Investigations of atomic and molecular processes of NBI-heated discharges in the MAST Upgrade Super-X divertor with implications for reactors

IF 3.5 1区物理与天体物理 Q1 PHYSICS, FLUIDS & PLASMAS Nuclear Fusion Pub Date : 2024-07-03 DOI:10.1088/1741-4326/ad5851

Kevin Verhaegh, James Harrison, Bruce Lipschultz, Nicola Lonigro, Stijn Kobussen, David Moulton, Nick Osborne, Peter Ryan, Christian Theiler, Tijs Wijkamp, Dominik Brida, Gijs Derks, Rhys Doyle, Fabio Federici, Antti Hakola, Stuart Henderson, Bob Kool, Sarah Newton, Ryoko Osawa, Xander Pope, Holger Reimerdes, Nicola Vianello, Marco Wischmeier, the EUROfusion Tokamak Exploitation Team and the MAST-U Team

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Abstract

This experimental study presents an in-depth investigation of the performance of the MAST-U Super-X divertor during NBI-heated operation (up to 2.5 MW) focussing on volumetric ion sources and sinks as well as power losses during detachment. The particle balance and power loss analysis revealed the crucial role of Molecular Activated Recombination and Dissociation (MAR and MAD) ion sinks in divertor particle and power balance, which remain pronounced in the change from ohmic to higher power (NBI heated) L-mode conditions. The importance of MAR and MAD remains with double the absorbed NBI heating. MAD results in significant power dissipation (up to of ), mostly in the cold ( eV) detached region. Theoretical and experimental evidence is found for the potential contribution of to MAR and MAD, which warrants further study. These results suggest that MAR and MAD can be relevant in higher power conditions than the ohmic conditions studied previously. Post-processing reactor-scale simulations suggests that MAR and MAD can play a significant role in divertor physics and synthetic diagnostic signals of reactor-scale devices, which are currently underestimated in exhaust simulations. This raises implications for the accuracy of reactor-scale divertor simulations of particularly tightly baffled (alternative) divertor configurations.

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研究 MAST 升级版 Super-X 分流器中 NBI 加热放电的原子和分子过程及其对反应堆的影响

本实验研究对 MAST-U Super-X 分流器在 NBI 加热运行（高达 2.5 MW）期间的性能进行了深入调查，重点是体积离子源和离子汇以及分离过程中的功率损耗。粒子平衡和功率损耗分析表明，分子活化重组和解离（MAR 和 MAD）离子汇在分流器粒子和功率平衡中起着至关重要的作用。在双倍吸收 NBI 加热的情况下，MAR 和 MAD 的重要性依然存在。MAD 导致大量功率耗散（最高达），主要是在冷（eV）脱离区域。理论和实验证明了 MAR 和 MAD 的潜在贡献，值得进一步研究。这些结果表明，与之前研究的欧姆条件相比，MAR 和 MAD 可能与更高功率条件相关。反应堆尺度模拟的后处理表明，MAR 和 MAD 可在反应堆尺度设备的分流物理和合成诊断信号中发挥重要作用，而这些作用目前在排气模拟中被低估了。这对反应堆尺度引流器模拟的准确性产生了影响，特别是紧密障板（替代）引流器配置。

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来源期刊

Nuclear Fusion 物理-物理：核物理

CiteScore

6.30

自引率

39.40%

发文量

411

审稿时长

2.6 months

期刊介绍： Nuclear Fusion publishes articles making significant advances to the field of controlled thermonuclear fusion. The journal scope includes: -the production, heating and confinement of high temperature plasmas; -the physical properties of such plasmas; -the experimental or theoretical methods of exploring or explaining them; -fusion reactor physics; -reactor concepts; and -fusion technologies. The journal has a dedicated Associate Editor for inertial confinement fusion.