This is a preview of subscription content, log in via an institution to check access.
References
Boitsov, V. E. and Pilipenko, G. N. “Gold and uranium in the Mesozoic hydrothermal deposits of the central Aldan Region (Russia), Geol. Ore Deposits 40 (4), 315–328 (1998).
E. V. Cherkasova and B. N. Ryzhenko, “Physicochemical computer model of the formation of the granitoid-associated uranium mineralization,” Geochem. Int. 48 (3), 238–259 (2010).
Hydrothermal Mineral-Forming Solutions in Areas of Active Volcanism (Nauka, Novosibirsk, 1974) [in Russian].
V. I. Kazansky, “The unique Central Aldan gold–uranium ore district (Russia),” Geol. Ore Deposits 46 (3), 167–181 (2004).
N. I. Kovalenko, N. I. Prisyagina, Yu. K. Kabalov, and B. N. Ryzhenko, “Experimental Study of the system Au–UO2–TiO2–aqueous fluid at 500°C and 1 kbar. 1. Synthesis of brannerite, Geochem. Int. 54 (1), 293–299 (2016)
Kovalenko, N. I. Ryzhenko B. N. Prisyagina, N. I. and Bychkova, Ya. V. “Experimental study of uraninite solubility in aqueous HCl solutions at 500°C and 1 kbar,” Geochem. Int. 49 (3), 262–273 (2011).
N. I. Kovalenko, B. N. Ryzhenko N. I. Prisyagina, and Ya. V. Bychkova, “Experimental study of uraninite solubility in aqueous HCl solutions at 500°C and 1 kbar,” Geochem. Int. 49 (3), 262–273 (2012).
Main Features of Uranium Geochemistry, Ed. by A. P. Vinogradov (Akad. Nauk SSSR, Moscow, 1963) [in Russian].
A. K. Miguta, “Composition and Mineral Assemblages of Uranium Ores in the El’kon District, Aldan Shield (Russia),” Geol. Ore Deposits 38 (4), 275–293 (1997).
Miguta, A. K. “Uranium deposits of the El’kon ore district in the Aldan Shield,” Geol. Ore Deposits 43 (2), 117–135 (2001).
A. G. Mironov, N. S. Karmanov, A. A. Mironov, and E. V. Khodyreva, “Gold–brannerite nuggets in placers of the Ozernoe ore cluster (Buryatia),” Russ. Geol. Geophys. 49 (10), 743–748 (2008).
Naumov, G. B. Principles of Physicochemical Model of the Uranium Ore Formation (Atomizdat, Moscow, 1978) [in Russian].
S. A. Nazarov, and G. N. Pilipenko, “On problem of the formation of the gold–uraninite mineralization of the El’kon horst (Central Aldan),” Izv. Vyssh. Ucheb. Zaved. Geol. Razvedka, No. 1, 23–26 (2009).
S. A. Nazarov, Extended Abstract of Candidate’s Dissertation in Geology and Mineralogy (Ross. Gos. Geologorazved. Univ., Moscow, 2010) [in Russian].
S. K. Roberts, W. L. Bourcier, and H. F. Shaw, “Aqueous dissolution kinetics of pyrochlore, zirconolite and brannerite at 25, 50, and 75°C,” Radiochim. Acta 88, 539–543 (2000).
B. L. Rybalov, and B. I. Omel’yanenko, Ore Sources of the Endogenous Uranium Deposits (Nauka, Mocow, 1989) [in Russian].
B. N. Ryzhenko and N. I. Kovalenko, “Redeposition of gold in uranium-bearing solutions: a key to formatiom of gold–uranium mineralization,” Dokl. Earth Sci. 429A (9), 1467–1471 (2009).
B. N. Ryzhenko, N. I. Kovalenko, and N. I. Prisyagina, “Titanium complexation in hydrothermal systems,” Geochem. Int. 44 (9), 879–895 (2006).
Yu. G. Safonov and V. Yu. Prokof’ev, “Gold-bearing reefs of the Witwatersrand Basin: a model of synsedimentation hydrothermal formation,” Geol. Ore Deposits 48 (6), 415–447 (2006).
M. Schidlowski and P. Trurnit, “Drucklösungserscheinungen an Geröllpyriten aus den Witwatersrand-Konglomeraten: ein Beitrag zur Frage des Diagenetischen Verhaltens von Sulfide,” Schweizerische Mineralogische und Petrographische Mitteilungen 46, 337–351 (1966).
B. S. Thomas and Y. Zhang, “A kinetic model of the oxidative dissolution of brannerite, UTi2O6,” Radiochim. Acta 91, 463–472 (2003).
M. R. Vaalen, “Titanium mobility in metamorphic systems: a review,” Chem. Geol. 110, 233–249 (1993).
S. V. Yudintsev, Extended Abstract of Candidate’s Dissertation in Geology and Mineralogy (IGEM AN SSSR, Moscow, 1989) [in Russian].
Y. K. Zhang, P. Hart, W. L. Bourcier, R. A. Day, M. Colella, B. Thomas, Z. Aly, and A. Jostsons, “Kinetics of uranium release from Synroc phases,” J. Nucl. Mater. 289, 254–262 (2001).
Y. Zhang, B. S. Thomas, G. R. Lumpkin, M. Blackford, Z. Zhang, M. Colella, and Z. Aly, “Dissolution of synthetic brannerite in acidic and alkaline fluids,” J. Nucl. Mater. 321, 1–7 (2003).
Author information
Authors and Affiliations
Corresponding author
Additional information
Original Russian Text © B.N. Ryzhenko, N.I. Kovalenko, N.I. Prisyagina, 2016, published in Geokhimiya, 2016, No. 11, pp. 1032–1039.
Rights and permissions
About this article
Cite this article
Ryzhenko, B.N., Kovalenko, N.I. & Prisyagina, N.I. System Au–UO2–TiO2–aqueous fluid at 500°C, 1 Kbar: 2. Fluid of El’kon-type gold–uranium mineralization. Geochem. Int. 54, 996–1004 (2016). https://doi.org/10.1134/S0016702916090081
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1134/S0016702916090081