Disruption avoidance and investigation of the H-Mode density limit in ASDEX Upgrade

IF 2.1 2区 物理与天体物理 Q2 PHYSICS, FLUIDS & PLASMAS
B. Sieglin, M. Maraschek, Anja Gude, F. Klossek, Federico Felici, Matthias Bernert, O. Kudlacek, A. Pau, W. Treutterer
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Abstract

In recent years a strong effort has been made to investigate disruption avoidance schemes in order to aid the development of integrated operational scenarios for ITER. Within the EUROfusion programme the disruptive H-Mode density limit (HDL) has been studied on the WPTE (Work Package Tokamak Exploitation) devices ASDEX Upgrade, TCV and JET. Advanced real-time control coupled with improved real-time diagnostics has enabled the routine disruption avoidance of the HDL. This allowed the systematic study of the influence of various plasma parameters on the onset and behaviour of the HDL in regimes not easily accessible otherwise. The upper triangularity δ top is found to have a significant influence on the X-Point Radiator (XPR), which plays a major role for the evolution of the disruptive HDL. At high δ top the gas flow rate at which the onset of the XPR occurs is strongly reduced compared to low δ top . The reduction of δ top has proven to be an effective actuator for the HDL disruption avoidance on ASDEX Upgrade. It is observed that the occurrence of the XPR and the H-L transition at the density limit are two separate events, the order of which depends on the applied auxiliary heating power. At sufficiently high heating power the XPR occurs before the H-L transition. Impurity seeding, used for divertor detachment, influences the onset and the dynamics of the XPR and the behaviour of the HDL. The stable existence of the XPR, which is thought to be a requirement for detachment control in future devices, has also been observed without impurity seeding. The implementation of a robust and sustainable operational scenario, e.g. for ITER, requires the combination of continuous control and exception handling. For each disruption path the appropriate observers and actuators have to be validated in present devices. Automation of the dynamic pulse schedule has proven successful to scan the operational space of the HDL without disruption. Applying such a technique to ITER could reduce the machine risk induced by disruptions during commissioning. The methodology to develop physics-based observers, which indicate the entry into a disruption path well in time, and applying the appropriate action before the discharge becomes unstable has proven successful.
在 ASDEX 升级中避免干扰并研究 H 模式密度极限
近年来,为了帮助开发热核实验堆的综合运行方案,人们一直在努力研究避免中断的方案。在 EUROfusion 计划内,对 WPTE(托卡马克开发工作包)设备 ASDEX 升级版、TCV 和 JET 的破坏性 H 模式密度极限(HDL)进行了研究。先进的实时控制与改进的实时诊断相结合,实现了 HDL 的常规中断规避。这样就可以系统地研究各种等离子体参数对 HDL 的开始和行为的影响,而这些参数在其他情况下是很难获得的。研究发现,上三角度 δ top 对 X 点辐射器 (XPR) 有重大影响,而 X 点辐射器对破坏性 HDL 的演变起着重要作用。在高δ顶时,与低δ顶相比,XPR 开始时的气体流速大大降低。事实证明,降低 δ top 可以有效避免 ASDEX 升级的 HDL 中断。据观察,在密度极限发生的 XPR 和 H-L 转变是两个独立的事件,其先后顺序取决于所应用的辅助加热功率。在足够高的加热功率下,XPR 发生在 H-L 转变之前。用于分流器分离的杂质种子会影响 XPR 的发生和动态以及 HDL 的行为。XPR 的稳定存在被认为是未来设备中分离控制的要求,在没有杂质种子的情况下也能观察到。实施稳健和可持续的运行方案(例如用于热核实验堆)需要将持续控制和异常处理结合起来。对于每种中断路径,都必须在现有设备中验证适当的观测器和执行器。事实证明,动态脉冲时间表的自动化可以成功地扫描 HDL 的运行空间,而不会出现中断。将这种技术应用于热核实验堆可以降低试运行期间中断引起的机器风险。事实证明,开发基于物理的观测器的方法是成功的,这种观测器能够及时显示进入中断路径的情况,并在放电变得不稳定之前采取适当行动。
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来源期刊
Plasma Physics and Controlled Fusion
Plasma Physics and Controlled Fusion 物理-物理:核物理
CiteScore
4.50
自引率
13.60%
发文量
224
审稿时长
4.5 months
期刊介绍: Plasma Physics and Controlled Fusion covers all aspects of the physics of hot, highly ionised plasmas. This includes results of current experimental and theoretical research on all aspects of the physics of high-temperature plasmas and of controlled nuclear fusion, including the basic phenomena in highly-ionised gases in the laboratory, in the ionosphere and in space, in magnetic-confinement and inertial-confinement fusion as well as related diagnostic methods. Papers with a technological emphasis, for example in such topics as plasma control, fusion technology and diagnostics, are welcomed when the plasma physics is an integral part of the paper or when the technology is unique to plasma applications or new to the field of plasma physics. Papers on dusty plasma physics are welcome when there is a clear relevance to fusion.
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