Chromium adsorption using a composite adsorbent of corn waste and bentonite
Chromium, a highly toxic heavy metal, poses significant risks to both human health and environmental quality. Its adsorption in wastewater using low-cost, easily implementable technologies has emerged as a crucial solution for mitigating its harmful impact. This study explores the effectiveness of...
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Universidad de Antioquia
2024-12-01
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| Series: | Revista Facultad de Ingeniería Universidad de Antioquia |
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| Online Access: | https://revistas.udea.edu.co/index.php/ingenieria/article/view/355302 |
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| author | Miguel Herrera-Gavidia Dalia Carbonel Hugo Chirinos-Collantes |
| author_facet | Miguel Herrera-Gavidia Dalia Carbonel Hugo Chirinos-Collantes |
| author_sort | Miguel Herrera-Gavidia |
| collection | DOAJ |
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Chromium, a highly toxic heavy metal, poses significant risks to both human health and environmental quality. Its adsorption in wastewater using low-cost, easily implementable technologies has emerged as a crucial solution for mitigating its harmful impact. This study explores the effectiveness of a composite adsorbent made from bentonite and corn waste for chromium adsorption. Experiments were conducted in a laboratory-scale batch system. The research examined the adsorption kinetics and equilibrium, process optimization, and the mechanisms of chromium adsorption. For optimization, a response surface methodology was applied considering three variables: adsorption time (min), adsorbent dosage (g/L), and initial chromium concentration (mg/L). The findings suggest that the adsorption kinetics fit best with the pseudo-first-order model (R2 = 0.968), and the adsorption equilibrium fits with the Freundlich model (R2 = 0.997). During optimization, the adsorbent dosage emerged as the most critical factor for chromium removal. The optimal operating conditions were determined to be 103 minutes, 29.71 g/L of adsorbent, and an initial chromium concentration of 31.13 mg/L. The results indicate that chromium adsorption is a multifaceted process involving diffusion and subsequent interaction at the surface and edges of the bentonite layers. Chemical analysis, coupled with changes in the FTIR spectrum, suggests an interaction between chromium and the silicon and aluminum components of the bentonite. These findings underscore the potential of the composite adsorbent for effective chromium removal.
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| format | Article |
| id | doaj-art-004da04b22604b608c89bee7f001a745 |
| institution | Kabale University |
| issn | 0120-6230 2422-2844 |
| language | English |
| publishDate | 2024-12-01 |
| publisher | Universidad de Antioquia |
| record_format | Article |
| series | Revista Facultad de Ingeniería Universidad de Antioquia |
| spelling | doaj-art-004da04b22604b608c89bee7f001a7452025-01-17T03:43:48ZengUniversidad de AntioquiaRevista Facultad de Ingeniería Universidad de Antioquia0120-62302422-28442024-12-0110.17533/udea.redin.20241249Chromium adsorption using a composite adsorbent of corn waste and bentoniteMiguel Herrera-Gavidia0Dalia Carbonel1Hugo Chirinos-Collantes2Universidad Nacional de IngenieríaUniversidad Nacional de IngenieríaUniversidad Nacional de Ingeniería Chromium, a highly toxic heavy metal, poses significant risks to both human health and environmental quality. Its adsorption in wastewater using low-cost, easily implementable technologies has emerged as a crucial solution for mitigating its harmful impact. This study explores the effectiveness of a composite adsorbent made from bentonite and corn waste for chromium adsorption. Experiments were conducted in a laboratory-scale batch system. The research examined the adsorption kinetics and equilibrium, process optimization, and the mechanisms of chromium adsorption. For optimization, a response surface methodology was applied considering three variables: adsorption time (min), adsorbent dosage (g/L), and initial chromium concentration (mg/L). The findings suggest that the adsorption kinetics fit best with the pseudo-first-order model (R2 = 0.968), and the adsorption equilibrium fits with the Freundlich model (R2 = 0.997). During optimization, the adsorbent dosage emerged as the most critical factor for chromium removal. The optimal operating conditions were determined to be 103 minutes, 29.71 g/L of adsorbent, and an initial chromium concentration of 31.13 mg/L. The results indicate that chromium adsorption is a multifaceted process involving diffusion and subsequent interaction at the surface and edges of the bentonite layers. Chemical analysis, coupled with changes in the FTIR spectrum, suggests an interaction between chromium and the silicon and aluminum components of the bentonite. These findings underscore the potential of the composite adsorbent for effective chromium removal. https://revistas.udea.edu.co/index.php/ingenieria/article/view/355302claymetalsorganic matterstatistics |
| spellingShingle | Miguel Herrera-Gavidia Dalia Carbonel Hugo Chirinos-Collantes Chromium adsorption using a composite adsorbent of corn waste and bentonite Revista Facultad de Ingeniería Universidad de Antioquia clay metals organic matter statistics |
| title | Chromium adsorption using a composite adsorbent of corn waste and bentonite |
| title_full | Chromium adsorption using a composite adsorbent of corn waste and bentonite |
| title_fullStr | Chromium adsorption using a composite adsorbent of corn waste and bentonite |
| title_full_unstemmed | Chromium adsorption using a composite adsorbent of corn waste and bentonite |
| title_short | Chromium adsorption using a composite adsorbent of corn waste and bentonite |
| title_sort | chromium adsorption using a composite adsorbent of corn waste and bentonite |
| topic | clay metals organic matter statistics |
| url | https://revistas.udea.edu.co/index.php/ingenieria/article/view/355302 |
| work_keys_str_mv | AT miguelherreragavidia chromiumadsorptionusingacompositeadsorbentofcornwasteandbentonite AT daliacarbonel chromiumadsorptionusingacompositeadsorbentofcornwasteandbentonite AT hugochirinoscollantes chromiumadsorptionusingacompositeadsorbentofcornwasteandbentonite |