Modeling of Plasma Current Decay during Disruptions Caused by Massive Impurity Injection
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概要
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A numerical model is developed to evaluate the decay time of plasma current during the disruption following intense impurity injections. Our model is based on the power balance equation between joule heating and impurity radiation as a way to evaluate the electron temperature and charge state after the thermal quench. The model is applied to the experimental results of massive N2 gas injections in JFT-2M, which simulate the "ingress-of-coolant event" (ICE) as well as disruption mitigations in ITER. It is confirmed that the model can reproduce the experiments reasonably well.
- 社団法人 プラズマ・核融合学会の論文
著者
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SUGIHARA Masayoshi
ITER International Team, Naka Joint Work Site
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HATAYAMA Akiyoshi
Keio University
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SUGIHARA Masayoshi
ITER International Team, Naka JWS
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OHWAKI Hirokazu
Keio University
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