Effect of boronization in VEST: Achieving 0.1 MA discharge

J. Yang; S.H. Hong; D. Kim; J. Jang; J.Y. Kim; E.C. Jung; Y. Kim; Y.S. Hwang

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Effect of boronization in VEST: Achieving 0.1 MA discharge

机译：硼化对VEST的影响：实现0.1 MA放电

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Boronization procedure for Versatile Experiment Spherical Torus (VEST) is developed in order to reduce the oxygen impurity during the Ohmic plasma discharge. Carborane (C2B10H12) powder has been chosen for a safe operation. During the helium glow discharge, the sublimated carborane is diffused into the vacuum vessel, which results in thin boron-containing coatings on the vacuum vessel wall. After the boronization, qualitative changes in visible light intensities of oxygen and boron lines are observed indicating that the water concentration is reduced globally. The quality of discharges is greatly improved: a discharge with less radiative loss is achieved, which leads to a record shot of 0.1 MA plasma current and a nearly doubled pulse length.

机译：开发了用于多功能实验球形圆环（VEST）的硼化程序，以减少欧姆等离子体放电过程中的氧杂质。为了安全操作，选择了碳硼烷（C2B10H12）粉末。在氦气辉光放电期间，升华的碳硼烷会扩散到真空容器中，这会在真空容器壁上形成薄的含硼涂层。硼化后，观察到氧气和硼线的可见光强度发生了质的变化，表明总体上水浓度降低了。放电质量得到了极大的改善：实现了具有较小辐射损耗的放电，这导致创纪录的0.1µMA等离子体电流记录和近一倍的脉冲长度。

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来源
《Fusion Engineering and Design》 |2018年第12期|358-361|共4页
作者
J. Yang; S.H. Hong; D. Kim; J. Jang; J.Y. Kim; E.C. Jung; Y. Kim; Y.S. Hwang;
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作者单位

Department of Engineering, Seoul National University;

National Fusion Research Institute;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
Boronization; Carborane; Tokamak; Spectroscopy;

机译：硼化;碳硼烷;托卡马克;光谱学;

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Effect of boronization in VEST: Achieving 0.1 MA discharge

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