Activity Coefficient Prediction for Binary and Ternary Aqueous Electrolyte Solutions at Different Temperatures and Concentrations
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- 作者:Masoud Sadeghi (1)
Cyrus Ghotbi (1) ghotbi@sharif.edu
Mohammad Jafar Abdekhodaie (1) - 关键词:Activity coefficient – ; Electrolyte solution – ; Mean spherical approximation (MSA) – ; Temperature
- 刊名:Journal of Solution Chemistry
- 出版时间:January 2012
- 出版年:2012
- 期刊代码:24_00959782
- 类别:en
- 卷:41
- 期:1
- 页码:75-88
- 数据来源:sp
摘要
The mean spherical approximation (MSA) model, coupled with two hard sphere models, was used to predict the activity coefficients of mixtures of electrolyte solutions at different temperatures and concentrations. The models, namely the Ghotbi-Vera-MSA (GV-MSA) and Mansoori et al.-MSA (BMCSL-MSA), were directly used without introducing any new adjustable parameters for mixing of electrolyte solutions. In the correlation step, the anion diameters were considered to be constant, whereas the cation diameters were considered to be concentration dependent. The adjustable parameters were determined by fitting the models to the experimental mean ionic activity coefficients for single aqueous electrolytes at fixed temperature. The results showed that the studied models predict accurately the activity coefficients for single electrolyte aqueous solutions at different temperatures. In the systems of binary aqueous electrolyte solutions with a common anion, the GV-MSA model has slightly better accuracy in predicting the activity coefficients. Also, it was observed that the GV-MSA model can more accurately predict the activity coefficients for ternary electrolyte solutions with a common anion, especially at higher concentrations.