| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 211984 | Hydrometallurgy | 2015 | 7 Pages |
•Calcium ion removal from aqueous solutions was studied in a fixed-bed column.•The fixed bed performance is described through the breakthrough curve.•Mathematical models were built to facilitate industrial design.
This study investigated the performance of Amberlite IRC 748 resin in removing calcium ions from highly concentrated potassium chromate solution in a fixed bed column. The exchange capacity increased with initial calcium ion concentration and bed height but decreased as flow rate increased. Four different kinetic models, specifically the bed depth service time (BDST), mass transfer, Thomas, and Yoon–Nelson models, were applied to the experimental data to predict the breakthrough curves and determine the column parameters. The BDST model was extended to the prediction of service times of columns operated at different flow rates and influent concentrations; while the experimental and theoretical data points followed a similar trend, they deviated slightly from each other. The Thomas and Yoon–Nelson model predictions were in very good agreement with the experimental results for all the process parameters studied, indicating that they are suitable for use with these kinds of columns.
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