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Fusion Science and Technology Volume 47, 2005 - Issue 4: Proceedings of the Sixteenth Topical Meeting on THE TECHNOLOGY OF FUSION ENERGY (Part 2)
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Technical Paper

Plan and Strategy for ITER Blanket Testing in Japan

Mikio EnoedaJapan Atomic Energy Research Institute, Mukoyama 801-1, Naka-machi, Naka-gun, Ibarak-ken, 311-0193 Japan, [email protected]
,
Akiba MasatoJapan Atomic Energy Research Institute, Mukoyama 801-1, Naka-machi, Naka-gun, Ibarak-ken, 311-0193 Japan, [email protected]
,
Satoru Tanakathe University of Tokyo, Tokyo, Japan
,
Akihiko ShimizuKyushu University, Fukuoka, Japan
,
Akira HasegawaTohoku University, Sendai, Japan
,
Satoshi KonishiInstitute of Advanced Energy, Kyoto University, Uji, Japan
,
Akihiko KimuraInstitute of Advanced Energy, Kyoto University, Uji, Japan
,
Akira KohyamInstitute of Advanced Energy, Kyoto University, Uji, Japan
,
Akio SagarNational Institute of Fusion Science, Toki, Japan
&
Takeo MurogaNational Institute of Fusion Science, Toki, Japan
 show all
Pages 1023-1030 | Published online: 07 Apr 2017

REFERENCES

  • M. ENOEDA et al., “Design and technology development of solid breeder blanket cooled by supercritical water in Japan”, Nuclear Fusion, volume 43, issue 12, pages 1837 - 1844 (2003) and http://stacks.iop.org/0029-5515/43/1837
  • S. Jitsukawa et al., “Development of an extensive database of mechanical and physical properties for reduced-activation martensitic steel F82H”, J. Nucl. Mater., 307-311, (2002) 179-186.
  • B. Riccardi, et al., “Issues and advances in SiCf/SiC composites development for fusion reactors”, J. Nucl. Mater., 329-333 (2004) 56-65.
  • T. Muroga et al. “Vanadium alloys – overview and recent results”, J. Nucl. Mater., 307-311, 547 (2002).
  • M. Enoeda, et al., “Design and Development of Ceramic Breeder Demo Blanket”, IAEA-CN-69, 17th Fusion Energy Conference, Yokohama, Japan, 19-24 October 1998, FTP/29 (1998).
  • H. Miura, et al., “Design of Test Blanket System for ITER Module Testing”, JAERI-Tech 97-051 (1997).
  • Design Description Document “Russian Li/V self-cooled Test Blanket Module” (01. 03. 2001)
  • T. Muroga and T. Tanaka, “Neutronics inestigation into lithium/vanadium test blanket modules”, in these Proceedinds.
  • T. Tanaka, T. Muroga and A. Sagara, “Tritium self-sufficiency and neutron shielding performance of self-cooled liquid blanket” in these Proceedings.
  • T. Nagasaka, T. Muroga and N. Noda, “Tungsten coating on Low activation Vanadium Alloy by Plasma Spray Process, in these Proceedings.
  • B.A. Pint et al., Recent progress in the development of electrically insulating coating for a liquid lithium blanket, J. Nucl. Mater.. 329-333, (2004) 119
  • M. Kinoshita, S. Fukada, N. Yamashita, T. Muroga, M. Nishikawa, “Experimental study of tritium recovery from liquid lithium by yttrium”, to be presented at ISFNT-7 (May, 2005, Tokyo)
  • A. Sagara et al., “INNOVATIVE LIQUID BLANKET DESIGN ACTIVITIES IN JAPAN”, in these Proceedings.
  • S. Chiba et al., “Experimental Research on Heat Transfer Enhancement for High Prandtl-Number Fluid”, in these Proceedings.

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