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Title: Simulation of shell pellet injection strategies for ITER-scale tokamaks

Journal Article · · Plasma Physics and Controlled Fusion
ORCiD logo [1]
  1. Fiat Lux, San Diego, CA (United States)
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Dispersive shell pellet (DSP) injection is considered as an alternative to shattered pellet injection as a disruption mitigation system for ITER, and strategies for penetration of a shell pellet into ITER are modeled with the 3D MHD code NIMROD. Because the high plasma temperatures lead to rapid ablation of the shell, delivery of the dispersive payload to the core of ITER will be very challenging. Two strategies to increase payload delivery depth are modeled: first, multiple staggered pellets are simulated in DIII-D, to assess the ability for one DSP to "piggy-back" on another to reach deeper into the core; second, DSP injection after pre-dilution-cooling with deuterium is simulated in ITER, in order to reduce the plasma temperature before shell pellet arrival. The DIII-D simulations show that a second, slower pellet can penetrate much deeper once the release of the first payload strongly cools the mid-radius region. When the pellets are staggered, deeper penetration of the second pellet leads to higher radiation fraction and larger runaway electron loss fraction, consistent with single pellet results. However, simultaneously released pellets at mid-radius that do not trigger a large n=1 mode produce an even higher radiation fraction. The ITER simulations show that an inside-out TQ can be produced with a payload release just inside of the q=2 surface, which is achieved at a speed of 800 m/s after pre-dilution cooling. Although stochastization of the core leads to a complete thermal quench, the edge flux surfaces are surprisingly robust in the ITER simulations, regardless of payload release location. As a result, runaway electron losses would not be expected.

Research Organization:
General Atomics, San Diego, CA (United States)
Sponsoring Organization:
USDOE Office of Science (SC), Fusion Energy Sciences (FES); USDOE Office of Science (SC), Basic Energy Sciences (BES). Scientific User Facilities (SUF)
Grant/Contract Number:
FC02-04ER54698; FG02-95ER54309; AC02-05CH11231
OSTI ID:
1989661
Journal Information:
Plasma Physics and Controlled Fusion, Vol. 65, Issue 9; ISSN 0741-3335
Publisher:
IOP ScienceCopyright Statement
Country of Publication:
United States
Language:
English

References (26)

Integrated modeling applications for tokamak experiments with OMFIT journal July 2015
A novel path to runaway electron mitigation via deuterium injection and current-driven MHD instability journal October 2021
Nonlinear magnetohydrodynamics simulation using high-order finite elements journal March 2004
First predictive simulations for deuterium shattered pellet injection in ASDEX Upgrade journal February 2020
Disruption Mitigation System Developments and Design for ITER journal September 2015
Formation and termination of runaway beams in ITER disruptions journal April 2017
Radiation asymmetry and MHD destabilization during the thermal quench after impurity shattered pellet injection journal January 2021
Dispersive shell pellet injection modeling and validation for DIII-D disruption mitigation journal August 2021
Axisymmetric benchmarks of impurity dynamics in extended-magnetohydrodynamic simulations journal April 2019
Demonstration of Safe Termination of Megaampere Relativistic Electron Beams in Tokamaks journal April 2021
Magnetohydrodynamic simulations of massive gas injection into Alcator C-Mod and DIII-D plasmas journal May 2008
Relativistic limitations on runaway electrons journal June 1975
Interpretive MHD modeling of dispersive shell pellet injection for rapid shutdown in tokamaks journal May 2020
Bayesian optimization of massive material injection for disruption mitigation in tokamaks journal March 2023
Prototype tests of the electromagnetic particle injector-2 for fast time response disruption mitigation in tokamaks journal November 2021
Linear analysis of the double-tearing mode journal January 1980
Hot tail runaway electron generation in tokamak disruptions journal July 2008
Fast plasma dilution in ITER with pure deuterium shattered pellet injection journal October 2020
Runaway electron confinement modelling for rapid shutdown scenarios in DIII-D, Alcator C-Mod and ITER journal May 2011
Analysis of low Z a impurity pellet ablation for fusion diagnostic studies journal March 1988
3D two-temperature magnetohydrodynamic modeling of fast thermal quenches due to injected impurities in tokamaks journal November 2018
Disruptions in ITER and strategies for their control and mitigation journal August 2015
Theory for avalanche of runaway electrons in tokamaks journal October 1997
Shattered pellet injection simulations with NIMROD journal April 2019
Progress in understanding disruptions triggered by massive gas injection via 3D non-linear MHD modelling with JOREK journal October 2016
Effect of two-stage shattered pellet injection on tokamak disruptions journal September 2022

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70 PLASMA PHYSICS AND FUSION TECHNOLOGY
simulations
ITER
disruption mitigation
MHD
tokamak
shell pellet