Configuration flexibility and extended regimes in Large Helical Device

被引：89

作者：

Yamada, H ^{[1
]}

Komori, A

Ohyabu, N

Kaneko, O

Kawahata, K

Watanabe, KY

Sakakibara, S

Murakami, S

Ida, K

Sakamoto, R

Liang, Y

Miyazawa, J

Tanaka, K

Narushima, Y

Morita, S

Masuzaki, S

Morisaki, T

Ashikawa, N

Baylor, LR

Cooper, WA

Emoto, M

Fisher, PW

Funaba, H

Goto, M

Idei, H

Ikeda, K

Inagaki, S

Inoue, N

Isobe, M

Khlopenkov, K

Kobuchi, T

Kostrioukov, A

Kubo, S

Kuroda, T

Kumazawa, R

Minami, T

Muto, S

Mutoh, T

Nagayama, Y

Nakajima, N

Nakamura, Y

Nakanishi, H

Narihara, K

Nishimura, K

Noda, N

Notake, T

Ohdachi, S

Oka, Y

Osakabe, M

Ozaki, T

机构：

[1] Natl Inst Fus Sci, Gifu 5295292, Japan

[2] Grad Univ Adv Studies, Sch Math & Phys Sci, Dept Fus Sci, Yokohama, Kanagawa 2400193, Japan

[3] Oak Ridge Natl Lab, Oak Ridge, TN 37831 USA

[4] Ecole Polytech Fed Lausanne, Ctr Rech Phys Plasmas, CH-1015 Lausanne, Switzerland

[5] Nagoya Univ, Dept Energy Engn & Sci, Nagoya, Aichi 4648603, Japan

[6] Princeton Plasma Phys Lab, Princeton, NJ 08544 USA

来源：

PLASMA PHYSICS AND CONTROLLED FUSION | 2001年 / 43卷

关键词：

D O I：

10.1088/0741-3335/43/12A/305

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：

Recent experimental results in the Large Helical Device have indicated that a large pressure gradient can be formed beyond the stability criterion for the Mercier (high-n) mode. While the stability against an interchange mode is violated in the inward-shifted configuration due to an enhancement of the magnetic hill, the neoclassical transport and confinement of high-energy particle are, in contrast, improved by this inward shift. Mitigation of the unfavourable effects of MHD instability has led to a significant extension of the operational regime. Achievements of the stored energy of I MJ and the volume-averaged beta of 3% are representative results from this finding. A confinement enhancement factor above the international stellarator scaling ISS95 is also maintained around 1.5 towards a volume-averaged beta, (beta), of 3%. Configuration studies on confinement and MHD characteristics emphasize the superiority of the inward-shifted geometry to other geometries. The emergence of coherent modes appears to be consistent with the linear ideal MHD theory; however, the inward-shifted configuration has reduced heat transport in spite of a larger amplitude of magnetic fluctuation than the outward-shifted configuration. While neoclassical helical ripple transport becomes visible for the outward-shifted configuration in the collisionless regime, the inward-shifted configuration does not show any degradation of confinement deep in the collisionless regime (nu* < 0.1). The distinguished characteristics observed in the inward-shifted configuration help in creating a new perspective of MHD stability and related transport in net current-free plasmas. The first result of the pellet launching at different locations is also reported.

引用

页码：A55 / A71

页数：17

共 36 条

[1] Deposition of fuel pellets injected into tokamak plasmas [J].

Baylor, LR ;

Jernigan, TC ;

Hsieh, C .

FUSION TECHNOLOGY, 1998, 34 (03) :425-429

[2] VARIATIONAL FORMULATION OF THE LINEAR MHD STABILITY OF 3D-PLASMAS WITH NONINTERACTING HOT-ELECTRONS [J].

COOPER, WA .

PLASMA PHYSICS AND CONTROLLED FUSION, 1992, 34 (06) :1011-1036

[3] Plasma confinement studies in LHD [J].

Fujiwara, M ;

Yamada, H ;

Ejiri, A ;

Emoto, M ;

Funaba, H ;

Goto, M ;

Ida, K ;

Idei, H ;

Inagaki, S ;

Kado, S ;

Kaneko, O ;

Kawahata, K ;

Kobuchi, T ;

Komori, A ;

Kubo, S ;

Kumazawa, R ;

Masuzaki, S ;

Minami, T ;

Miyazawa, J ;

Morisaki, T ;

Morita, S ;

Murakami, S ;

Muto, S ;

Mutoh, T ;

Nagayama, Y ;

Nakamura, Y ;

Nakanishi, H ;

Narihara, K ;

Nishimura, K ;

Noda, N ;

Ohdachi, S ;

Ohyabu, N ;

Oka, Y ;

Osakabe, M ;

Ozaki, T ;

Peterson, BJ ;

Sagara, A ;

Sakakibara, S ;

Sakamoto, R ;

Sasao, H ;

Sasao, M ;

Sato, K ;

Sato, M ;

Seki, T ;

Shimozuma, T ;

Shoji, M ;

Suzuki, H ;

Takeiri, Y ;

Tanaka, K ;

Toi, K .

NUCLEAR FUSION, 1999, 39 (11Y) :1659-1666

[4] Overview of LHD experiments [J].

