Design and development of the international thermonuclear experimental reactor (ITER) magnet system.
Author(s) : THOME R. J.
Summary
The ITER is a fusion device with the objective of demonstrating controlled ignition and an extended burn for a duration sufficient to achieve stationary conditions. The superconducting coils for the system, the largest ever built, will require about 1600 tonnes of niobium(3)-tin strand and the cryoplant for the system will need to provide about 110 kilowatts at 4.5 K.
Details
- Original title: Design and development of the international thermonuclear experimental reactor (ITER) magnet system.
- Record ID : 1995-2056
- Languages: English
- Source: Proceedings of the 15th international cryogenic engineering conference. ICEC 15.
- Publication date: 1994/06/07
Links
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Indexing
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Development of ITER toroidal field insert: inte...
- Author(s) : SUGIMOTO M., NAKAJIMA H., KATO T., et al.
- Date : 2002
- Languages : Japanese
- Source: Cryogenics/ Cryog. Eng. - vol. 37 - n. 10
View record
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Development of internal-tin processed Nb3Sn sup...
- Author(s) : EGAWA K., KUBO Y., NAGAI T., et al.
- Date : 2004
- Languages : Japanese
- Source: Journal of the Cryogenic Society of Japan - vol. 39 - n. 9
View record
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FABRICATION AND EXPERIMENT OF THE TEST MODULE C...
- Author(s) : ANDO T.
- Date : 1985
- Languages : Japanese
- Source: Cryogenics/ Cryog. Eng. - vol. 20 - n. 4
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Nb3Sn conductor development for fusion power ap...
- Author(s) : ANDO T.
- Date : 2004
- Languages : Japanese
- Source: Journal of the Cryogenic Society of Japan - vol. 39 - n. 9
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Improvement of hysteresis-losses in internal-ti...
- Author(s) : KUBO Y., EGAWA K., NAGAI T., UCHIKAWA F., TAGUCHI O., MORITA M.
- Date : 1996
- Languages : Japanese
- Source: Cryogenics/ Cryog. Eng. - vol. 31 - n. 6
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