Overview of recent progress on steady state operation of all-metal plasma facing wall device QUEST

K. Hanada; N. Yoshida; M. Hasegawa; M. Oya; Y. Oya; I. Takagi; A. Hatayama; T. Shikama; H. Idei; Y. Nagashima; R. Ikezoe; T. Onchi; K. Kuroda; S. Kawasaki; A. Higashijima; T. Nagata; S. Shimabukuro; K. Nakamura; S. Murakami; Y. Takase; X. Gao; H. Liu; J. Qian

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Overview of recent progress on steady state operation of all-metal plasma facing wall device QUEST

机译：全金属等离子墙体设备任务稳态运行近期进展概述

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QUEST (Q-shu university experiment with steady state spherical tokamak) is a midsize spherical tokamak capable of steady-state operation, comprising all-metal plasma-facing walls and a hot wall (HW) to address issues pertaining to fuel particle balance. The HW was installed summer 2014. Quantitative analysis pertaining to the HW at 373?K is carried out, and clarify the quantitative impact of shot history that obviously appears in wall stored hydrogen just before the discharge at the wall temperature. The model indicates the plasma-induced deposition layer play an essential role in fuel particle balance. A clear temperature dependence of fuel recycling was observed using outgassing just after plasma termination and played an essential role in regulation of particle balance. Consequently, long duration discharges lasting more than 1?h has been obtained at wall temperature, TW?

机译：Quest（Q-Shu大学用稳态球形Tokamak实验）是能够稳态运行的中型球形托卡马克，包括所有金属等离子体壁和热墙（HW），以解决与燃料粒子平衡有关的问题。 2014年夏天安装了HW。进行了与373？K的HW有关的定量分析，并阐明了拍摄历史的定量影响，即在壁温下放电之前明显出现在壁储存的氢气中。该模型表示等离子体诱导的沉积层在燃料粒子平衡中起重要作用。在血浆终止之后，在血浆终止之后，在调节粒子平衡的调节中发挥了重要作用，观察到燃料再循环的清晰温度依赖性。因此，在壁温下获得了持续超过1ΩH的长持续时间放电在壁温，Twα<α223Ω·k的RF功率的范围内，同样地，可以实现6ΩH放电。 tw？=？473？k使用20？kW注入的RF功率。

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《Nuclear Materials and Energy》 |2021年第a期|共8页
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K. Hanada; N. Yoshida; M. Hasegawa; M. Oya; Y. Oya; I. Takagi; A. Hatayama; T. Shikama; H. Idei; Y. Nagashima; R. Ikezoe; T. Onchi; K. Kuroda; S. Kawasaki; A. Higashijima; T. Nagata; S. Shimabukuro; K. Nakamura; S. Murakami; Y. Takase; X. Gao; H. Liu; J. Qian;
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TokamakSteady state operationFuel particle balancePlasma wall interactionHydrogen barrierHot wall;

机译：Tokamaksteady州操作犯罪粒子平衡壁壁壁互动氢中壁球壁;

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专利

1. Particle balance investigation with the combination of the hydrogen barrier model and rate equations of hydrogen state in long duration discharges on an all-metal plasma facing wall in QUEST [J] . Hanada K., Yoshida N., Hasegawa M., Nuclear fusion . 2019,第7期

机译：QUEST中全金属等离子体壁上长时间放电时氢势垒模型和氢态速率方程相结合的颗粒平衡研究
2. Particle balance investigation with the combination of the hydrogen barrier model and rate equations of hydrogen state in long duration discharges on an all-metal plasma facing wall in QUEST [J] . Hanada K., Yoshida N., Hasegawa M., Nuclear fusion . 2019,第7期

机译：颗粒平衡研究与氢气屏障模型的组合和氢气状态的速率方程在追踪墙壁上的全金属等离子壁上放电
3. Plasma-wall interactions with nitrogen seeding in all-metal fusion devices: Formation of nitrides and ammonia [J] . Oberkofler Martin, Alegre D., Aumayr F., Fusion Engineering and Design . 2015,第OCTa期

机译：全金属熔融装置中等离子体壁与氮注入的相互作用：氮化物和氨的形成
4. STEADY STATE PLASMA CONTROL FOR LONG PULSE OPERATION WITH ACTIVELY COOLED PLASMA FACING COMPONENTS [C] . International conference on plasma physics and controlled nuclear fusion research . 1995

机译：具有主动冷却等离子体面对面部件的长脉冲操作的稳态等离子体控制
5. Study of the synchronous operation of an Annular Field Reversed Configuration plasma device. [D] . Kirtley, David E. 2008

机译：环形场反向配置等离子体装置的同步操作研究。
6. Predictive maintenance and safety operation by device integration on the QUEST large experimental device [O] . Makoto Hasegawa, Kazuaki Hanada, Hiroshi Idei, 2020

机译：试验大型实验装置对设备集成的预测维护和安全运行
7. Technical Issues on the Control of Plasma-Wall Interactions in Steady-State Magnetic Fusion Devices. 3. Innovative Concepts for Plasma-Facing Components. Proof-of-Principle Experiments on the Selected Concepts of Moving-Surface Plasma-Facing Components. [O] . Kenjirou MATSUHIRO, Yoshihiko HIROOKA 2002

机译：稳态磁融合装置等离子壁相互作用控制的技术问题。 3.面向等离子体组件的创新概念。关于移动表面等离子体组件的所选概念的原则上的原则实验。
8. US-Japan workshops: Q-111, Development of plasma facing components and materials for next large fusion devices, and Q-112, Vacuum and first wall technology for fusion devices. [R] . Whitley, J. B., Miyahara, A. 1990

机译：美日研讨会：Q-111，用于下一代大型聚变装置的等离子体面向组件和材料的开发，以及用于聚变装置的Q-112，真空和第一壁技术。

Overview of recent progress on steady state operation of all-metal plasma facing wall device QUEST

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