Removal of cobalt(II) from aqueous solution by local Saudi bentonite: Kinetic and equilibrium investigations
Natural bentonite clay from Saudi Arabia was used to remove cobalt from aqueous solution. The clay samples were first characterized for their chemical composition and structure. Batch sorption studies were then conducted to assess their capacity to remove cobalt. The effect of contact time, initial...
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2016-04-01
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doaj-395f8af5e2f947ee9aee248c5a068a2f2021-02-25T08:35:53ZengSociety of Chemists and Technologists of MacedoniaMacedonian Journal of Chemistry and Chemical Engineering1857-55521857-56252016-04-01351879610.20450/mjcce.2016.852299Removal of cobalt(II) from aqueous solution by local Saudi bentonite: Kinetic and equilibrium investigationsOmar K. Alduaij0Mohamed I. Attia1Lotfi Khezami2Kamal K. Taha3Chemistry Department College of Science Al Imam Mohammad Ibn Saud Islamic UniversityChemistry Deptartment College of Science Al Imam Mohammad Ibn Saud Islamic UniversityChemistry Deptartment College of Science Al Imam Mohammad Ibn Saud Islamic UniversityChemistry Department College of Science Al Imam Mohammad Ibn Saud Islamic UniversityNatural bentonite clay from Saudi Arabia was used to remove cobalt from aqueous solution. The clay samples were first characterized for their chemical composition and structure. Batch sorption studies were then conducted to assess their capacity to remove cobalt. The effect of contact time, initial analyte concentration, bentonite dose and temperature on the adsorption was investigated. The results showed that equilibrium was attained in 60 minutes. The metal adsorption was fitted to a Langmuir isotherm model and the maximum monolayer adsorption capacity was found to be 19.85 mg g−1 at 333 K. The pseudo-second-order kinetic model provided the best correlation to the experimental data. The application of an intra-particle diffusion model revealed that the adsorption mechanism of the cobalt ions is a rather complex process and that diffusion is involved in the overall rate of the adsorption process, but it is not the only rate-controlling step. The activation energy, Ea, ranged between 4.33 and 9.14 kJ mol−1, indicating a physical adsorption process.https://mjcce.org.mk/index.php/MJCCE/article/view/852bentonitecobaltkineticsequilibrium |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Omar K. Alduaij Mohamed I. Attia Lotfi Khezami Kamal K. Taha |
spellingShingle |
Omar K. Alduaij Mohamed I. Attia Lotfi Khezami Kamal K. Taha Removal of cobalt(II) from aqueous solution by local Saudi bentonite: Kinetic and equilibrium investigations Macedonian Journal of Chemistry and Chemical Engineering bentonite cobalt kinetics equilibrium |
author_facet |
Omar K. Alduaij Mohamed I. Attia Lotfi Khezami Kamal K. Taha |
author_sort |
Omar K. Alduaij |
title |
Removal of cobalt(II) from aqueous solution by local Saudi bentonite: Kinetic and equilibrium investigations |
title_short |
Removal of cobalt(II) from aqueous solution by local Saudi bentonite: Kinetic and equilibrium investigations |
title_full |
Removal of cobalt(II) from aqueous solution by local Saudi bentonite: Kinetic and equilibrium investigations |
title_fullStr |
Removal of cobalt(II) from aqueous solution by local Saudi bentonite: Kinetic and equilibrium investigations |
title_full_unstemmed |
Removal of cobalt(II) from aqueous solution by local Saudi bentonite: Kinetic and equilibrium investigations |
title_sort |
removal of cobalt(ii) from aqueous solution by local saudi bentonite: kinetic and equilibrium investigations |
publisher |
Society of Chemists and Technologists of Macedonia |
series |
Macedonian Journal of Chemistry and Chemical Engineering |
issn |
1857-5552 1857-5625 |
publishDate |
2016-04-01 |
description |
Natural bentonite clay from Saudi Arabia was used to remove cobalt from aqueous solution. The clay samples were first characterized for their chemical composition and structure. Batch sorption studies were then conducted to assess their capacity to remove cobalt. The effect of contact time, initial analyte concentration, bentonite dose and temperature on the adsorption was investigated. The results showed that equilibrium was attained in 60 minutes. The metal adsorption was fitted to a Langmuir isotherm model and the maximum monolayer adsorption capacity was found to be 19.85 mg g−1 at 333 K. The pseudo-second-order kinetic model provided the best correlation to the experimental data. The application of an intra-particle diffusion model revealed that the adsorption mechanism of the cobalt ions is a rather complex process and that diffusion is involved in the overall rate of the adsorption process, but it is not the only rate-controlling step. The activation energy, Ea, ranged between 4.33 and 9.14 kJ mol−1, indicating a physical adsorption process. |
topic |
bentonite cobalt kinetics equilibrium |
url |
https://mjcce.org.mk/index.php/MJCCE/article/view/852 |
work_keys_str_mv |
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