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The solubility of barite and celestite in sodium sulfate: Evaluation of thermodynamic data (1990)

Felmy, A. R. ; Rai, Dhanpat ; Amonette, J. E.

Springer

Journal of solution chemistry 19 (1990), S. 175-185

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ISSN: 1572-8927

Keywords: Solubility ; barite ; celestite ; activity coefficient ; equilibrium constants

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The solubilities of barite [BaSO4(c)] and celestite [SrSO4(c)] in Na2SO4 were studied and found to be significantly lower than the experimental values reported in the literature. Our new solubility data are in excellent agreement with the predictions of ion interaction models, which have previously been parameterized primarily from solubility data obtained in chloride media. Our solubility data were analyzed both in terms of aqueous thermodynamic models that included ion association species and in terms of ion interaction models that did not require the explicit recognition of such species. In the case of SrSO4, although both ion association and ion interaction models can accurately model our solubility data, the ion interaction approach is preferred because it is easier to extend to higher concentrations. In the case of BaSO4, the aqueous ion interactions appear to be stronger than those for SrSO4, and so the explicit recognition of a BaSO4(aq) ion association species is preferred. The logarithms of the thermodynamic solubility products (log K sp ) for celestite and barite were −6.62±0.02 and −10.05±0.05, respectively. When the data were analyzed using models that include ion association species, the logarithms of the thermodynamic equilibrium constants for the SrSO4(aq) and BaSO4(aq) association reactions were 1.86±0.03 and 2.72±0.09, respectively.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00646611

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The solubility product of crystalline ferric selenite hexahydrate and the complexation constant of FeSeO 3 + (1995)

Rai, Dhanpat ; Felmy, Andrew R. ; Moore, Dean A.

Springer

Journal of solution chemistry 24 (1995), S. 735-752

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ISSN: 1572-8927

Keywords: Solubility ; equilibrium constants ; solubility product ; Fe2(SeO3)3·6H2O(c) ; ferric selenite ; selenite

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The aqueous solubility of Fe2(SeO3)3·6H2O(c) was studied in deionized water adjusted to a range in pH values from 0.77 to 5.1 and in Na2SeO3 solutions ranging in concentrations from 0.0002 to 0.02 mol-dm−3. The studies were conducted from both the undersaturation and oversaturation directions, with equilibration periods ranging from 7 to 1725 days. Stoichiometric dissolution of the solid was observed in solutions with pH values up to nearly 4. In general, concentrations of both Se and Fe decreased as pH increased from 1 to 4. Analyses of the equilibrated suspensions confirmed the equilibrium solid to be Fe2(SeO3)3·6H2O(c) and the aqueous Se to be selenite. Pitzer's ion-interaction model was used with selected ion pairs to interpret the solubility data. The logarithm of the solubility product of ferric selenite $$Fe_2 (SeO_3 )_3 .6H_2 O(c) \begin{array}{*{20}c} \to \\ \leftarrow \\ \end{array} 2Fe^{3 + } + 3SeO_3^{2 - } + 6H_2 O$$ was found to be −41.58±0.11. This value is less than any reported in the literature for a ferric selenite by more than 10 orders of magnitude. The solubility data and calculations show an extremely strong interaction between aqueous Fe3+ and SeO 3 2− ; interpretation of these data requires the inclusion of FeSeO 3 + i.e. $$Fe^{3 + } + SeO_3^{2 - } \begin{array}{*{20}c} \to \\ \leftarrow \\ \end{array} FeSeO_3^ + , log K = 11.15 \pm 0.11$$

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01131042

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Nd3+ and Am3+ ion interactions with sulfate ion and their influence on NdPO4(c) solubility (1995)

Rai, Dhanpat ; Felmy, Andrew R. ; Fulton, Robert W.

