| Autor: |
Tang, W., Hoelzl, M., Lehnen, M., Hu, D., Artola, F. J., Halldestam, P., Heinrich, P., Jachmich, S., Nardon, E., Papp, G., Patel, A., Team, the ASDEX Upgrade, Team, the EUROfusion Tokamak Exploitation, Team, the JOREK |
| Rok vydání: |
2024 |
| Předmět: |
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| Druh dokumentu: |
Working Paper |
| Popis: |
Shattered pellet injection (SPI) is selected for the disruption mitigation system in ITER, due to deeper penetration, expected assimilation efficiency and prompt material delivery. This article describes non-linear simulations of SPI in the ASDEX Upgrade tokamak to test the mitigation efficiency of different injection parameters for neon-doped deuterium pellets using the JOREK code. The simulations are executed as fluid simulations. Additional marker particles are used to evolve the charge state distribution of impurities based on OpenADAS atomic data, i.e., no coronal equilibrium assumption is made. Regarding the pellet composition, neon fraction scans from 0 - 10% are performed. Numerical results show that the thermal quench (TQ) occurs in two stages. In the first stage, approximately half of the thermal energy is lost abruptly, primarily through convective and conductive transport in the stochastic fields. This stage is relatively independent of the injection parameters. In the second stage, where the majority of the remaining thermal energy is lost, radiation plays a dominant role. In cases of very low neon content, this second stage may not occur at all. A larger fraction ($\sim $20%) of the total material in the pellet is assimilated in the plasma for low neon fraction pellets (0.12%) since the full thermal collapse of the plasma occurs later than in high neon fraction scenarios. Nevertheless, the total number of assimilated neon atoms increases with increasing neon fraction. The effects of fragment size and penetration speed are further studied. Slower and smaller fragments promote edge cooling and the formation of a cold front. Faster fragments result in shorter TQ duration and higher assimilation as they reach the hotter plasma regions quicker. Using synthetic diagnostics, comparisons of general trend between simulations and experiments are conducted. |
| Databáze: |
arXiv |
| Externí odkaz: |
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