2020
DOI: 10.1088/1361-6668/ab7ec2
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The use of Nb3Sn in fusion: lessons learned from the ITER production including options for management of performance degradation

Abstract: The overall 30 year Nb 3 Sn conductor program for ITER provides an unusual opportunity to look at the issues created by the application of novel Nb 3 Sn technology on a large scale. ITER design criteria have evolved to make use of the features of the industrialized material, exploiting advantages as well as managing the disadvantages. There are lessons from the successes and failures to be learned for the future application of very high current Nb 3 Sn strands in fusion and high energy physics. The behaviour o… Show more

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Cited by 43 publications
(24 citation statements)
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“…Similar methods to those already used in the early days of ITER [16] could stimulate DEMO engineering in the magnet area and link these two activities. There are interesting new proposals regarding compact high-field tokamaks as pilot fusion plants, which would not rely on ITER superconducting technology, but the lessons learned from ITER show how improvements can be made in the engineering layout of a tokamak fusion reactor.…”
Section: Discussionmentioning
confidence: 99%
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“…Similar methods to those already used in the early days of ITER [16] could stimulate DEMO engineering in the magnet area and link these two activities. There are interesting new proposals regarding compact high-field tokamaks as pilot fusion plants, which would not rely on ITER superconducting technology, but the lessons learned from ITER show how improvements can be made in the engineering layout of a tokamak fusion reactor.…”
Section: Discussionmentioning
confidence: 99%
“…However, R&D progress or breakthroughs in several fields, e.g. target loads and physics or materials, would have a big impact and open up the available design space 16 .…”
Section: The Demo Magnet System: Unifying Mature Technology and Innov...mentioning
confidence: 99%
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“…Ultra-high magnetic fields can decrease particle drifting and disruption, and significantly increase the possibility of fusion reactions. The international thermonuclear experimental reactor (ITER) has a fusion energy gain factor of 10 and aims to achieve a peak magnetic flux density of 11.8 Tesla by using low temperature superconducting (LTS) Nb 3 Sn conductors [2]. However, things may change with the emergence of the second-generation high temperature superconducting (HTS) rare-earth barium copper oxide (REBCO) coated conductor, a technique that was not introduced when the ITER project was launched but which has reached a certain degree of maturity so that there are now tens of manufacturers worldwide [3].…”
Section: Introductionmentioning
confidence: 99%