Investigation of H-mode density limit in mixed protium–deuterium plasmas at JET with ITER-like wall

IF 2.3 2区物理与天体物理 Q1 NUCLEAR SCIENCE & TECHNOLOGY Nuclear Materials and Energy Pub Date : 2024-11-06 DOI:10.1016/j.nme.2024.101806

A. Huber , G. Sergienko , M. Groth , D. Keeling , M. Wischmeier , D. Douai , E. Lerche , C. Perez von Thun , S. Brezinsek , V. Huber , A. Boboc , M. Brix , I.S. Carvalho , A.V. Chankin , E. Delabie , I. Jepu , V. Kachkanov , V. Kiptily , K. Kirov , Ch. Linsmeier , M. Zlobinski

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Abstract

Analysis of comparable discharges fuelled by either deuterium or protium reveals a clear relationship between the isotope mass and the H-mode density limit. Notably, the density limit is significantly lower in protium, showing a reduction of up to 35 % compared to identical deuterium plasma conditions. Within mixed H-mode density limit (HDL) plasmas, the maximum achievable density, or H-mode density limit, decreases with increasing protium concentration, denoted as c_H. For instance, the highest corresponding maximum Greenwald fraction (f_GW) of about 1.02 was observed in the pulse with the lowest c_H value of 4.4 %. This f_GW decreases to 0.96 at c_H = 48 %. The average atomic mass,

\bar{A}

, of the plasma species decreases in these pulses from the value of 1.96 (c_H = 4.4 %) down to 1.52 (c_H = 48 %). Interestingly, the maximum achievable density appears to be largely unaffected by the applied power value, regardless of whether deuterium or protium is used, as well as under mixed H/D fuelling conditions.

Additionally, the measured Greenwald fractions are agreed with a heuristic model based on the SOL pressure threshold of an MHD instability, as proposed by Goldston. This comparison, especially concerning the model’s dependence on isotopic mass, shows full consistency between the measured and predicted Greenwald fractions.

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在具有类似国际热核聚变实验堆（ITER）壁的 JET 上研究氕氘混合等离子体中的 H 模式密度极限

对以氘或氕为燃料的可比放电进行分析后发现，同位素质量与 H 模式密度极限之间存在明显的关系。值得注意的是，氕的密度极限明显降低，与相同的氘等离子体条件相比，降低幅度高达 35%。在混合 H 模式密度极限（HDL）等离子体中，可达到的最大密度或 H 模式密度极限会随着氕浓度（表示为 cH）的增加而降低。例如，在 cH 值最低（4.4%）的脉冲中观察到的相应最大格林瓦尔德分数（fGW）最高，约为 1.02。当 cH = 48 % 时，该 fGW 降至 0.96。在这些脉冲中，等离子体物种的平均原子质量 A¯ 从 1.96（cH = 4.4 %）下降到 1.52（cH = 48 %）。有趣的是，无论使用的是氘还是氕，以及在氢/氘混合燃料条件下，可达到的最大密度似乎基本不受应用功率值的影响。此外，测得的格林瓦尔德分数与戈德斯顿提出的基于 MHD 不稳定的 SOL 压力阈值的启发式模型一致。这种比较，特别是关于模型对同位素质量的依赖性的比较，表明测量和预测的格林瓦尔德分数完全一致。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Nuclear Materials and Energy Materials Science-Materials Science (miscellaneous)

CiteScore

3.70

自引率

15.40%

发文量

175

审稿时长

20 weeks

期刊介绍： The open-access journal Nuclear Materials and Energy is devoted to the growing field of research for material application in the production of nuclear energy. Nuclear Materials and Energy publishes original research articles of up to 6 pages in length.