For the preparation of tritium fuel as the main and rare
fuel of reactors in the fusion reactors, the reactor blanket must be designed
so that it provides enough tritium breeding ratio. The tritium breeding ratio,
TBR, in the blanket of reactors should be greater than one, (TBR>1), by
applying lithium blanket. The calculations for proposed parameters (td ,fb ,η and tp), indicate that the estimated tritium breeding ratio is
greater than one. The calculated TBR = 1.04 satisfies the tritium provision
Cite this paper
M. Mahdavi and E. Asadi, "Estimates of Tritium Produced Ratio in the Blanket of Fusion Reactors," Open Journal of Microphysics, Vol. 3 No. 1, 2013, pp. 8-11. doi: 10.4236/ojm.2013.31002.
 J. Yu and G. Yu,” Fission-Fusion Neutron Source,” Joural of Nuclear Material, Vol. 386-388, 2009, pp. 949-953.
 T. Nakagawa, H. Kawasaki and K. Shibata, “Curves and Tables of Neutron Cross Section in JENDL-3.3(Part I and II),” Japan Atomic Energy Research Institute, Fukushima, 2002.
 C. Q. Sh and Y. X. Ln, “Tritium and Materials for Protection of Tritium Permeation,” Atomic Energy Publishing House, Beijing, 2002.
 A. Harms, K. F. Schoepf, G. H. Miley and D. R. Kingdon, “Principles of Fusion Energy,” World Scientific Publishing Co. Pte. ltd., Singapore City, 2002.
 S. Atzeni and J. Meyerter-Vehn, “Ineartial Fusion,” Oxford University Press, Oxford, 2004.
 S. Glasstone and R. Loveberg, “Controlled Thermonuclear Reactions,” van Norstrand, Princeton, 1960.
 M. Nishikawa, “Tritium Balance in a D-T Fusion Reactor,” Fusion Science and Technology, Vol. 59, No. 2, 2011, pp. 350-362.