Название |
Сгущение отходов переработки урановых руд с получением пасты для подземного размещения |
Информация об авторе |
АО «ВНИПИпромтехнологии», Москва, Россия:
Кузьмин Е. В., начальник НИЛ, проф., д-р техн. наук, EViKuzmin@rosatom.ru
АО «Атомредметзолото», Москва, Россия:
Святецкий В. С., первый заместитель генерального директора – исполнительный директор
ПАО «ППГХО», Краснокаменск, Россия:
Марковец В. В., начальник лаборатории радиационной безопасности |
Библиографический список |
1. Hou P., Cheng X., Qian J., Zhang R., Cao W., Shah S. P. Characteristics of surface-treatment of nano-SiO2 on the transport properties of hardened cement pastes with different water-to-cement ratios. Cement and Concrete Composites. 2015. Vol. 55. pp. 26–33. 2. Kurumisawa K., Haga K., Hayashi D., Owada H. Effects of calcium leaching on diffusion properties of hardened and altered cement pastes. Physics and Chemistry of the Earth. 2017. Vol. 99. pp. 175–183. 3. Hasan A., Suazo G., Fourie A. B. Full scale experiments on the effectiveness of a drainage system for cemented paste backfill. Paste 2013: Proceedings of the 16th International Seminar on Paste and Thickened Tailings. Perth : Australian Centre for Geomechanics, 2013. pp. 379–392. 4. Svyatetsky V. S. Feasibility of using uranium mill tailings to produce paste backfill at Priargunsky Mining and Chemical Works. Gornyi informatsionno-analiticheskii byulleten. 2015. No. 10. pp. 37–40. 5. Svyatetsky V. S. Finding shearing stress and strength of paste backfill based on uranium mill tailings. Gornyi informatsionno-analiticheskii byulleten. 2015. No. 9. pp. 10–13. 6. Construction Regulations SP LKP-91. Sanitary Rules for Closure, Temporary Closing and Conversion of Radioactive Ore Mining and Processing Plants. Moscow, 1991. 27 p. 7. Collier N. C., Milestone N. B., Gordon L. E., Ko S.-C. The suitability of a supersulfated cement for nuclear waste immobilization. Journal of Nuclear Materials. 2014. Vol. 452, Iss. 1-3. pp. 457–464. 8. Kurilenko V. V., Khaikovich I. M. Estimation procedure of eco-geological pollution in a mineral mining area. Obogashchenie rud. 2015. No. 3. pp. 56–60. DOI: 10.17580/or.2015.03.10 9. Pavlov I. V., Pokrovsky S. S., Kamnev E. N. Methods to Maintain Radiation Safety in Uranium Exploration and Recovery. Moscow : Energoatomizdat, 1994. 256 p. 10. Pavlov I. V. Theoretical calculation of radon emission from fractured hard rock mass in mine air. Subjects of Atomic Science and Technique. Series: Geology and Mining. 1988. Iss. 2. 11. Karamushka V. P., Kamnev E. N., Kuzin R. E. Reclamation of Uranium Ore Mining and Processing Objects. Series: Atomic Energy. Moscow : Gornaya Kniga, 2015. 183 p. 12. Ivanov V. G., Kulryshev V. I., Kolesaev V. B., Litvinenko V. G., Sheludchenko V. G., Tirsky A. V. Optimization of Complex-Structure Uranium Ore Deposit Mining. Moscow : Gornaya Kniga, 2007. 265 p. 13. Sanitary Rules 2.6.1.2612–10. Basic Sanitary Regulations of Radiation Safety (OSPORB–99/2010) (including Revision 1 as of 16.09.2013). Minzdrav Rossii, 2010. 79 p. 14. Svyatetsky V. S., Kuzmin E. V., Starodumov A. V., Velichko D. V. Enclosing rock reinforcement in room and pillar mining in the Streltsovsk uranium ore field. Gornyi Zhurnal. 2015. No. 2. pp. 32–36. DOI: 10.17580/gzh.2015.02.05 15. Mohamed A.-M. O., Maisa El Gamal. Sulfur Concrete for the Construction Industry: A Sustainable Development Approach. J. Ross Publishing, 2010. 448 p. 16. King R. B. Encyclopedia of Inorganic Chemistry. 2nd ed. New York : Wiley, 2005. 6655 p. 17. Hansen C. M. Solubility Parameters: A User’s Handbook. 2nd ed. Boca Raton : CRC Press, 2007. 519 p. |