Isopiestic vapor pressure measurements were made for {xZnCl(2)+(1-x)ZnSO4}(aq) solutions with ZnCl2 molality fractions of x=(0,0.3062,0.5730,0.7969, and 1) at the temperature 298.15 K, using KCl(aq) as the reference standard. These measurements cover the water activity range 0.901-0.919 lt = a(w) lt = 0.978. The experimental osmotic coefficients were used to evaluate the parameters of an extended ion-interaction (Pitzer) model for these mixed electrolyte solutions. A similar analysis was made of the available activity data for ZnCl2(aq) at 298.15 K, while assuming the presence of equilibrium amounts of ZnCl+(aq) ion-pairs, to derive the ion-interaction parameters for the hypothetical pure binary electrolytes (Zn2+,2Cl(-)) and (ZnCl+,Cl-). These parameters are required for the analysis of the mixture results. Although significant concentrations of higher-order zinc chloride complexes may also be present in these solutions, it was possible to represent the osmotic coefficients accurate...ly by explicitly including only the predominant complex ZnCl+(aq) and the completely dissociated ions. The ionic activity coefficients and osmotic coefficients were calculated over the investigated molality range using the evaluated extended Pitzer model parameters.
TY - JOUR
AU - Ninković, Rozalija
AU - Miladinović, Jelena
AU - Todorović, Milica D.
AU - Grujić, Snežana
AU - Rard, Joseph A.
PY - 2007
UR - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/1089
AB - Isopiestic vapor pressure measurements were made for {xZnCl(2)+(1-x)ZnSO4}(aq) solutions with ZnCl2 molality fractions of x=(0,0.3062,0.5730,0.7969, and 1) at the temperature 298.15 K, using KCl(aq) as the reference standard. These measurements cover the water activity range 0.901-0.919 lt = a(w) lt = 0.978. The experimental osmotic coefficients were used to evaluate the parameters of an extended ion-interaction (Pitzer) model for these mixed electrolyte solutions. A similar analysis was made of the available activity data for ZnCl2(aq) at 298.15 K, while assuming the presence of equilibrium amounts of ZnCl+(aq) ion-pairs, to derive the ion-interaction parameters for the hypothetical pure binary electrolytes (Zn2+,2Cl(-)) and (ZnCl+,Cl-). These parameters are required for the analysis of the mixture results. Although significant concentrations of higher-order zinc chloride complexes may also be present in these solutions, it was possible to represent the osmotic coefficients accurately by explicitly including only the predominant complex ZnCl+(aq) and the completely dissociated ions. The ionic activity coefficients and osmotic coefficients were calculated over the investigated molality range using the evaluated extended Pitzer model parameters.
PB - Springer/Plenum Publishers, New York
T2 - Journal of Solution Chemistry
T1 - Osmotic and activity coefficients of the {xZnCl(2)+(1-x)ZnSO4}(aq) system at 298.15 K
EP - 435
IS - 4
SP - 405
VL - 36
DO - 10.1007/s10953-007-9128-3
ER -
@article{
author = "Ninković, Rozalija and Miladinović, Jelena and Todorović, Milica D. and Grujić, Snežana and Rard, Joseph A.",
year = "2007",
abstract = "Isopiestic vapor pressure measurements were made for {xZnCl(2)+(1-x)ZnSO4}(aq) solutions with ZnCl2 molality fractions of x=(0,0.3062,0.5730,0.7969, and 1) at the temperature 298.15 K, using KCl(aq) as the reference standard. These measurements cover the water activity range 0.901-0.919 lt = a(w) lt = 0.978. The experimental osmotic coefficients were used to evaluate the parameters of an extended ion-interaction (Pitzer) model for these mixed electrolyte solutions. A similar analysis was made of the available activity data for ZnCl2(aq) at 298.15 K, while assuming the presence of equilibrium amounts of ZnCl+(aq) ion-pairs, to derive the ion-interaction parameters for the hypothetical pure binary electrolytes (Zn2+,2Cl(-)) and (ZnCl+,Cl-). These parameters are required for the analysis of the mixture results. Although significant concentrations of higher-order zinc chloride complexes may also be present in these solutions, it was possible to represent the osmotic coefficients accurately by explicitly including only the predominant complex ZnCl+(aq) and the completely dissociated ions. The ionic activity coefficients and osmotic coefficients were calculated over the investigated molality range using the evaluated extended Pitzer model parameters.",
publisher = "Springer/Plenum Publishers, New York",
journal = "Journal of Solution Chemistry",
title = "Osmotic and activity coefficients of the {xZnCl(2)+(1-x)ZnSO4}(aq) system at 298.15 K",
pages = "435-405",
number = "4",
volume = "36",
doi = "10.1007/s10953-007-9128-3"
}
Ninković, R., Miladinović, J., Todorović, M. D., Grujić, S.,& Rard, J. A.. (2007). Osmotic and activity coefficients of the {xZnCl(2)+(1-x)ZnSO4}(aq) system at 298.15 K. in Journal of Solution Chemistry
Springer/Plenum Publishers, New York., 36(4), 405-435.
https://doi.org/10.1007/s10953-007-9128-3
Ninković R, Miladinović J, Todorović MD, Grujić S, Rard JA. Osmotic and activity coefficients of the {xZnCl(2)+(1-x)ZnSO4}(aq) system at 298.15 K. in Journal of Solution Chemistry. 2007;36(4):405-435.
doi:10.1007/s10953-007-9128-3 .
Ninković, Rozalija, Miladinović, Jelena, Todorović, Milica D., Grujić, Snežana, Rard, Joseph A., "Osmotic and activity coefficients of the {xZnCl(2)+(1-x)ZnSO4}(aq) system at 298.15 K" in Journal of Solution Chemistry, 36, no. 4 (2007):405-435,
https://doi.org/10.1007/s10953-007-9128-3 . .
