Transport model of plasma heating at the second harmonic of the electron cyclotron frequency

被引:25
|
作者
Dnestrovskij, Yu N. [1 ]
Danilov, A., V [1 ]
Dnestrovskij, A. Yu [1 ]
Lysenko, S. E. [1 ]
Melnikov, A., V [1 ,2 ]
Nemets, A. R. [1 ]
Nurgaliev, M. R. [1 ]
Subbotin, G. F. [1 ]
Solovev, N. A. [1 ]
Sychugov, D. Yu [3 ]
Cherkasov, S., V [1 ]
机构
[1] Natl Res Ctr, Kurchatov Inst, Moscow, Russia
[2] Natl Res Nucl Univ MEPhI, Moscow, Russia
[3] Moscow MV Lomonosov State Univ, Moscow, Russia
来源
PLASMA PHYSICS AND CONTROLLED FUSION | 2021年 / 63卷 / 05期
基金
俄罗斯科学基金会;
关键词
tokamak; stellarator; electron cyclotron heating; numeric simulation;
D O I
10.1088/1361-6587/abdc9b
中图分类号
O35 [流体力学]; O53 [等离子体物理学];
学科分类号
070204 ; 080103 ; 080704 ;
摘要
The optical thickness of the plasma is often insufficient to fully absorb the microwaves during heating at the second harmonic of the electron cyclotron frequency. An analysis of the experiments to the T-10 tokamak allows us to find the criteria for the full absorption, and to construct a canonical profile transport model for the full and partial absorptions of microwaves. The conditions to the equivalence of discharges in different tokamaks, and in a pair of tokamaks with the optimized W7-X stellarator are formulated. For equivalent discharges, calculations to the T-15MD tokamak under construction with the obtained model coincide with measurements of electron and ion temperatures in the W7-X over a wide range of plasma densities. The validated model is used to analyze future shots of T-15MD.
引用
收藏
页数:16
相关论文
共 50 条
  • [21] High-power gyrotrons for electron cyclotron heating and current drive
    Thumm, M. K. A.
    Denisov, G. G.
    Sakamoto, K.
    Tran, M. Q.
    NUCLEAR FUSION, 2019, 59 (07)
  • [22] Plasma heating by electron cyclotron wave and the temperature effects on lower hybrid current drive on EAST
    Li, M. H.
    Xu, H. D.
    Wang, X. J.
    Wang, M.
    Ding, B. J.
    Wu, C. B.
    Yan, G. H.
    Liu, L.
    Zhao, L. M.
    Wu, Z. G.
    Xu, W. Y.
    Wu, D. J.
    Zhang, L. Y.
    Tang, Y. Y.
    Li, H.
    Wallace, G. M.
    Baek, S. G.
    Bonoli, P. T.
    Zang, Q.
    Lin, S. Y.
    Meng, L. Y.
    Zhao, H. L.
    Xu, L. Q.
    Wang, M. R.
    Zhang, X. J.
    Huang, J.
    Qian, J. P.
    Gong, X. Z.
    NUCLEAR FUSION, 2023, 63 (04)
  • [23] The second harmonic heating system for the NORTH tokamak
    Ragona, R.
    Jacobsen, A. S.
    Jensen, T.
    Jessen, M.
    Pedersen, A. C.
    Gryaznevich, M.
    Nielsen, S. K.
    FUSION ENGINEERING AND DESIGN, 2023, 194
  • [24] CONFINEMENT CONSTRAINTS OF ELECTRON-CYCLOTRON HEATING MODELS
    CHIN, RC
    LI, SH
    FUSION TECHNOLOGY, 1994, 26 (03): : 255 - 260
  • [25] Electron cyclotron heating scenario and experimental results in LHD
    Idei, H
    Kubo, S
    Shimozuma, T
    Sato, M
    Ohkubo, K
    Yoshimura, Y
    Takita, Y
    Kobayashi, S
    Ito, S
    Mizuno, Y
    Tsumori, K
    Ikeda, K
    Notake, T
    Watari, T
    Kaneko, O
    Komori, A
    Yamada, H
    de Vries, PC
    Goto, M
    Ida, K
    Inagaki, S
    Kado, S
    Kawahata, K
    Kobuchi, T
    Minami, T
    Miyazawa, J
    Morisaki, T
    Morita, S
    Murakami, S
    Muto, S
    Nagayama, Y
    Nakanishi, H
    Narihara, K
    Peterson, BJ
    Sakakibara, S
    Sasao, H
    Sato, K
    Tanaka, K
    Takeiri, Y
    Watanabe, KY
    Yamada, I
    Motojima, O
    Fujiwara, M
    FUSION ENGINEERING AND DESIGN, 2001, 53 (1-4) : 329 - 336
  • [26] ELECTRON-CYCLOTRON HEATING (ECH) OF TOKAMAK PLASMAS
    HOSHINO, K
    JOURNAL OF NUCLEAR SCIENCE AND TECHNOLOGY, 1990, 27 (05) : 391 - 405
  • [27] Absorption of Microwaves in Different Regimes of Electron Cyclotron Plasma Heating at the L-2M Stellarator
    Batanov, G. M.
    Borzosekov, V. D.
    Sarksyan, K. A.
    Kharchev, N. K.
    PLASMA PHYSICS REPORTS, 2021, 47 (08) : 786 - 793
  • [28] Absorption of Microwaves in Different Regimes of Electron Cyclotron Plasma Heating at the L-2M Stellarator
    G. M. Batanov
    V. D. Borzosekov
    K. A. Sarksyan
    N. K. Kharchev
    Plasma Physics Reports, 2021, 47 : 786 - 793
  • [29] Suppression of Trapped Energetic Ions Driven Resistive Interchange Modes with Electron Cyclotron Heating in a Helical Plasma
    Du, X. D.
    Toi, K.
    Ohdachi, S.
    Watanabe, K. Y.
    Takahashi, H.
    Yoshimura, Y.
    Osakabe, M.
    Seki, R.
    Nicolas, T.
    Tsuchiya, H.
    Nagaoka, K.
    Ogawa, K.
    Tanaka, K.
    Isobe, M.
    Yokoyama, M.
    Yoshinuma, M.
    Kubo, S.
    Sakakibara, S.
    Bando, T.
    Ido, T.
    Ozaki, T.
    Suzuki, Y.
    Takemura, Y.
    PHYSICAL REVIEW LETTERS, 2017, 118 (12)
  • [30] Observations of rotation in JET plasmas with electron heating by ion cyclotron resonance heating
    Hellsten, T.
    Johnson, T. J.
    Van Eester, D.
    Lerche, E.
    Lin, Y.
    Mayoral, M-L
    Ongena, J.
    Calabro, G.
    Crombe, K.
    Frigione, D.
    Giroud, C.
    Lennholm, M.
    Mantica, P.
    Nave, M. F. F.
    Naulin, V.
    Sozzi, C.
    Studholme, W.
    Tala, T.
    Versloot, T.
    PLASMA PHYSICS AND CONTROLLED FUSION, 2012, 54 (07)
12345