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Laser Fusion Reactor SENRI

Published online by Cambridge University Press:  09 March 2009

S. Nakai ,
S. Ido ,
K. Mima ,
R. Tsuji ,
T. Norimatsu ,
C. Yamanaka ,
K. Miya ,
H. Nakashima ,
N. Nakamura  and
H. Oomura
...Show all authors
S. Nakai
Affiliation:
Institute of Laser Engineering, Suita, Osaka 565, Japan
S. Ido
Affiliation:
Institute of Laser Engineering, Suita, Osaka 565, Japan
K. Mima
Affiliation:
Institute of Laser Engineering, Suita, Osaka 565, Japan
R. Tsuji
Affiliation:
Institute of Laser Engineering, Suita, Osaka 565, Japan
T. Norimatsu
Affiliation:
Institute of Laser Engineering, Suita, Osaka 565, Japan
C. Yamanaka
Affiliation:
Institute of Laser Engineering, Suita, Osaka 565, Japan
K. Miya
Affiliation:
Institute of Laser Engineering, Suita, Osaka 565, Japan
H. Nakashima
Affiliation:
Institute of Laser Engineering, Suita, Osaka 565, Japan
N. Nakamura
Affiliation:
Institute of Laser Engineering, Suita, Osaka 565, Japan
H. Oomura
Affiliation:
Institute of Laser Engineering, Suita, Osaka 565, Japan
K. Tsukumo
Affiliation:
Institute of Laser Engineering, Suita, Osaka 565, Japan
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Abstract

Design studies of a laser fusion reactor SENRI-I are presented, including the related analyses and experiments. The unique feature of SENRI-I is the utilization of the static magnetic field to control and guide the liquid Li flow. Neutronics calculations (1D–3D) show that the sufficient T breeding ratio is obtained and the streaming neutrons are reduced by a devised design of laser port. Analysis of damage of the wall covered by an inner Li flow shows that the long lifetime is assured.

Type
Research Article
Information
Laser and Particle Beams , Volume 2 , Issue 4 , December 1984 , pp. 433 - 447
Copyright
Copyright © Cambridge University Press 1984

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References

Blink, J. A. 1978 Laser Program Annual Rep.-1977, UCRL-50021–77, LLNL p. 825.Google Scholar
Ghoniem, N. M. & Kulcinski, G. L. 1979 Nucl. Eng. Design, 52, 111.CrossRefGoogle Scholar
Ido, S. et al. 1981 Proc. 8th IAEA Int. Conf. Plasma Physics and Controlled Nucl. Fusion Res. 1980, Brussels, Vol. II, 143, IAEA, Vienna.Google Scholar
Ido, S. et al. 1982 J. Nucl. Sci. Tech. 19, 55.CrossRefGoogle Scholar
Miya, K. et al. 1984 to be published.Google Scholar
Nakai, S. 1983 Proc. 3rd IAEA Tech. Committee Meeting and Workshop on Fusion Reactor Design and Technology, Tokyo, Japan, Vol II, 175, IAEA, Vienna.Google Scholar
Nakamura, N. et al. 1983 5th Topical Meeting on the Tech. of Fusion Energy, Knoxville, Tenessee.Google Scholar
Nakashima, H. et al. 1982 Research Rep. ILE, ILE-8207p.Google Scholar
Oomura, H. et al. 1982 Res. Rep ILE, ILE-8221p.Google Scholar
Oomura, H. et al. 1982 Trans. ANS, 43, 617.Google Scholar
Oomura, H. et al. 1984 to be published in Nucl. Tech. Fusion.Google Scholar
Sucov, E. W. (Ed) 1981 WFPS-TME-81–001, Westinghouse Electric Co., p. 579.Google Scholar
Yamanaka, C. 1979 Report of System Design of ICF Reactor, Institute of Laser Engineering, Osaka University, (in Japanese).Google Scholar