Abstract
The solubility of calcite in NaCl-H2O and in HCl-H2O fluids was measured using an extraction-quench hydrothermal apparatus. Experiments were conducted at 2 kbar, between 400° C and 600° C. Measurements in NaCl-H2O were conducted in two ways: 1) at constant pressure and NaCl concentration, as a function of temperature; and 2) at constant pressure and temperature, as a function of NaCl concentration. In both the NaCl-H2O and the HCl-H2O systems, the solubility of calcite increases with increasing chlorine concentrations. For example, the log calcium molality in equilibrium with calcite increases from −3.75 at 2 kbar and 500° C, in pure H2O to −3.10 at 2 kbar and 500° C at log NaCl molality=−1.67. At fixed pressure and NaCl molality, the solubility of calcite is almost constant from 400° C to 550° C, but increases somewhat at higher temperatures. The results can be used to determine the dominant calcium species in the experimental solutions as a function of NaCl concentration and to obtain values for the second dissociation constant of CaCl2(aq). At 2 kbar, 400° C, 500° C, and 600° C, we calculate values for the log of the dissociation constant of CaCl+ of −2.1, −3.2, and −4.3, respectively. The 400° C and 500° C values are consistent with those obtained by Frantz and Marshall (1982) using electrical conductance techniques. However, our 600° C value is 0.8 log units higher than that reported by Frantz and Marshall. The calcite solubilities in the NaCl-H2O and HCl-H2O systems are inconsistent with the solubilities of calcite in pure H2O reported by Walther and Long (1986). They are, however, consistent with the measurements of calcite solubilities in pure H2O presented in this study. These results allow for the calculation of the solubilities of calcium silicates and carbonates in fluids that contain CO2 and NaCl.
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References
Fein JB, Walther JV (1987) Calcite solubility in supercritical CO2-H2O fluids. Geochim Cosmochim Acta 51:1665–1673
Fein JB, Walther JV (1989) Portlandite solubilities in supercritical Ar-H2O mixtures: implications for quantifying solvent effects. Am J Sci (in press)
Frantz JD, Marshall WL (1982) Electrical conductances and ionization constants of calcium chloride and magnesium chloride in aqueous solutions at temperatures at 600° C and pressures to 4000 bars. Am J Sci 282:1666–1693
Frantz JD, Marshall WL (1984) Electrical conductances and ionization constants of salts, acids, and bases in supercritical aqueous fluids: I. Hydrochloric acid from 100° C to 700° C and at pressures to 4000 bars. Am J Sci 284:651–667
Helgeson HC, Delany JM, Nesbitt HW, Bird DK (1978) Summary and critique of the thermodynamic properties of minerals. Am J Sci 278A:1–229
Helgeson HC, Kirkham DH (1974) Theoretical prediction of the thermodynamic behavior of aqueous electrolytes at high pressures and temperatures: II. Debye-Hückel parameters for activity coefficients and relative partial molal properties. Am J Sci 274:1199–1261
Helgeson HC, Kirkham DH (1976) Theoretical prediction of the thermodynamic properties of aqueous electrolytes at high pressures and temperatures. III. Equation of state for aqueous species at infinite dilution. Am J Sci 276:97–240
Helgeson HC, Kirkham DH, Flowers GC (1981) Theoretical prediction of the thermodynamic behavior of aqueous electrolytes at high pressures and temperatures. IV. Calculation of activity and osmotic coefficients and apparent molal and standard and relative partial molal properties to 600° C and 5 Kb. Am J Sci 281:1249–1516
Luce RW, Cygan GL, Hemley JJ, D'Angelo WM (1985) Some mineral stability relations in the system CaO-MgO-SiO2-H2O-HCl. Geochim Cosmochim Acta 49:525–538
Malinin SD, Kanukov AB (1971) The solubility of calcite in homogeneous H2O-NaCl-CO2 systems in the 200–600° C temperature interval. Geochem Internat 8:668–679
Quist AS (1970) The ionization constant of water to 800° C and 4000 bars. J Phys Chem 74:3396–3502
Quist AS, Marshall WL (1968) Electrical conductances of aqueous sodium chloride solutions from 0 to 800° and at pressures to 4000 bars. J Phys Chem 72:684–703
Read AJ (1975) The first ionization constant of carbonic acid from 25 to 250° C and to 2000 bar. J Sol Chem 4:53–70
Sharp WE, Kennedy GC (1965) The system CaO-CO2-H2O in the two-phase region calcite and aqueous solution. J Geol 73:391–403
Walther JV, Long MI (1986) Experimental determination of calcite solubilities in supercritical H2O. Extended abstracts, Fifth International Symposium on Water-Rock Interaction, Orkustofnum, Reykjavik, Iceland, pp 609–611
Walther JV, Orville PM (1983) The extraction-quench technique for determination of the thermodynamic properties of solute complexes: Application to quartz solubility in fluid mixtures. Am Mineral 68:731–741
Walther JV, Schott J (1988) The dielectric constant approach to speciation and ion pairing at high temperature and pressure. Nature 332:635–638
Walther JV, Wood BJ (1986) Mineral-fluid reactions rates. In: JV Walther, BJ Wood (eds) Fluid-rock interactions during metamorphism. Springer, New York Berlin Heidelberg Tokyo, pp 194–211
Woodland AB, Walther JV (1987) Experimental determination of the solubility of the assemblage paragonite, albite, and quartz in supercritical H2O. Geochim Cosmochim Acta 51:365–372
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Fein, J.B., Walther, J.V. Calcite solubility and speciation in supercritical NaCl-HCl aqueous fluids. Contr. Mineral. and Petrol. 103, 317–324 (1989). https://doi.org/10.1007/BF00402918
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DOI: https://doi.org/10.1007/BF00402918