Analysis of the problems and potential of two nuclear technologies based on fusion reactions of light nuclei and fission of heavy nuclei shows the following. Independent large-scale development of each one will make it necessary to overcome still unsolved technological, materials science, environmental, and economic problems, raising the question of the expediency of further development of these energy industries. At the same time, the physical features of the fission and fusion processes objectively indicate the expediency of combining them into a unified nuclear energy system, which will have a large synergistic effect. This will greatly mitigate the adverse aspects of each technology that will appear if the two systems develop independently. Calculations of neutron multiplication in the blanket of a hybrid thermonuclear reactor that confirm the physical feasibility and reliability of picking the direction of development in the form of a unified nuclear energy system are presented.
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References
E. A. Andrianova and V. F. Tsibul’skii, “Fast reactors with moderate breeding and the structure of nuclear energy,” At. Energ., 125, No. 2, 71–74 (2018).
I. V. Kurchatov, “On the possibility of creating magnetic thermonuclear reactors,” in: Collection of Scientific Works, Nauka, Moscow (2012), Vol. 5, pp. 78–81.
E. P. Velikhov, V. A. Glukhikh, V. V. Gur’ev, et al., “Hybrid fusion tokamak reactor for the production of fissile fuel and electricity,” At. Energ., 45, No. 1, 3–8 (1978).
E. P. Velikhov, M. V. Kovalchuk, V. I. Ilgisonis, et al., “Evolutionary development of nuclear energy in the direction of a large-scale nuclear energy system with fi ssion and fusion reactors,” Vopr. At. Nauki Tekhn. Ser. Termoyad. Sintez, 12, No. 3, 9–18 (2017).
V. V. Orlov and L. I. Ponomarev, “Nuclear problems of thermonuclear energy,” At. Energ.,124, No. 2, 105–111 (2018).
N. I. Alekseev, S. N. Bolshagin, E. A. Gomin, et al., “MCU-5 status,” Vopr. At. Nauki Tekhn. Ser. Fiz. Yad. Reakt., No. 4, 4–8 (2011).
MCNP – a General Monte Carlo N-Particle Transport Code, Vers. 5, X-5 Monte Carlo Team, LA-UR-03-1987.
A. V. Moryakov, “LUCKY program. Solution of the transport equation for neutrons and gamma rays using parallel technologies,” Vopr. At. Nauki Tekhn. Ser. Fiz. Yad. Reakt., No. 4, 18–29 (2010).
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Translated from Atomnaya Énergiya, Vol. 128, No. 1, pp. 37–40, January, 2020.
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Blandinskii, V.Y., Davidenko, V.D., Zinchenko, A.S. et al. Energy Outlook for Thermonuclear Fusion. At Energy 128, 41–44 (2020). https://doi.org/10.1007/s10512-020-00648-w
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DOI: https://doi.org/10.1007/s10512-020-00648-w