GOAL AND ACHIEVEMENTS OF LARGE HELICAL DEVICE PROJECT

被引：101

作者：

Komori, A. ^{[1
]}

Yamada, H. ^{[1
]}

Imagawa, S. ^{[1
]}

Kaneko, O. ^{[1
]}

Kawahata, K. ^{[1
]}

Mutoh, K. ^{[1
]}

Ohyabu, N. ^{[1
]}

Takeiri, Y. ^{[1
]}

Ida, K. ^{[1
]}

Mito, T. ^{[1
]}

Nagayama, Y. ^{[1
]}

Sakakibara, S. ^{[1
]}

Sakamoto, R. ^{[1
]}

Shimozuma, T. ^{[1
]}

Watanabe, K. Y. ^{[1
]}

Motojima, O. ^{[1
]}

机构：

[1] Natl Inst Nat Sci, Natl Inst Fus Sci, Toki, Gifu 5095292, Japan

来源：

FUSION SCIENCE AND TECHNOLOGY | 2010年 / 58卷 / 01期

关键词：

heliotron; net current free plasma; helical system; INTERNAL DIFFUSION BARRIER; ENERGY PARTICLE-PRODUCTION; STEADY-STATE OPERATION; CONFINEMENT; LHD; REGIME; DESIGN; PLASMA; TRANSPORT;

D O I：

10.13182/FST58-1

中图分类号：

TL [原子能技术]; O571 [原子核物理学];

学科分类号：

0827 ; 082701 ;

摘要：

The Large Helical Device (LHD) is a heliotron-type device employing large-scale superconducting magnets to enable advanced studies of net-current-free plasmas. The major goal of the LHD experiment is to demonstrate the high performance of helical plasmas in a reactor-relevant plasma regime. Engineering achievements and operational experience greatly contribute to the technological basis for a fusion energy reactor. Thorough exploration for scientific and systematic understanding of the physics in the LHD is an important step to a helical fusion reactor. In the 12 years since the initial operation, the physics database as well as operational experience has been accumulated, and the advantages of stable and steady-state features have been demonstrated by the combination of advanced engineering and the intrinsic physical advantages of helical systems in the LHD. The cryogenic system has been operated for 56000 h in total without any serious trouble and routinely provides a confining magnetic field up to 2.96 T in steady state. The heating capability to date is 23 MW of neutral beam injection, 3 MW of ion cyclotron resonance frequency, and 2.5 MW of electron cyclotron resonance heating. Highlighted physical achievements are high beta (5.1%), high density (1.2 x 10(21) m(-3)), and steady-state operation (3200 s with 490 kW).

引用

页码：1 / 11

页数：11

共 50 条

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Komori, A.
FUSION SCIENCE AND TECHNOLOGY, 2010, 58 (03) : 779 - 779
[2] 10 years of engineering and physics achievements by the Large Helical Device project
Yamada, H.
Imagawa, S.
Takeiri, Y.
Kaneko, O.
Mutoh, T.
Mito, T.
Chikaraishi, H.
Hamaguchi, S.
Ida, K.
Igami, H.
Ikeda, K.
Kasahara, H.
Kobayashi, M.
Kubo, S.
Kumazawa, R.
Maekawa, R.
Masuzaki, S.
Miyazawa, J.
Morisaki, T.
Morita, S.
Nagaoka, K.
Nakamura, Y.
Narushima, Y.
Osakabe, M.
Saito, K.
Sakakibara, S.
Sakamoto, R.
Seki, T.
Shimozuma, T.
Shoji, M.
Suzuki, Y.
Takahata, K.
Tamura, H.
Tsumori, K.
Watanabe, K. Y.
Yamada, S.
Yanagi, N.
Yoshimura, Y.
Kawahata, K.
Ohyabu, N.
Komori, A.
Motojima, O.
FUSION ENGINEERING AND DESIGN, 2009, 84 (2-6) : 186 - 193
[3] Initial physics achievements of large helical device experiments
Motojima, O
Yamada, H
Komori, A
Ohyabu, N
Kawahata, K
Kaneko, O
Masuzaki, S
Ejiri, A
Emoto, M
Funaba, H
Goto, M
Ida, K
Idei, H
Inagaki, S
Inoue, N
Kado, S
Kubo, S
Kumazawa, R
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
Sakakibara, S
Sakamoto, R
Sasao, H
Sasao, M
Sato, K
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Seki, T
Shimozuma, T
Shoji, M
Suzuki, H
Takeiri, Y
Tanaka, K
PHYSICS OF PLASMAS, 1999, 6 (05) : 1843 - 1850
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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
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Nishirnura, K
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Sagara, A
Sakakibara, S
Sakamoto, R
Sasao, H
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Sato, K
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Shimozuma, T
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[5] STATUS OF LARGE HELICAL DEVICE PROJECT
FUJIWARA, M
FUSION ENGINEERING AND DESIGN, 1995, 26 (1-4) : 547 - 561
[6] Overview of the large helical device project
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.
et. al.
Nuclear Fusion, 1999, 39 (Special Issue): : 1245 - 1256
[7] HELICAL DIVERTOR IN THE LARGE HELICAL DEVICE
OHYABU, N
NODA, N
JI, H
AKAO, H
AKAISHI, K
ONO, T
KANEKO, H
KAWAMURA, T
KUBOTA, Y
MORIMOTO, S
SAGARA, A
WATANABE, T
YAMAZAKI, K
MOTOJIMA, O
JOURNAL OF NUCLEAR MATERIALS, 1992, 196 : 276 - 280
[8] Helical divertor in the large helical device
Ohyabu, N.
Noda, N.
Ji, Hantao
Akao, H.
Akaishi, K.
Ono, T.
Kaneko, H.
Kawamura, T.
Kubota, Y.
Morimoto, S.
Sagara, A.
Watanabe, T.
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Motojima, O.
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[9] THE LARGE HELICAL DEVICE (LHD) HELICAL DIVERTOR
OHYABU, N
WATANABE, T
JI, H
AKAO, H
ONO, T
KAWAMURA, T
YAMAZAKI, K
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MOTOJIMA, O
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IIYOSHI, A
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Komori, A
Yamada, H
Kaneko, O
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Kawahata, K
Sakamoto, R
Sakakibara, S
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Goto, M
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Kubo, S
Kumazawa, R
Masuzaki, S
Minami, T
Miyazawa, J
Morisaki, T
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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
Saito, K
Sagara, A
SAsao, H
Sasao, M
Sato, K
Sato, M
Seki, T
Shimozuma, T
Shoji, M
PLASMA PHYSICS AND CONTROLLED FUSION, 2000, 42 (11) : 1165 - 1177

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