Steady-state operation scenario and the first experimental result on QUEST

Kazuaki Hanada; Kohnosuke Sato; Hideki Zushi; Kazuo Nakamura; Mizuki Sakamoto; Hiroshi Idei; Makoto Hasegawa; Yuichi Takase; Osamu Mitarai; Takashi Maekawa; Yasuaki Kishimoto; Masaki Ishiguro; Tomokazu Yoshinaga; Hiroe Igami; Nobuhiro Nishino; Hiroshi Honma; Shoji Kawasaki; Hisatoshi Nakashima; Aki Higashijima; Yuta Higashizono; Akira Ando; Nobuyuki Asakura; Akira Ejiri; Yoshihiko Hirooka; Akio Ishida; Akio Komori; Makoto Matsukawa; Osamu Motojima; Yuichi Ogawa; Noriyasu Ohno; Yasushi Ono; Martin Peng; Shigeru Sudo; Hiroshi Yamada; Naoaki Yoshida; Zensho Yoshida

doi:10.1585/pfr.5.S1007

Steady-state operation scenario and the first experimental result on QUEST

Kazuaki Hanada, Kohnosuke Sato, Hideki Zushi, Kazuo Nakamura, Mizuki Sakamoto, Hiroshi Idei, Makoto Hasegawa, Yuichi Takase, Osamu Mitarai, Takashi Maekawa, Yasuaki Kishimoto, Masaki Ishiguro, Tomokazu Yoshinaga, Hiroe Igami, Nobuhiro Nishino, Hiroshi Honma, Shoji Kawasaki, Hisatoshi Nakashima, Aki Higashijima, Yuta HigashizonoAkira Ando, Nobuyuki Asakura, Akira Ejiri, Yoshihiko Hirooka, Akio Ishida, Akio Komori, Makoto Matsukawa, Osamu Motojima, Yuichi Ogawa, Noriyasu Ohno, Yasushi Ono, Martin Peng, Shigeru Sudo, Hiroshi Yamada, Naoaki Yoshida, Zensho Yoshida

ENG - Electrical Engineering

Research output: Contribution to journal › Article › peer-review

70 Citations (Scopus)

Abstract

QUEST focuses on the steady state operation of the spherical tokamak by controlled PWI and electron Bernstein wave current drive. One of the main purposes of QUEST is an achievement of long duration discharge with MW-class injected power. As the result, QUEST should be operated in the challenging region on heat and particle handling. To do the particle handling, high temperature all metal wall up to 623K and closed divertors are planned, which is to realize the steady-state operation under recycling ratio, R = 1. This is a dispensable check to DEMO, because wall pumping should be avoided as possible in the view of tritium retention. The QUEST project will be developed in increment step such as, I. low β steady state operation in limiter configuration, II. low β steady state operation in divertor configuration, III. relatively high β steady state operation in closed divertor configuration. Phase I in the project corresponds to these two years, and final goal of phase I is to make full current drive plasma up to 20 kA. Closed divertor will be designed and tested in the Phase II. QUEST is running from Oct., 2008 and the first results are introduced.

Original language	English
Article number	S1007
Journal	Plasma and Fusion Research
Volume	5
DOIs	https://doi.org/10.1585/pfr.5.S1007
Publication status	Published - 2010

Keywords

Electron Bernstein wave
Plasma wall interaction
Spherical tokamak
Steady state operation

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10.1585/pfr.5.S1007

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Hanada, K., Sato, K., Zushi, H., Nakamura, K., Sakamoto, M., Idei, H., Hasegawa, M., Takase, Y., Mitarai, O., Maekawa, T., Kishimoto, Y., Ishiguro, M., Yoshinaga, T., Igami, H., Nishino, N., Honma, H., Kawasaki, S., Nakashima, H., Higashijima, A., ... Yoshida, Z. (2010). Steady-state operation scenario and the first experimental result on QUEST. Plasma and Fusion Research, 5, Article S1007. https://doi.org/10.1585/pfr.5.S1007

@article{d7fec7b5ad604dd388805424dca15f41,

title = "Steady-state operation scenario and the first experimental result on QUEST",

abstract = "QUEST focuses on the steady state operation of the spherical tokamak by controlled PWI and electron Bernstein wave current drive. One of the main purposes of QUEST is an achievement of long duration discharge with MW-class injected power. As the result, QUEST should be operated in the challenging region on heat and particle handling. To do the particle handling, high temperature all metal wall up to 623K and closed divertors are planned, which is to realize the steady-state operation under recycling ratio, R = 1. This is a dispensable check to DEMO, because wall pumping should be avoided as possible in the view of tritium retention. The QUEST project will be developed in increment step such as, I. low β steady state operation in limiter configuration, II. low β steady state operation in divertor configuration, III. relatively high β steady state operation in closed divertor configuration. Phase I in the project corresponds to these two years, and final goal of phase I is to make full current drive plasma up to 20 kA. Closed divertor will be designed and tested in the Phase II. QUEST is running from Oct., 2008 and the first results are introduced.",

keywords = "Electron Bernstein wave, Plasma wall interaction, Spherical tokamak, Steady state operation",

