Comparing spontaneous and pellet-triggered ELMs via non-linear extended MHD simulations

A. Cathey (Corresponding author), M. Hoelzl, S. Futatan, P.T. Lang, K. Lackner, G.T.A. Huijsmans, S.J.P. Pamela, S. Günter

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Samenvatting

Injecting frozen deuterium pellets into an ELMy H-mode plasma is a well established scheme for triggering edge localized modes (ELMs) before they naturally occur. This paper presents non-linear simulations of spontaneous type-I ELMs and pellet-triggered ELMs in ASDEX Upgrade performed with the extended MHD code JOREK. A thorough comparison of the non-linear dynamics of these events is provided. In particular, pellet-triggered ELMs are simulated by injecting deuterium pellets into different time points during the pedestal build-up described in A Cathey et al (2020 Nuclear Fusion 60 124007). Realistic ExB and diamagnetic background plasma flows as well as the time dependent bootstrap current evolution are included during the build-up to accurately capture the balance between stabilising and destabilising terms for the edge instabilities. Dependencies on the pellet size and injection times are studied. The spatio-temporal structures of the modes and the resulting divertor heat fluxes are compared in detail between spontaneous and triggered ELMs. We observe that the premature excitation of ELMs by means of pellet injection is caused by a helical perturbation described by a toroidal mode number of n=1. In accordance with experimental observations, the pellet-triggered ELMs show reduced thermal energy losses and a narrower divertor wetted area with respect to spontaneous ELMs. The peak divertor energy fluence is seen to decrease when ELMs are triggered by pellets injected earlier during the pedestal build-up.

Originele taal-2Engels
Artikelnummer075016
Aantal pagina's18
TijdschriftPlasma Physics and Controlled Fusion
Volume63
Nummer van het tijdschrift7
DOI's
StatusGepubliceerd - jul. 2021

Bibliografische nota

Publisher Copyright:
© 2021 Institute of Physics Publishing. All rights reserved.

Financiering

The authors would like to thank Thomas Eich, Di Hu, and Davide Silvagni for fruitful discussions. This work has been carried out within the framework of the EUROfusion Consortium and has received funding from the Euratom research and training program 2014–2018 and 2019–2020 under Grant No. 633053. The views and opinions expressed herein do not necessarily reflect those of the European Commission. In particular, contributions by EUROfusion work packages Enabling Research (EnR) and Medium Size Tokamaks (MST) are acknowledged. We acknowledge PRACE for awarding us access to MareNostrum at Barcelona Supercomputing Center (BSC), Spain. Some of the simulations were performed using the Marconi-Fusion supercomputer.

FinanciersFinanciernummer
Horizon 2020 Framework Programme
H2020 Euratom633053

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