Askhadullin R.Sh., Martynov P.N., Storozhenko A.N., Yagodkin I.V., Ulyanov V.V., Gulevsky V.A.
A.I. Leypunsky Institute of Physics and Power Engineering, Obninsk, Russia
Possibilities of heavy liquid metal coolants using in different brunches of chemical technology has been considered. Possibility of obtaining of hydrogen, pure water, syngas and nanomaterials was revealed during experiments with direct mixing of recycling substances with heavy liquid metal coolants. Basic features of such recycling method in comparing with traditional technologies are presented.
1. Martynov P.N., Gulevsky V.A., Ulyanov V.V., Orlov Yu.I., Efanov A.D., Levchenko Yu.D. Gidrodinamicheskie problemy tekhnologii TZhMT v RU petlevoy i monoblochnoy konstruktsii [Hydrodynamic problems of HLMC technology in reactor facilities of loop and single unit designs]. Voprosy atomnoy nauki i tekhniki. Seriya: "Fizika yadernykh reaktorov" – Problems of Nuclear Science and Engineering, Series: "Nuclear Reactor Physics", Moscow, 2008, no.4, pp.15-33.
2. Gromov B.F., Orlov Yu.I., Martynov P.N., Gulevsky V.A. Problemy tekhnologii tyazhelykh zhidkometallicheskikh teplonositeley (svinets-vismut, svinets) [Problems of the technology of heavy liquid metal coolants (lead-bismuth, lead)]. Trudy mezhdunarodnoy konferentsii "Tyazhelye zhidkometallicheskie teplonositeli v yadernykh tekhnologiyakh" [Proc. Int. Conf. "Heavy Liquid-Metal Coolants in Nuclear Technologies"].Obninsk, 1999, p.92-106.
3. Yefanov A.D., Martynov P.N., Gulevsky V.A., Ulyanov V.V. Proizvodstvo vodoroda s ispol'zovaniem yadernoy energeticheskoy ustanovki s zhidkometallicheskim okhlazhdeniem [Hydrogen production at liquid-metal cooled nuclear power reactor]. Nauka i tekhnologii v promyshlennosti – Science and Technology in the Industry, 2006, no.4, pp. 11-14.
4. Gulevich A.V., Martynov P.N., Gulevsky V.A., Ulyanov V.V. Technologies for hydrogen production based on direct contact of gaseous hydrocarbons and evaporated water with molten Pb and Pb-Bi. Energy Conversion and Management, 2008, vol. 49, no.5, p.1946-1950.
5. Martynov P.N., Gulevich A.V., Orlov Yu.I., Gulevsky V.A. Water and Hydrogen in Heavy Liquid-Metal Coolant Technology. Progress in Nuclear Energy, 2005, vol. 47, no.1-4, pp.604-615.
6. Martynov P.N., Askhadullin R.Sh., Osipov A.A. et al. Sintez nanostrukturnykh materialov iz metallicheskikh rasplavov i perspektivy ikh ispol'zovaniya v YaEU [Synthesis of nanostructured materials from molten metals and prospects for their application in nuclear power reactors]. Novye promyshlennye tekhnologii – New Industrial Technologies, 2011, no.1, pp.39-42.
7. Feigin E.A., Raud E.A. Primenenie rasplavlennykh sred v protsessakh neftepererabotki i neftekhimii [The application of the molten media in oil refining and petrochemical processes]. Moscow, Central Scientific and Research Institute of Information and Technical and Economic Studies of Oil Refining and Petrochemical Industry Publ., 1983.
8. Beznosov A.V. Dragunov Yu.G., Rachkov V.I. Tyazhelye zhidkometallicheskie teplonositeli [Heavy liquid metal coolants]. Moscow, IzdAt Publ., 2007, p.434.
9. Rachkov V.I., Tyurin A.V., Usanov V.I., Voshchinin A.P. Effektivnost' yadernoy energotekhnologii [The efficiency of nuclear power technology]. Moscow, TSNIIAI Publ., 2008. 228 p.
10. Takahashi M., Uchida Sh., Hata K. et al. Pb-Bi – cooled Direct Contact Boiling Water Small Reactor. Progress in Nuclear Energy, 2005, vol. 47, no.1-4, pp.190-201.
