number	10
DOIs	https://doi.org/10.1088/1741-4326/ad6ea1
State	Published - 1 Oct 2024

Keywords

disruption
nonlinear MHD modeling
shattered pellet injection

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10.1088/1741-4326/ad6ea1

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title = "Nonlinear MHD modeling of neon doped shattered pellet injection with JOREK and its comparison to experiments in KSTAR",

abstract = "3D nonlinear MHD simulations of neon-doped single shattered pellet injection (SPI) conducted with the JOREK code reveal rich physics during SPI-induced disruptions in KSTAR. In the early phase, pressure-driven modes dominate, and the perturbation of the plasma current is largely consistent with the perturbation of the Pfirsch-Schl{\"u}ter current. As shards reach the q = 1 surface, resistive current perturbations by helical electron cooling start to dominate, and the electron temperature in the core begins to collapse with convective mixing of the density driven by the internal 1 / 1 kink mode. The confinement of the plasma is later completely destroyed as a cold bubble convects into the core via quasi-interchange mode. Comparisons with available experimental data demonstrate qualitative agreements between JOREK results and experiments, and possible reasons for deviations are discussed.",

keywords = "disruption, nonlinear MHD modeling, shattered pellet injection",

author = "Lee, \{S. J.\} and D. Hu and M. Lehnen and E. Nardon and Jayhyun Kim and D. Bonfiglio and F. Artola and M. Hoelzl and Na, \{Yong Su\}",

note = "Publisher Copyright: {\textcopyright} 2024 The Author(s). Published by IOP Publishing Ltd on behalf of the IAEA.",

year = "2024",

month = oct,

day = "1",

doi = "10.1088/1741-4326/ad6ea1",

language = "英语",

volume = "64",

journal = "Nuclear Fusion",

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T1 - Nonlinear MHD modeling of neon doped shattered pellet injection with JOREK and its comparison to experiments in KSTAR

AU - Lee, S. J.

AU - Hu, D.

AU - Lehnen, M.

AU - Nardon, E.

AU - Kim, Jayhyun

AU - Bonfiglio, D.

AU - Artola, F.

AU - Hoelzl, M.

AU - Na, Yong Su

PY - 2024/10/1

Y1 - 2024/10/1

N2 - 3D nonlinear MHD simulations of neon-doped single shattered pellet injection (SPI) conducted with the JOREK code reveal rich physics during SPI-induced disruptions in KSTAR. In the early phase, pressure-driven modes dominate, and the perturbation of the plasma current is largely consistent with the perturbation of the Pfirsch-Schlüter current. As shards reach the q = 1 surface, resistive current perturbations by helical electron cooling start to dominate, and the electron temperature in the core begins to collapse with convective mixing of the density driven by the internal 1 / 1 kink mode. The confinement of the plasma is later completely destroyed as a cold bubble convects into the core via quasi-interchange mode. Comparisons with available experimental data demonstrate qualitative agreements between JOREK results and experiments, and possible reasons for deviations are discussed.

AB - 3D nonlinear MHD simulations of neon-doped single shattered pellet injection (SPI) conducted with the JOREK code reveal rich physics during SPI-induced disruptions in KSTAR. In the early phase, pressure-driven modes dominate, and the perturbation of the plasma current is largely consistent with the perturbation of the Pfirsch-Schlüter current. As shards reach the q = 1 surface, resistive current perturbations by helical electron cooling start to dominate, and the electron temperature in the core begins to collapse with convective mixing of the density driven by the internal 1 / 1 kink mode. The confinement of the plasma is later completely destroyed as a cold bubble convects into the core via quasi-interchange mode. Comparisons with available experimental data demonstrate qualitative agreements between JOREK results and experiments, and possible reasons for deviations are discussed.

KW - disruption

KW - nonlinear MHD modeling

KW - shattered pellet injection

UR - https://www.scopus.com/pages/publications/85203161435

U2 - 10.1088/1741-4326/ad6ea1

DO - 10.1088/1741-4326/ad6ea1

M3 - 文章

AN - SCOPUS:85203161435

SN - 0029-5515

VL - 64

JO - Nuclear Fusion

JF - Nuclear Fusion

IS - 10

M1 - 106042

ER -

Nonlinear MHD modeling of neon doped shattered pellet injection with JOREK and its comparison to experiments in KSTAR

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