Abstract
This study presents the influence of different variables on Cd(II) adsorption in Iranian bentonite namely two different types of electrolytes (carbonate and chloride salts), calcination temperature, loading of Fe(III)–Fe(II) (synthesized Fe-bentonite) and CaCO3 on bentonite. According to the experimental data, Na2CO3 is the best modifier electrolyte in comparison with other carbonate salts and chloride salts. The maximum removal (100%) of 1,000 ppm Cd(II) from aqueous solution was achieved in presence of 0.1 M of Na2CO3 and 5 g bentonite. Furthermore, Iranian bentonite was modified by CaCO3 and Fe(III)/Fe(II) salts to have synthesized CaCO3-bentonite and Fe-bentonite. For the equilibrium study of Cd(II) adsorption onto these compounds, the Langmuir, Freundlich, Temkin, and Dubinin–Radushkevich (D–R) models have been examined. The Langmuir and Freundlich models explained the highest correlation coefficients for Fe-bentonite and CaCO3-bentonite, respectively. According to the Langmuir (for Fe-bentonite) and Freundlich (for CaCO3-bentonite) models, the maximum adsorption capacity were 32.39 mg/g and 1.97 mg1−1/n L1/n g−1, respectively. The calculated results of DR models showed that Cd(II) adsorption onto modified bentonite is chemical adsorption or ion exchange interaction. The obtained thermodynamic parameters of Cd(II) adsorption indicated that Cd(II) adsorption onto modified one was spontaneous and Cd(II) adsorptions onto Fe-bentonite and CaCO3-bentonite were exothermic and endothermic, respectively.
Acknowledgments
The authors thank the Vice-President’s Office for Research Affairs of Amirkabir University of Technology for supporting this project. We acknowledge the contribution of Milad Armaghan.