author = "Kazuaki Hanada and Kohnosuke Sato and Hideki Zushi and Kazuo Nakamura and Mizuki Sakamoto and Hiroshi Idei and Makoto Hasegawa and Yuichi Takase and Osamu Mitarai and Takashi Maekawa and Yasuaki Kishimoto and Masaki Ishiguro and Tomokazu Yoshinaga and Hiroe Igami and Nobuhiro Nishino and Hiroshi Honma and Shoji Kawasaki and Hisatoshi Nakashima and Aki Higashijima and Yuta Higashizono and Akira Ando and Nobuyuki Asakura and Akira Ejiri and Yoshihiko Hirooka and Akio Ishida and Akio Komori and Makoto Matsukawa and Osamu Motojima and Yuichi Ogawa and Noriyasu Ohno and Yasushi Ono and Martin Peng and Shigeru Sudo and Hiroshi Yamada and Naoaki Yoshida and Zensho Yoshida",

note = "Publisher Copyright: {\textcopyright} 2010 The Japan Society of Plasma Science and Nuclear Fusion Research.",

year = "2010",

doi = "10.1585/pfr.5.S1007",

language = "English",

volume = "5",

journal = "Plasma and Fusion Research",

issn = "1880-6821",

publisher = "The Japan Society of Plasma Science and Nuclear Fusion Research (JSPF)",

}

Hanada, K, Sato, K, Zushi, H, Nakamura, K, Sakamoto, M, Idei, H, Hasegawa, M, Takase, Y, Mitarai, O, Maekawa, T, Kishimoto, Y, Ishiguro, M, Yoshinaga, T, Igami, H, Nishino, N, Honma, H, Kawasaki, S, Nakashima, H, Higashijima, A, Higashizono, Y, Ando, A, Asakura, N, Ejiri, A, Hirooka, Y, Ishida, A, Komori, A, Matsukawa, M, Motojima, O, Ogawa, Y, Ohno, N, Ono, Y, Peng, M, Sudo, S, Yamada, H, Yoshida, N & Yoshida, Z 2010, 'Steady-state operation scenario and the first experimental result on QUEST', Plasma and Fusion Research, vol. 5, S1007. https://doi.org/10.1585/pfr.5.S1007

TY - JOUR

T1 - Steady-state operation scenario and the first experimental result on QUEST

AU - Hanada, Kazuaki

AU - Sato, Kohnosuke

AU - Zushi, Hideki

AU - Nakamura, Kazuo

AU - Sakamoto, Mizuki

AU - Idei, Hiroshi

AU - Hasegawa, Makoto

AU - Takase, Yuichi

AU - Mitarai, Osamu

AU - Maekawa, Takashi

AU - Kishimoto, Yasuaki

AU - Ishiguro, Masaki

AU - Yoshinaga, Tomokazu

AU - Igami, Hiroe

AU - Nishino, Nobuhiro

AU - Honma, Hiroshi

AU - Kawasaki, Shoji

AU - Nakashima, Hisatoshi

AU - Higashijima, Aki

AU - Higashizono, Yuta

AU - Ando, Akira

AU - Asakura, Nobuyuki

AU - Ejiri, Akira

AU - Hirooka, Yoshihiko

AU - Ishida, Akio

AU - Komori, Akio

AU - Matsukawa, Makoto

AU - Motojima, Osamu

AU - Ogawa, Yuichi

AU - Ohno, Noriyasu

AU - Ono, Yasushi

AU - Peng, Martin

AU - Sudo, Shigeru

AU - Yamada, Hiroshi

AU - Yoshida, Naoaki

AU - Yoshida, Zensho

PY - 2010

Y1 - 2010

N2 - QUEST focuses on the steady state operation of the spherical tokamak by controlled PWI and electron Bernstein wave current drive. One of the main purposes of QUEST is an achievement of long duration discharge with MW-class injected power. As the result, QUEST should be operated in the challenging region on heat and particle handling. To do the particle handling, high temperature all metal wall up to 623K and closed divertors are planned, which is to realize the steady-state operation under recycling ratio, R = 1. This is a dispensable check to DEMO, because wall pumping should be avoided as possible in the view of tritium retention. The QUEST project will be developed in increment step such as, I. low β steady state operation in limiter configuration, II. low β steady state operation in divertor configuration, III. relatively high β steady state operation in closed divertor configuration. Phase I in the project corresponds to these two years, and final goal of phase I is to make full current drive plasma up to 20 kA. Closed divertor will be designed and tested in the Phase II. QUEST is running from Oct., 2008 and the first results are introduced.

AB - QUEST focuses on the steady state operation of the spherical tokamak by controlled PWI and electron Bernstein wave current drive. One of the main purposes of QUEST is an achievement of long duration discharge with MW-class injected power. As the result, QUEST should be operated in the challenging region on heat and particle handling. To do the particle handling, high temperature all metal wall up to 623K and closed divertors are planned, which is to realize the steady-state operation under recycling ratio, R = 1. This is a dispensable check to DEMO, because wall pumping should be avoided as possible in the view of tritium retention. The QUEST project will be developed in increment step such as, I. low β steady state operation in limiter configuration, II. low β steady state operation in divertor configuration, III. relatively high β steady state operation in closed divertor configuration. Phase I in the project corresponds to these two years, and final goal of phase I is to make full current drive plasma up to 20 kA. Closed divertor will be designed and tested in the Phase II. QUEST is running from Oct., 2008 and the first results are introduced.

KW - Electron Bernstein wave

KW - Plasma wall interaction

KW - Spherical tokamak

KW - Steady state operation

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U2 - 10.1585/pfr.5.S1007

DO - 10.1585/pfr.5.S1007

M3 - Article

AN - SCOPUS:80054834145

SN - 1880-6821

VL - 5

JO - Plasma and Fusion Research

JF - Plasma and Fusion Research

M1 - S1007

ER -

Steady-state operation scenario and the first experimental result on QUEST

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Keywords

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