Fujiwara, M ;

Kawahata, K ;

Ohyabu, N ;

Kaneko, O ;

Komori, A ;

Yamada, H ;

Ashikawa, N ;

Baylor, LR ;

Combs, SK ;

deVries, PC ;

Emoto, M ;

Ejiri, A ;

Fisher, PW ;

Funaba, H ;

Goto, M ;

Hartmann, D ;

Ida, K ;

Idei, H ;

Iio, S ;

Ikeda, K ;

Inagaki, S ;

Inoue, N ;

Isobe, T ;

Kado, S ;

Khlopenkov, K ;

Kobuchi, T ;

Krasilnikov, AV ;

Kubo, S ;

Kumazawa, R ;

Leuterer, F ;

Liang, Y ;

Lyon, JF ;

Masuzaki, S ;

Minami, T ;

Miyajima, J ;

Morisaki, T ;

Morita, S ;

Murakami, S ;

Muto, S ;

Mutoh, T ;

Nagayama, Y ;

Nakajima, N ;

Nakamura, Y ;

Nakanishi, H ;

Narihara, K ;

Nishimura, K ;

Noda, N ;

Notake, T ;

Ohdachi, S ;

Oka, Y .

NUCLEAR FUSION, 2001, 41 (10) :1355-1367

[5] Experiments on NBI plasmas in LHD [J].

Fujiwara, M ;

Kaneko, O ;

Komori, A ;

Yamada, H ;

Ohyabu, N ;

Kawahata, K ;

de Vries, PC ;

Emoto, M ;

Funaba, H ;

Goto, M ;

Ida, K ;

Idei, H ;

Inagaki, S ;

Inoue, N ;

Kado, S ;

Kubo, S ;

Kumazawa, R ;

Masuzaki, S ;

Minami, T ;

Miyazawa, J ;

Morisaki, T ;

Morita, S ;

Murakami, S ;

Muto, S ;

Mutoh, T ;

Nagayama, Y ;

Nakamura, Y ;

Nakanishi, H ;

Narihara, K ;

Nishimura, K ;

Noda, N ;

Kobuchi, T ;

Ohdachi, S ;

Oka, Y ;

Osakabe, M ;

Ozaki, T ;

Peterson, BJ ;

Sagara, A ;

Sahkibara, S ;

Sakamoto, R ;

Sasao, H ;

Sasao, M ;

Sato, K ;

Sato, M ;

Seki, T ;

Shimozuma, T ;

Shoji, M ;

Suzuki, H ;

Takeiri, Y ;

Tanaka, K .

PLASMA PHYSICS AND CONTROLLED FUSION, 1999, 41 :B157-B166

[6] TRANSPORT SIMULATION ON L-MODE AND IMPROVED CONFINEMENT ASSOCIATED WITH CURRENT PROFILE MODIFICATION [J].

FUKUYAMA, A ;

ITOH, K ;

ITOH, SI ;

YAGI, M ;

AZUMI, M .

PLASMA PHYSICS AND CONTROLLED FUSION, 1995, 37 (06) :611-631

[7] EFFECTS OF NET TOROIDAL CURRENT ON THE MERCIER CRITERION IN THE LARGE HELICAL DEVICE [J].

ICHIGUCHI, K ;

NAKAJIMA, N ;

OKAMOTO, M ;

NAKAMURA, Y ;

WAKATANI, M .

NUCLEAR FUSION, 1993, 33 (03) :481-492

[8] Overview of the Large Helical Device project [J].

Iiyoshi, A ;

Komori, A ;

Ejiri, A ;

Emoto, M ;

Funaba, H ;

Goto, M ;

Ida, K ;

Idei, H ;

Inagaki, S ;

Kado, S ;

Kaneko, O ;

Kawahata, K ;

Kobuchi, T ;

Kubo, S ;

Kumazawa, R ;

Masuzaki, S ;

Minami, T ;

Miyazawa, J ;

Morisaki, T ;

Morita, S ;

Murakami, S ;

Muto, S ;

Mutoh, T ;

Nagayama, Y ;

Nakamura, Y ;

Nakanishi, H ;

Narihara, K ;

Nishirnura, K ;

Noda, N ;

Ohdachi, S ;

Ohyabu, N ;

Oka, Y ;

Osakabe, M ;

Ozaki, T ;

Peterson, BJ ;

Sagara, A ;

Sakakibara, S ;

Sakamoto, R ;

Sasao, H ;

Sasao, M ;

Sato, K ;

Sato, M ;

Seki, T ;

Shimozuma, T ;

Shoji, M ;

Suzuki, H ;

Takeiri, Y ;

Tanaka, E ;

Toi, K ;

Tokuzawa, T .

NUCLEAR FUSION, 1999, 39 (9Y) :1245-1256

[9] SELF-SUSTAINED TURBULENCE AND L-MODE CONFINEMENT IN TOROIDAL PLASMAS-II [J].

ITOH, K ;

ITOH, SI ;

FUKUYAMA, A ;

YAGI, M ;

AZUMI, M .

PLASMA PHYSICS AND CONTROLLED FUSION, 1994, 36 (09) :1501-1520

[10] Plasma startup by neutral beam injection in the Large Helical Device [J].

Kaneko, O ;

Takeiri, Y ;

Tsumori, K ;

Oka, Y ;

Osakabe, M ;

Funaba, H ;

Morita, S ;

Peterson, BJ ;

Sakakibara, S ;

Tanaka, K ;

Mutoh, T ;

Sato, M ;

Ohkubo, K ;

Komori, A ;

Yamada, H ;

Ohyabu, N ;

Kawahata, K ;

Motojima, O .

NUCLEAR FUSION, 1999, 39 (09) :1087-1091

← 1 2 3 4 →