Synergic adsorption in the simultaneous removal of acid blue 25 and heavy metals from water using a Ca(PO 3) 2-modified carbon

► The simultaneous removal of AB25 and heavy metals has been studied using an activated carbon. ► Acid blue 25 favors the removal of heavy metals using a calcium-modified carbon. ► Uptakes of heavy metals may increase up to six times in binary solutions with AB25. We report the simultaneous adsorpti...

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Bibliographic Details
Published in:Journal of hazardous materials 2012-01, Vol.199, p.290-300
Main Authors: Tovar-Gómez, R., Rivera-Ramírez, D.A., Hernández-Montoya, V., Bonilla-Petriciolet, A., Durán-Valle, C.J., Montes-Morán, M.A.
Format: Article
Language:English
Subjects:
Activated carbon
Adsorption
Anthraquinones - isolation & purification
Calcium Phosphates - chemistry
Carbon - chemistry
Dyes
Heavy metals
Kinetics
Metals, Heavy - isolation & purification
Microscopy, Electron, Scanning
Multi-component adsorption
Water Pollutants, Chemical - isolation & purification
Water treatment
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Summary:► The simultaneous removal of AB25 and heavy metals has been studied using an activated carbon. ► Acid blue 25 favors the removal of heavy metals using a calcium-modified carbon. ► Uptakes of heavy metals may increase up to six times in binary solutions with AB25. We report the simultaneous adsorption of acid blue 25 dye (AB25) and heavy metals (Zn 2+, Ni 2+ and Cd 2+) on a low-cost activated carbon, whose adsorption properties have been improved via a surface chemistry modification using a calcium solution extracted from egg shell wastes. Specifically, we have studied the removal performance of this adsorbent using the binary aqueous systems: AB25–Cd 2+, AB25–Ni 2+ and AB25–Zn 2+. Multi-component kinetic and equilibrium experiments have been performed and used to identify and characterize the synergic adsorption in the simultaneous removal of these pollutants. Our results show that the presence of AB25 significantly favors the removal of heavy metals and may increase the adsorption capacities up to six times with respect to the results obtained using the mono-cationic metallic systems, while the adsorption capacities of AB25 are not affected by the presence of metallic ions. It appears that this anionic dye favors the electrostatic interactions with heavy metals or may create new specific sites for adsorption process. In particular, heavy metals may interact with the –SO 3 − group of AB25 and to the hydroxyl and phosphoric groups of this adsorbent. A response surface methodology model has been successfully used for fitting multi-component adsorption data.
ISSN:0304-3894
1873-3336
DOI:10.1016/j.jhazmat.2011.11.015