Springer

Journal of solution chemistry 24 (1995), S. 879-895

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ISSN: 1572-8927

Keywords: Solubility ; crystalline NdPO4 ; sulfate complexes ; Nd ; Am ; Pitzer parameters ; solubility product

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The effects of Nd(III)/Am(III) complexation with sulfate were studied by 1) re-examining existing data for the Am−SO4 system using more, advanced aqueous electrolyte models valid to high concentration to obtain reliable thermodynamic data for SO 4 2− complexes or ion interactions with Nd3+ and Am3+ and 2) conducting experimental solubility studies of NdPO4(c), an analog phase of AmPO 4 (c), a possibly important phase in high level nuclear wastes, in the presence of SO 4 2− to test the newly developed thermodynamic model and show the possible influence of sulfate in a repository environment. The data showed that the increase in the solubility of NdPO 4 (c) resulted primarily from the increase in ionic strength. Slightly higher observed Nd concentrations in the presence of sulfate, as compared with concentrations predicted at the experimental ionic strengths, resulted from the weak complexes or ion interactions involving Nd 3+ −SO 4 2− . The Pitzer ion interaction parameters, applicable to 0.5m sulfate, were obtained for Am 3+ −SO 4 2− from a reinterpretation of known solvent extraction data. These parameters are also consistent with literature data for Am 3+ /Na+ exchange and solvent extraction in the presence of sulfate. When used for the analogous Nd 3+ −SO 4 2− system to predict NdPO 4 (c) solubility in the presence of sulfate, they provided excellent agreement between the predicted and the observed solubilities, indicating that they can be reliably used to determine Nd 3+ or Am 3+ ion interactions with SO 4 2− in all ground waters where SO 4 2− is less than 0.5m

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00973443

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Hydrolysis constants and ion-interaction parameters for Cd(II) in zero to high concentrations of NaOH−KOH, and the solubility product of crystalline Cd(OH)2 (1991)

Rai, Dhanpat ; Felmy, Andrew R. ; Szelmeczka, Roger W.

Springer

Journal of solution chemistry 20 (1991), S. 375-390

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ISSN: 1572-8927

Keywords: Solubility ; equilibrium constants ; activity coefficient ; hydrolysis ; β-Cd(OH)2(c) ; ion-interaction parameters ; cadmium

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The solubility of Cd(OH)2(c) was studied in 0.01M NaClO4 solutions, from both the over- and the undersaturation directions, with OH− ion concentration ranging from 10−6 to 1.0 mol-L−1, and the equilibration period ranging from 2 to 28 days. Equilibrium Cd concentrations were reached in less than 2 days. The Cd(OH)2(c) solubility showed an amphoteric behavior. In the entire range of OH−/H+ investigated, the only dominant aqueous Cd(II) species required to explain the solubility of Cd(OH)2(c) are Cd2+, Cd(OH) 2 0 , and Cd(OH) 4 2− . The logarithms of the thermodynamic equilibrium constants of the Cd(OH)2(c) solubility reactions involving these species, that is, the reactions $$\begin{gathered} {\text{ }}Cd(OH)_2 (c) \rightleftarrows Cd^{2 + } + 20H^ - ,{\text{ }}Cd(OH)_2 (c) \rightleftarrows Cd(OH)_2^0 , \hfill \\ and Cd(OH)_2 (c) + 20H^ - \rightleftarrows Cd(OH)_4^{2 - } \hfill \\ \end{gathered}$$ were found to be −14.14±0.21, −7.04±0.21, and −5.62±0.32, respectively. The ion-interaction parameters reported in the literature, in conjunction with the values for Cd(OH) 2 0 −Na+(−0.20), Cd(OH) 4 2− −Na+ (β0 = 0.41, β1 = 0.7), and Cd(OH) 4 2− −K+ (β0 = 0.44, β1 = 1.44) obtained in this study, show that our low-ionic strength solubility data are also consistent with Cd(OH)2(c) solubility data obtained in solutions as concentrated as 10M in NaOH or KOH and 7M in Na(OH, ClO4).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00650764

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