S.S. Henderson , M. Bernert , D. Brida , G.L. Derks , S. Elmore , F. Federici , J.R. Harrison , A. Kirk , B. Kool , N. Lonigro , J. Lovell , D. Moulton , H. Reimerdes , P. Ryan , J.M. Stobbs , K. Verhaegh , T. van den Doel , T. Wijkamp , O. Bardsley , MAST-U Team , EUROfusion Tokamak Exploitation Team
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引用次数: 0
摘要
在 MAST 升级版(MAST-U)上验证了两个用于预测脱离开始时间和岔道重新连接时间的简化模型。这些模型对未来的托卡马克反应堆设计至关重要,主要根据工程参数提供快速计算。第一个模型使用在 ASDEX Upgrade (AUG) 上开发并随后在 JET 上测试的限定符来预测脱离开始的时间,而第二个模型则对给定瞬态烧穿分流器中的中性粒子所需的时间进行估算。在 MAST-U 上用双空和单空配置进行了 H 模式等离子体情景实验,其中涉及 D2 燃料斜坡和 N2 种子。通过监测分流器参数(包括目标热通量曲线、电子温度和电子密度)来确定脱离开始时间,测量结果显示与 AUG 的预测结果一致。在等离子体中心点位置动态垂直移动过程中,对重新附着时间进行了评估,观测结果表明重新附着时间在几毫秒之内,与模型预测一致。总之,这些结果证实了两个简化模型对 MAST-U 的适用性,使其验证范围超出了 AUG 和 JET。
Validating reduced models for detachment onset and reattachment times on MAST-U
Two reduced models for predicting detachment onset and divertor reattachment times are validated on MAST Upgrade (MAST-U). These models are essential for future tokamak reactor design, providing rapid calculations based primarily on engineering parameters. The first model predicts detachment onset using a qualifier developed on ASDEX Upgrade (AUG) and later tested on JET, while the second model provides an estimate for the time required for a given transient to burn through the neutral particles in the divertor. Experiments in H-mode plasma scenarios were conducted on MAST-U with double-null and single-null configurations, which involved fuelling ramps and seeding. The detachment onset was determined by monitoring divertor parameters, including the target heat flux profile, electron temperature, and electron density, with measurements showing consistency with AUG-derived predictions. Reattachment times were assessed during dynamic vertical shifts of the plasma centroid position, with observations indicating reattachment within milliseconds, consistent with model predictions. Overall, the results confirm the applicability of both reduced models to MAST-U, extending their validation beyond AUG and JET.
期刊介绍:
The open-access journal Nuclear Materials and Energy is devoted to the growing field of research for material application in the production of nuclear energy. Nuclear Materials and Energy publishes original research articles of up to 6 pages in length.
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