将在ELISE测试设备上获得的脉冲提取知识转移到iter相关的连续波提取中

D. Wünderlich, R. Riedl, F. Bonomo, S. Cristofaro, A. Hurlbatt, I. Mario, A. Mimo, R. Nocentini, W. Kraus, M. Peglau, B. Schmidt, B. Heinemann, U. Fantz
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引用次数: 3

摘要

目前,大型ELISE测试设备上的光束提取只能是脉冲的,具有短的提取阶段,即所谓的提取点,每个提取点最多10秒≈150秒。在过去的几年里,人们对氢和氘的运行模式的物理特性有了很好的了解。共同提取电子的均匀性是关键问题,通过改进共同提取电子的对称性,可以在氢气中实现1000 s的等离子体脉冲,并且提取的电流密度超过ITER目标值的90%。在氘中,长脉冲提取的电流密度大约达到了ITER目标的67%。在这样的脉冲中,通常在一个光点和下一个光点之间观察到共提取的电子电流的总体增加,尽管在每个光点期间观察到的电子电流实际上减少。与束流相相比,源等离子体相的不同铯动力学可以解释这些相反的效应,这也是目前正在进行的将ELISE升级为连续波萃取系统的一个动机。此更新包括两个主要硬件更改:i)安装新的连续波高压电源和ii)安装连续波束量热计。能够实现长达1小时的光束脉冲,将使人们能够在ITER运行所需的长时间尺度上获得铯再分配和调节的物理学知识。
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Transferring knowledge gained for pulsed extraction at the ELISE test facility to ITER-relevant CW extraction
Beam extraction at the large ELISE test facility is currently possible only pulsed, with short extraction phases, so-called extraction blips, of up to 10 s each ≈150 s. Over the past years, a good insight into the physics of this operational mode has been gained for both hydrogen and deuterium operation. The uniformity of the co-extracted electrons was identified as a key issue and it was possible to achieve 1000 s plasma pulses in hydrogen with repetitive extraction blips and an extracted current density of over 90 % of the ITER target value by improving the co-extracted electron symmetry. In deuterium roughly 67 % of the ITER target for the extracted current density has been achieved for long pulses. During such pulses an overall increase of the co-extracted electron current is typically observed between one blip and the next one, even though the electron current is observed to actually decrease during each blip. These opposing effects are explained by different caesium dynamics during the source plasma phase when compared to the beam phase and they were one motivation behind the currently ongoing upgrade of ELISE to a CW extraction system. This update consists of two main hardware changes: i) installation of a new CW high voltage power supply and ii) installation of a CW beam calorimeter. Being able to achieve beam pulses of up to 1 hour will allow knowledge to be gained on the physics of caesium redistribution and conditioning over the long timescales needed for ITER operation.
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