Computer Science
Scientific paper
Apr 2007
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2007gecoa..71.1689t&link_type=abstract
Geochimica et Cosmochimica Acta, Volume 71, Issue 7, p. 1689-1708.
Computer Science
Scientific paper
The stability of yttrium acetate (Y Ac) complexes in aqueous solution was determined potentiometrically at temperatures 25 175 °C (at Ps) and pressures 1 1000 bar (at 25 and 75 °C). Measurements were performed using glass H+-selective electrodes in potentiometric cells with a liquid junction. The species YAc2+ and YAc2+ were found to dominate yttrium aqueous speciation in experimental solutions at 25 100 °C (log [Ac-] < -1.5, pH < 5.2), whereas at 125, 150 and 175 °C introduction of YAc30 into the Y Ac speciation model was necessary. The overall stability constants βn were determined for the reaction Y+nAc=YAcn3-nβn=YAcn3-n[Y]·[Ac]·γγ·γAcn where terms in square parentheses stand for the molal concentrations [mol/kg H2O], and γi is the activity coefficient of the ith species. With temperature increase from 25 to 200 °C, the values of log β1, log β2 and log β3 increase from 2.27 to 4.51, 3.86 to 7.86 and 4.63 to 10.24, respectively. Increase of pressure results in decrease of the stability of all three complexes: log β1 decreases by 0.21 and 0.37, log β2 by 0.40 and 0.73, and log β3 by 0.57 and 1.01 when pressure increases from 1 to 1000 bar at 25 and 200 °C, respectively. However, the effect of pressure on Y speciation is much less pronounced than that of temperature and results only in a decrease of the predominance field of YAc30 in high-pressure solutions. The calculated values of the partial molal thermodynamic functions for the overall formation reactions are: ΔrS∘ = 23.4, 42.5, and 54.5 cal/mol K, ΔrC∘=73.2, 122.2, and 182.5 cal/mol K, and ΔrV∘ = 16.1, 30.9, 44.3 cm3/mol for YAc2+, YAc2+ and YAc30, respectively. The revised Helgeson Kirkham Flowers (HKF) equation of state parameters were generated for Y Ac complexes.
Koroleva Lyudmila
Schott Jacques
Suleimenov Oleg
Tagirov Boris
Zotov Alexander
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