Negative triangularity scenarios: from TCV and AUG experiments to DTT predictions

IF 3.5 1区 物理与天体物理 Q1 PHYSICS, FLUIDS & PLASMAS Nuclear Fusion Pub Date : 2024-08-27 DOI:10.1088/1741-4326/ad6ea0
A. Mariani, L. Aucone, A. Balestri, P. Mantica, G. Merlo, R. Ambrosino, F. Bagnato, L. Balbinot, J. Ball, T. Bolzonella, D. Brioschi, I. Casiraghi, A. Castaldo, S. Coda, L. Frassinetti, V. Fusco, T. Happel, J. Hobirk, P. Innocente, R.M. McDermott, P. Muscente, T. Pütterich, O. Sauter, F. Sciortino, M. Vallar, B. Vanovac, N. Vianello, G. Vlad, C.F.B. Zimmermann, the EUROfusion Tokamak Exploitation teama, the TCV Teamb, the ASDEX Upgrade Teamc
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Abstract

Experiments, gyrokinetic simulations and transport predictions were performed to investigate if a negative triangularity (NT) L-mode option for the Divertor Tokamak Test (DTT) full-power scenario would perform similarly to the positive triangularity (PT) H-mode reference scenario, avoiding the harmful edge localized modes (ELMs). The simulations show that a beneficial effect of NT coming from the edge/scrape-off layer (SOL) region ρtor>0.9 is needed to allow the actual NT L-mode option to perform like the PT H-mode. Dedicated experiments at TCV and AUG, with DTT-like shapes, show an optimistic picture. In TCV, experiments indicate that even with the relatively small triangularity of the DTT NT scenario, a large beneficial effect of NT comes from the plasma edge and SOL, allowing NT L-modes to outperform PT L-modes with the same power input, reaching the same central pressures as PT H-modes with twice as much applied heating power. For AUG, NT plasmas go into H-mode more easily than for TCV, but always present much smaller pedestals compared with PT plasmas with the same input power, showing a much weaker or absent ELM activity. However, NT has a smaller beneficial effect for AUG than for TCV, with NT pulses outperforming PT pulses with the same input power only for an ECRH-only case with relatively low input power. For the considered AUG cases, PT pulses perform better than NT ones at higher ECRH power or with mixed NBI and ECRH power. Based on this analysis, the NT option is a viable alternative for the DTT full power scenario, providing high performance plasmas with reduced or absent ELMs.
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负三角形情况:从 TCV 和 AUG 实验到 DTT 预测
通过实验、陀螺动力学模拟和传输预测,研究了用于 "岔道托卡马克试验"(DTT)全功率方案的负三角形(NT)L-模式方案是否与正三角形(PT)H-模式参考方案性能相似,并避免了有害的边缘局部模式(ELM)。模拟结果表明,需要来自边缘/刮掉层(SOL)区域 ρtor>0.9 的 NT 有利效应,才能使实际 NT L 模式选项的性能与 PT H 模式相似。在 TCV 和 AUG 进行的类似 DTT 形状的专门实验显示了乐观的前景。在 TCV,实验表明,即使 DTT NT 方案的三角形相对较小,NT 的巨大有利影响也来自等离子体边缘和 SOL,从而使 NT L 模式在输入功率相同的情况下优于 PT L 模式,在加热功率为 PT H 模式两倍的情况下达到与 PT H 模式相同的中心压力。对于 AUG,NT 等离子体比 TCV 更容易进入 H 模式,但与具有相同输入功率的 PT 等离子体相比,NT 等离子体的基底面总是小得多,显示出更弱或不存在 ELM 活动。然而,与 TCV 相比,NT 对 AUG 的有利影响较小,只有在输入功率相对较低的纯 ECRH 情况下,NT 脉冲才优于相同输入功率的 PT 脉冲。对于所考虑的 AUG 病例,在 ECRH 功率较高或 NBI 和 ECRH 功率混合的情况下,PT 脉冲的表现优于 NT 脉冲。根据上述分析,NT 方案是 DTT 全功率方案的可行替代方案,可提供高性能等离子体,减少或消除 ELM。
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来源期刊
Nuclear Fusion
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.
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