Abstract
Results of an experimental study of radiation rehabilitation of quartz sands of deposits in the Kursk, Kaluga, and Kemerovo Regions of Russia on the basis of aerodynamic concentration are presented. It is shown that aerodynamic concentration is a promising and competitive method for obtaining pure and superpure quartz sands.
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References
A. K. Brovtsyn, A. V. Druzyagin, A. N. Silant'ev, and G. S. Chershneva, “Problems of radiation control in mining and concentration enterprises,”Gorn. Zh., No. 3, 49–50 (1997).
A. K. Brovtsyn, A. N. Silant'ev, and K. A. Silant'ev, “Radioecology of minerals and materials,”Ogneupory Tekh. Keram., No. 6, 25–27 (1997).
A. K. Brovtsyn, “Radiation ecology of minerals and materials,”Zhilishch. Stroit., No. 7, 9 (1997).
Yu. P. Lezhnev, “Current directions in the development of concentration technology for glass sands,”Steklo Keram., No. 11, 9–11 (1979).
I. B. Shlain,Mineral Raw Materials for Glass Making [in Russian], Promstroiizdat, Moscow (1955)
A. M. Tsekhomskii and D. I. Karstens,Quartz Sands. Sandstones, and Quartzites of the USSR [in Russian], Nedra, Leningrad (1982).
N. B. Ur'ev,Physicochemical Foundations of the Technology of Disperse Systems and Materials [in Russian], Khimiya, Moscow (1988).
Radiation Safety Standards (NRB-96). Hygienic Norms GN 2.6.1.054-96 [in Russian], Goskomsanépidemnadzor Rossii, Moscow (1996).
GOST 30108-94. Building Materials and Parts. Determination of Specific and Effective Activities of Natural Radionuclides [in Russian].
A. K. Brovtsyn, V. I. Sergeechev, and G. S. Chershneva, “Aerodynamic concentration of friable materials,”Stroit. Mater., No. 4, 15–16 (1994).
A. K. Brovtsyn and G. S. Chershneva, “Aerodynamic concentration of quartz sands,”Steklo Keram., No. 6, 28–29 (1996).
A. K. Brovtsyn and G. S. Chershneva, “Aerodynamic concentration of friable materials,”Gorn. Zh., Nos. 11–12, 84–86 (1996).
A. K. Brovtsyn and M. N. Brovtsyna, “Inv. Certif. No. 808148 USSR, Installation for concentrating materials due to A. K. Brovtsyn and M. N. Brovtsyna,”Otkr. Izobr., No. 8 (1981).
A. K. Brovtsyn, “Inv. Certif. No. 810304 USSR, Installation for concentrating materials,”Otkr. Izobr., No. 9 (1981).
A. K. Brovtsyn, Yu. I. Matveev, T. A. Brovtsyna, and V. M. Bezruchko, “Inv. Certif. 1238812 USSR, Installation for concentrating materials,”Otkr. Izobr., No. 23 (1986).
A. K. Brovtsyn, Yu. I. Matveev, T. A. Brovtsyna, and L. I. Chudakova, “Inv. Certif. No. 1569041 USSR, Installation for dry concentration of materials,”Otkr. Izobr., No. 21 (1990).
A. K. Brovtsyn and V. P. Zvonarev, “Inv. Certif. No. 1639778 USSR, Installation for concentrating friable materials,”Otkr. Izobr., No. 13 (1991).
A. K. Brovtsyn and V. P. Zvonarev, “Inv. Certif. No. 1713680 USSR, Installation for aerodynamic concentration of friable materials,”Otkr. Izobr., No. 7 (1992).
A. K. Brovtsyn and G. L. Salata, “Inv. Certif. No. 1773502 USSR, Aerodynamic installation for concentrating friable materials,”Otkr. Izobr., No. 41 (1992).
A. K. Brovtsyn, Yu. I. Matveev, and A. M. Kokovin, “Inv. Certif. No. 1789307 USSR, Installation for dynamic air-dry concentration of disperse materials,”Otkr. Izobr., No. 3 (1993).
A. K. Brovtsyn, K. M. Vertelov, G. I. Damanin, S. S. Kostromin, V. S. Udal'tsov, and Yu. I. Matveev, “Inv. Certif. No. 1710147 USSR, Method for air-dry concentration of materials,”Otkr. Izobr., No. 5 (1992).
A. K. Brovtsyn, K. M. Vertelov, S. S. Kostromin, et al., “Inv. Certif. No. 1752451 USSR, Manufacturing complex for air-dry concentration of friable materials,”Otkr. Izobr., No. 29 (1992).
A. K. Brovtsyn, “Inv. Certif. No. 1829211 USSR, Installation for aerodynamic drying and cleaning,”Otkr. Izobr., No. 16 (1993).
A. K. Brovtsyn, “Inv. Certif. No. 1550771 USSR, Aerodynamic separator for friable materials,”Otkr. Izobr., No. 25 (1991).
A. K. Brovtsyn, “Inv. Certif. No. 1706730 USSR, Aerodynamic separator,”Otkr. Izobr., No. 3 (1992).
A. K. Brovtsyn, “Inv. Certif. No. 1706727 USSR, Installation for aerodynamic concentration of friable materials,”Otkr. Izobr., No. 3 (1992).
