Abstract
Activities of water in the K2SO4+Rb2SO4+H2O system at 25°C have been measured isopiestically. On the basis of the experimental activities of water ternary parameters of the Pitzer equations have been calculated. According to our data and experimental solubility data from the literature, continous solid solutions between K2SO4 and Rb2SO4 are formed in this system. With the use of the Guggenheim polynomial for simulating excess functions of solid solutions on the basis of the original and literature solubility data, excess Gibbs energies of solid solution formation as well as a solubility diagram have been calculated. Results of the solubility calculation are in good agreement with experimental data.
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References
K. S. Pitzer,J. Phys. Chem. 77, 268 (1973).
K. S. Pitzer and G. Mayorga,J. Phys. Chem. 77, 2300 (1973).
K. S. Pitzer and J. J. Kim,J. Am. Chem. Soc. 96, 5701 (1974).
K. S. Pitzer, inActivity Coefficients in Electrolyte Solutions, K. S. Pitzer, ed., 2nd edn. (CRC Press, Boca Raton, 1991), p. 75.
V. K. Filippov and A. V. Rumyantsev,Dokl. AN SSSR 315, 659 (1990).
F. Ya. Reznik, inPhysical Chemistry of Electrolytes (in Russian), G. I. Mikulin, ed. (Khimia, Leningrad, 1968), p. 222.
V. K. Filippov, A. M. Kalinkin, and S. K. Vasin,J. Chem. Thermodyn. 19, 185 (1987).
F. A. H. Schreinemakers,Z. Phys. Chem. 11, 81 (1893).
A. B. Zdanovskii,Trudy Sol. Lab. AN SSSR 6, 5 (1936).
V. K. Filippov and Yu. A. Fedorov,Dokl. AN SSSR 273, 393 (1983).
G. S. Kotlyar-Shapirov and A. N. Kirgintsev,Thermodynamics of Ternary Aqueous Salt Systems Containing Sulfates (in Russian), (VINITI, N 5609–73, 1973) p.1.
W. J. Hamer and Wu Yung-Chi,J. Phys. Chem. Ref. Data 1, 1047 (1972).
R. A. Robinson and R. H. Stokes, 2nd edn., revised,Electrolyte Solutions, (Butterworths, London, 1965).
R. A. Robinson, J. M. Wilson, and R. H. Stokes,J. Am. Chem. Soc. 63, 1011 (1941).
H. H. Cudd and W. A. Felsing,J. Am. Chem. Soc. 64, 550 (1942).
J. A. Rard and R. F. Platford, inActivity Coefficients in Electrolyte Solutions, K. S. Pitzer, ed. 2nd edn., (CRC Press, Boca Raton, 1991), p.209.
O. S. Dombrovskaya,Zh. Obsch. Khim. 3, 1017 (1933).
I. M. Karataeva and I. N. Lepeshkov,Zh. Neorg. Khim. 15, 1113 (1970).
B. D. Stepin, G. R. Allakhverdov, G. A. Lovetskaya, G. P. Kuznetsova, K. I. Nikolaeva, and Z. A. Starikova,Zh. Neorgan. Khim. 21, 3111 (1976).
L. A. Nosova, N. B. Voskoboinikov, and G. S. Timofeev, Solubility Study of Ternary Aqueous Salt Systems K2SO4−Rb2SO4−H2O and K2SO4−Cs2SO4−H2O at 25°C, (VINITI, N 2328–80, 1980) p.26.
A. B. Zdanovskii, E. F. Solovyeva, L. L. Ezrokhi, and E. I. Lyahovskaya,Handbook on Experimental Solubility Data in Aqueous Salt Systems, A. D. Pelsh, ed. (Izd. Khim. Lit., Leningrad, 1961), p. 1930.
V. K. Filippov and V. I. Nokhrin,Zh. Neorg. Khim. 32, 787 (1987).
V. Ya. Anosov, M. I. Ozerova, and Yu. A. Fialkov,Basis of Physical-Chemical Analysis, N. K. Voskresenskaya, ed. (Nauka, Moscow, 1976), p. 117.
I. N. Belyaev and N. N. Chikova, inPhysical-Chemical Analysis of Salt Systems, (Izd. Rostov Univ., Rostov-upon-Don, 1962), p. 69.
G. G. Diogenov and V. I. Ermachkov, inNauchn. Trudy (Irkut. Polytech. Inst.), N 27, Ser. Khim., (Irkut. Knizh. Izd., Irkutsk, 1966), p. 64.
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Kalinkin, A.M., Rumyantsev, A.V. Thermodynamics of phase equilibria of the K2SO4 +Rb2SO4+H2O system at 25°C. J Solution Chem 25, 695–709 (1996). https://doi.org/10.1007/BF00972683
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DOI: https://doi.org/10.1007/BF00972683