Effect of progressively increasing lithium conditioning on edge transport and stability in high triangularity NSTX H-modes

Maingi R.; Canik J. M.; Bell R. E.; Boyle D. P.; Diallo A.; Kaita R.; Kaye S. M.; LeBlanc B. P.; Sabbagh S. A.; Scotti F.; Soukhanovskii V. A.

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Effect of progressively increasing lithium conditioning on edge transport and stability in high triangularity NSTX H-modes

机译：逐渐增加锂调节对高三角形NSTX H模式下边缘传输和稳定性的影响

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A sequence of H-mode discharges with increasing levels of pre-discharge lithium evaporation ('dose') was conducted in high triangularity and elongation boundary shape in NSTX. Energy-confinement increased, and recycling decreased with increasing lithium dose, similar to a previous lithium dose scan in medium triangularity and elongation plasmas. Data-constrained SOLPS interpretive modeling quantified the edge transport change: the electron particle diffusivity decreased by 10-30x. The electron thermal diffusivity decreased by 4x just inside the top of the pedestal, but increased by up to 5x very near the separatrix. These results provide a baseline expectation for lithium benefits in NSTX-U, which is optimized for a boundary shape similar to the one in this experiment. (C) 2016 Elsevier B.V. All rights reserved.

机译：在NSTX中，以高三角形和伸长边界形状进行了一系列随着预放电锂蒸发量（“剂量”）的增加而进行的H型放电。与先前在中等三角形和伸长等离子体中进行锂剂量扫描类似，随着锂剂量的增加，能量约束增加，回收利用减少。数据受限的SOLPS解释性模型量化了边缘传输的变化：电子粒子的扩散率降低了10-30倍。电子热扩散率仅在基座顶部内部降低了4倍，但在分离线附近增加了高达5倍。这些结果为NSTX-U中锂的益处提供了一个基线预期，该基线针对与本实验中相似的边界形状进行了优化。（C）2016 Elsevier B.V.保留所有权利。

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来源
《Fusion Engineering and Design》 |2017年第4期|150-156|共7页
作者
Maingi R.; Canik J. M.; Bell R. E.; Boyle D. P.; Diallo A.; Kaita R.; Kaye S. M.; LeBlanc B. P.; Sabbagh S. A.; Scotti F.; Soukhanovskii V. A.;
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作者单位

Princeton Plasma Phys Lab, 100 Stellarator Rd, Princeton, NJ 08543 USA;

Oak Ridge Natl Lab, Oak Ridge, TN USA;

Princeton Plasma Phys Lab, 100 Stellarator Rd, Princeton, NJ 08543 USA;

Princeton Univ, Princeton, NJ 08544 USA;

Princeton Plasma Phys Lab, 100 Stellarator Rd, Princeton, NJ 08543 USA;

Princeton Plasma Phys Lab, 100 Stellarator Rd, Princeton, NJ 08543 USA;

Princeton Plasma Phys Lab, 100 Stellarator Rd, Princeton, NJ 08543 USA;

Princeton Plasma Phys Lab, 100 Stellarator Rd, Princeton, NJ 08543 USA;

Columbia Univ, New York, NY USA;

Lawrence Livermore Natl Lab, Livermore, CA USA;

Lawrence Livermore Natl Lab, Livermore, CA USA;

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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
NSTX; Lithium; Recyling; Pedestal; Energy confinement;

机译：NSTX;锂;回收利用;基座;能量限制;

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专利

1. The effect of progressively increasing lithium coatings on plasma discharge characteristics, transport, edge profiles and ELM stability in the National Spherical Torus Experiment [J] . R. Maingi, D.P. Boyle, J.M. Canik, Nuclear fusion . 2012,第8期

机译：在国家球形圆环实验中，逐渐增加锂涂层对等离子体放电特性，传输，边缘轮廓和ELM稳定性的影响
2. Stabilizing effect of resistivity towards ELM-free H-mode discharge in lithium-conditioned NSTX [J] . Debabrata Banerjee, Ping Zhu, Rajesh Maingi Nuclear fusion . 2017,第7期

机译：锂条件NSTX中对无ELM H模式放电的电阻率的稳定作用
3. Core transport of lithium and carbon in ELM-free discharges with lithium wall conditioning in NSTX [J] . F. Scotti, V.A. Soukhanovskii, R.E. Bell, Nuclear fusion . 2013,第8期

机译：NSTX中使用锂壁调节的无ELM放电中锂和碳的核心传输
4. ELM suppression through modification of Edge Profiles with Lithium Wall Coatings in NSTX [C] . R. Maingi, T.H. Osborne, J.M. Canik, Conference on Plasma Physics . 2010

机译：通过在NSTX中使用锂壁涂层改变边缘轮廓的ELM抑制
5. Modifications of impurity transport and divertor sources by lithium wall conditioning in the National Spherical Torus Experiment. [D] . Scotti, Filippo. 2014

机译：国家球形圆环实验中锂壁调节对杂质传输和偏滤源的改性。
6. Experimental validation of non-uniformity effect of the radial electric field on the edge transport barrier formation in JT-60U H-mode plasmas [O] . K. Kamiya, K. Itoh, S.-I. Itoh -1

机译：JT-60U H型等离子体中径向电场对边缘传输势垒形成的非均匀效应的实验验证
7. Varying the pre-discharge lithium wall coatings to alter the characteristics of the ELM-free H-mode pedestal in NSTX [O] . D.P. Boyle, J.M. Canik, R. Maingi, 2013

机译：改变预放电锂壁涂层以改变NSTX中的无榆木H模式基座的特性

Effect of progressively increasing lithium conditioning on edge transport and stability in high triangularity NSTX H-modes

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