DESIGN OF THE ITER IN-VESSEL COILS�
Authors: C. Neumeyer, A. Brooks, L. Bryant, J. Chrzanowski, R. Feder, M. Gomez, P. Heitzenroeder, M. Kalish, A. Lipski, M. Mardenfeld, R. Simmons, P. Titus, I. Zatz, E. Daly, A. Martin, M. Nakahira, R. Pillsbury, J. Feng, T. Bohm, M.Sawan, H. Stone, I. Griffiths, M. Schaffer ��
Abstract:
The ITER project is considering the inclusion of two sets of in-vessel coils, one to mitigate the effect of Edge Localized Modes (ELMs) and another to provide vertical stabilization (VS). The in-vessel location (behind the blanket shield modules, mounted to the vacuum vessel inner wall) presents special challenges in terms of nuclear radiation (~3000 MGy) and temperature (100oC vessel during operations, 200oC during bakeout). Mineral insulated conductors are well suited to this environment but are not commercially available in the large cross section required. An R&D program is underway to demonstrate the production of mineral insulated (MgO or Spinel) hollow copper conductor with stainless steel jacketing needed for these coils. A preliminary design based on this conductor technology has been developed and is presented herein.
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Submitted to: 19th Topical Meeting on the Technology of Fusion - ANS Nov. 7-11, 2010, Las Vegas.� �
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Download PPPL-4576 (pdf 202 KB 5 pp)
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