Accumulation of ore elements in endogenous fluids: A thermodynamic approach

1. S. R. Krainov, B. N. Ryzhenko, and V. M. Shvets, Geochemistry of Groundwaters. Theoretical, Applied, and Ecological Aspect (Nauka, Moscow, 2004) [in Russian].

   Google Scholar 

2. B. N. Ryzhenko, “Transport Species and Accumulation of Chemical Elements in Hydrothermal Fluids,” Geol. Rudn. Mestorozhd. 50(3), 179–216 (2008) [Geol. Ore Dep. 50, 155–191 (2008)].

   Google Scholar 

3. H. Keppler and P. Wyllie, “Partitioning of Cu, Sn, Mo, W, U and Th between Melt and Aqueous Fluid in the Systems Haplogranite-H₂O-HCl and Haplogranite-H₂O-HF,” Contrib. Mineral. Petrol. 109, 139–150 (1991).

   Article  Google Scholar 

4. B. N. Ryzhenko, Thermodynamics of Equilibria in Hydrothermal Solutions (Nauka, Moscow, 1981) [in Russian].

   Google Scholar 

5. M. R. Carroll and J. D. Webster, “Solubility of Sulfur, Noble Gases, Nitrogen, Chlorine, and Fluorine in Magmas,” Rev. Mineral. 30, 231–280 (1994).

   Google Scholar 

6. G. B. Naumov, B. N. Ryzhenko, and I. L. Khodakovskii, A Handbook of Thermodynamic Data (Atomizdat, Moscow, 1974) [in Russian].

   Google Scholar 

7. Yu. V. Shvarov, “Algorithmization of the Numeric Equilibrium Modeling of Dynamic Geochemical Processes,” Geokhimiya, No. 6, 646–652 (1999) [Geochem. Int. 37, 571–576 (1999)].

8. S. W. Burnham, “Magmas and Hydrothermal Fluids,” in Geochemistry of Hydrothermal Ore Deposits, Ed. by H. L. Barnes (Wiley, New York, 1979; Mir, Moscow, 1982), pp. 71–121.

   Google Scholar 

9. Handbook of Physical Constants, Ed. by S. P. Clarke (Geol. Soc. Am. Mem. 97, 1966; Mir, Moscow, 1969).

10. I. F. Kravchuk and H. Keppler, “Distribution of Chloride between Aqueous Fluids and Felsic Melts at 2 kbar and 800°C,” Eur. J. Mineral. 6, 913–923 (1994).

    Google Scholar 

11. J. D. Webster, “Water Solubility and Chlorine Partitioning in Cl-Rich Granite Systems: Effects of Melt Composition at 2 kbar and 800°C,” Geochim. Cosmochim. Acta 56, 679–687 (1992).

    Article  Google Scholar 

12. J. D. Webster, “Partitioning of F between H2O and CO2 Fluids and Topaz Rhyolite Melt,” Contrib. Mineral. Petrol. 104, 424–438 (1990).

    Article  Google Scholar 

13. B. N. Ryzhenko, “Intra-Ionic Interactions: The Reason for Concentration Dependence of Chlorine Partitioning Coefficients in the System Aqueous Fluid-Alumosilicate Melt,” Dokl. Akad. Nauk, 433(4), 530–534 (2010) [Dokl. Earth Sci. 433, 1048–1052 (2010)].

    Google Scholar 

14. M. V. Borisov and Yu. V. Shvarov, Thermodynamics of Geochemical Processes (Mosk. Gos. Univ., Moscow, 1992) [in Russian].

    Google Scholar 

15. N. N. Akinfiev, N. N. Baranova, A. V. Zotov, and B. R. Tagirov, “Thermodynamic Description of Aqueous Components of the System Cu-Ag-Au-S-Se-O-H within the Temperature Range 0–600°C and Pressures of 1–3000 bar,” Experimental Studies of Endogenous Processes, Ed. by Yu. B. Shapovalov (IPFKh RAN, Moscow, 2008) [in Russian].

    Google Scholar 

Download references