A. K. Brovtsyn, “Inv. Certif. No. 1706728 USSR, Installation for aerodynamic concentration of friable material,”Otkr. Izobr., No. 3 (1992).
A. K. Brovtsyn, “Inv. Certif. No. 1706729 USSR, Installation for aerodynamic concentration of friable materials,”Otkr. Izobz., No. 3 (1992).
A. K. Brovtsyn, “Inv. Certif. No. 1720754 USSR, Aerodynamic installation for concentrating friable materials,”Otkr. Izobr., No. 11 (1992).
A. K. Brovtsyn, “Inv. Certif. No. 1736390 USSR, Installation for dynamic air-dry concentration of friable materials,”Otkr. Izobr., No. 21 (1992).
A. K. Brovtsyn, “Inv. Certif. No. 1743648 USSR, Installation for aerodynamic concentration of friable materials,”Otkr. Izobr., No. 24 (1992).
A. K. Brovtsyn, “Inv. Certif. No. 17471196 USSR, Gravitational aerodynamic separator due to A. K. Brovtsyn,”Otkr. Izobr., No. 26 (1992).
A. K. Brovtsyn, “Inv. Certif. No. 1747197 USSR, Installation for aerodynamic concentration of friable materials,”Otkr. Izobr., No. 26 (1992).
A. K. Brovtsyn, “Inv. Certif. No. 1759484 USSR, Installation for aerodynamic concentration of friable materials,”Otkr. Izobr., No. 33 (1992).
A. K. Brovtsyn, “Inv. Certif. No. 1789306 USSR, Installation for aerodynamic concentration of friable materials,”Otkr. Izobr., No. 3 (1993).
A. K. Brovtsyn, “Inv. Certif. No. 1811892 USSR, Method for concentrating friable materials due to A. K. Brovtsyn,”Otkr. Izobr., No. 16 (1993).
A. K. Brovtsyn, “Inv. Certif. No. 1811915 USSR, Aerodynamic installation for concentrating friable materials due to A. K. Brovtsyn,”Otkr. Izobr., No. 16 (1993).
A. K. Brovtsyn, “Inv. Certif. No. 1815851 USSR, Installation for drying and cleaning friable materials,”Otkr. Izobr., No. 16 (1993).
A. K. Brovtsyn and T. A. Brovtsyna, “Inv. Certif. No. 1836988 USSR, Aerodynamic installation for concentrating friable materials,”Otkr. Izobr., No. 32 (1993).
A. K. Brovtsyn, “Inv. Certif. No. 1839113 USSR, Installation for concentrating friable materials,”Otkr. Izobr., Nos. 47-48 (1993).
A. K. Brovtsyn, “Patent No. 2001705 RF, Aerodynamic installation for drying and cleaning friable materials due to A. K. Brovtsyn,”Izobr., Nos. 39-40 (1993).
A. K. Brovtsyn, “Patent No. 2008982 RF, Aerodynamic installation for concentrating friable materials,”Izobr., No. 5 (1994).
A. K. Brovtsyn, “Patent No. 2008983 RF, Aerodynamic installation for concentrating friable materials due to A. K. Brovtsyn,”Izobr., No. 5 (1994).
A. K. Brovtsyn, “Patent No. 2010624 RF, Aerodynamic installation for drying and cleaning friable materials,”Izobr., No. 7 (1994).
A. K. Brovtsyn, “Patent No. 2010625 RF, Aerodynamic installation for concentrating friable materials due to A. K. Brovtsyn,”Izobr., No. 7 (1994).
A. K. Brovtsyn, “Patent No. 2010626 RF, Aerodynamic complex for concentrating friable materials due to A. K. Brovtsyn,”Izobr., No. 7 (1994).
A. K. Brovtsyn, “Patent No. 2012426 RF, Aerodynamic installation for concentrating disperse materials,”Izobr., No. 9 (1994).
A. K. Brovtsyn, “Patent No. 2030929 RF, Aerodynamic installation for concentrating friable materials,”Izobr., No. 8 (1995).
A. K. Brovtsyn, G. V. Kozlov, and A. V. Gmyrya, “Patent No. 2038872 RF, Aerodynamic installation for concentrating friable materials,”Izobr., No. 19 (1995).
A. K. Brovtsyn, “Patent No. 2042440 RF, Aerodynamic complex for concentrating friable materials,”Izobr., No. 24 (1995).
A. K. Brovtsyn and V. I. Sergeechev, “Patent No. 2042441 RF, Aerodynamic installation for concentrating friable materials,”Izobr., No. 24 (1995).
A. K. Brovtsyn, “Patent No. 2047401 RF, Aerodynamic complex for concentrating friable materials,”Izobr., No. 31 (1995).
A. K. Brovtsyn, “Patent No. 2047402 RF, Aerodynamic separator,”Izobr., No. 31 (1995).
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Translated from Ogneupory i Tekhnicheskaya Keramika, No. 4, pp. 27–29, April, 1998.
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Brovtsyn, A.K., Silant’ev, A.N. & Chershneva, G.S. Radiation rehabilitation of quartz sands. Refract Ind Ceram 39, 139–141 (1998). https://doi.org/10.1007/BF02768041
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DOI: https://doi.org/10.1007/BF02768041