Update on design of the ITER in-vessel coils

E. F. Daly; K. Ioki; A. Loarte; A. Martin; A. Brooks; P. Heitzenroeder; M. Kalish; C. Neumeyer; P. Titus; Y. Zhai; Y. Wu; H. Jin; F. Long; Y. Song; Z. Wang; R. Pillsbury; J. Feng; T. Bohm; M. Sawan; J. Preble

doi:10.13182/FST13-A18073

Update on design of the ITER in-vessel coils

E. F. Daly
, K. Ioki
, A. Loarte
, A. Martin
, A. Brooks
, P. Heitzenroeder
, M. Kalish
, C. Neumeyer
, P. Titus
, Y. Zhai
, Y. Wu
, H. Jin
, F. Long
, Y. Song
, Z. Wang
, R. Pillsbury
, J. Feng
, T. Bohm
, M. Sawan
, J. Preble

PPPL Engineering

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

37 Scopus citations

Abstract

The ITER project baseline now includes two sets of in-vessel coils, one to mitigate the effects of Edge Localized Modes (ELMs) and another to provide vertical stabilization (VS). The in-vessel location presents special challenges in terms of nuclear radiation and temperature, and requires the use of mineral-insulated conductors. An update to the preliminary design based on this conductor technology is presented for both coil designs. Results from an on-going R&D program consisting of conductor development, welding and brazing process development, electrical testing and mechanical testing in order to demonstrate manufacturability of this style of conductor are presented. Plans for two prototype coils, one of each type, are presented.

Original language	English (US)
Pages (from-to)	168-175
Number of pages	8
Journal	Fusion Science and Technology
Volume	64
Issue number	2
DOIs	https://doi.org/10.13182/FST13-A18073
State	Published - Aug 2013

All Science Journal Classification (ASJC) codes

Civil and Structural Engineering
Nuclear and High Energy Physics
Nuclear Energy and Engineering
General Materials Science
Mechanical Engineering

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10.13182/FST13-A18073

Cite this

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title = "Update on design of the ITER in-vessel coils",

abstract = "The ITER project baseline now includes two sets of in-vessel coils, one to mitigate the effects of Edge Localized Modes (ELMs) and another to provide vertical stabilization (VS). The in-vessel location presents special challenges in terms of nuclear radiation and temperature, and requires the use of mineral-insulated conductors. An update to the preliminary design based on this conductor technology is presented for both coil designs. Results from an on-going R\&D program consisting of conductor development, welding and brazing process development, electrical testing and mechanical testing in order to demonstrate manufacturability of this style of conductor are presented. Plans for two prototype coils, one of each type, are presented.",

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TY - JOUR

T1 - Update on design of the ITER in-vessel coils

AU - Daly, E. F.

AU - Ioki, K.

AU - Loarte, A.

AU - Martin, A.

AU - Brooks, A.

AU - Heitzenroeder, P.

AU - Kalish, M.

AU - Neumeyer, C.

AU - Titus, P.

AU - Zhai, Y.

AU - Wu, Y.

AU - Jin, H.

AU - Long, F.

AU - Song, Y.

AU - Wang, Z.

AU - Pillsbury, R.

AU - Feng, J.

AU - Bohm, T.

AU - Sawan, M.

AU - Preble, J.

PY - 2013/8

Y1 - 2013/8

N2 - The ITER project baseline now includes two sets of in-vessel coils, one to mitigate the effects of Edge Localized Modes (ELMs) and another to provide vertical stabilization (VS). The in-vessel location presents special challenges in terms of nuclear radiation and temperature, and requires the use of mineral-insulated conductors. An update to the preliminary design based on this conductor technology is presented for both coil designs. Results from an on-going R&D program consisting of conductor development, welding and brazing process development, electrical testing and mechanical testing in order to demonstrate manufacturability of this style of conductor are presented. Plans for two prototype coils, one of each type, are presented.

AB - The ITER project baseline now includes two sets of in-vessel coils, one to mitigate the effects of Edge Localized Modes (ELMs) and another to provide vertical stabilization (VS). The in-vessel location presents special challenges in terms of nuclear radiation and temperature, and requires the use of mineral-insulated conductors. An update to the preliminary design based on this conductor technology is presented for both coil designs. Results from an on-going R&D program consisting of conductor development, welding and brazing process development, electrical testing and mechanical testing in order to demonstrate manufacturability of this style of conductor are presented. Plans for two prototype coils, one of each type, are presented.

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DO - 10.13182/FST13-A18073

M3 - Article

AN - SCOPUS:84883348573

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VL - 64

SP - 168

EP - 175

JO - Fusion Science and Technology

JF - Fusion Science and Technology

IS - 2

ER -

Update on design of the ITER in-vessel coils

Abstract

All Science Journal Classification (ASJC) codes

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