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Highly Efficient and Low‐Cost Clay‐Based Adsorbent for Glyphosate Removal from Contaminated Water

Farzana Nargis, Ann Duong, Erwin Rehl, Charles Bradshaw, Hossein Kazemian

2021Chemical Engineering & Technology15 citationsDOI

Abstract

Abstract Glyphosate removal from contaminated water by natural clay, natural zeolite, commercial kaolin, bentonite, and sepiolite was compared. Natural clay showed high removal efficiency next to purified kaolin. The adsorption data for natural clay better fitted the Langmuir isotherm model and pseudo‐second‐order kinetic model. The adsorbent dose was found to be the most important process parameter while the pH did not exhibit any significant effect. An optimization study allowed achieving the highest removal efficiency and sorption capacity. The correlation coefficient R 2 of the regression model indicated that the observed results fitted well with the model prediction.

Topics & Concepts

BentoniteAdsorptionSepioliteSorptionZeoliteLangmuir adsorption modelChemistryClay mineralsCorrelation coefficientContaminationEnvironmental engineeringEnvironmental chemistryEnvironmental scienceMineralogyMathematicsGeologyGeotechnical engineeringOrganic chemistryStatisticsBiologyCatalysisRaw materialEcologyPesticide and Herbicide Environmental StudiesPharmaceutical and Antibiotic Environmental ImpactsAdvanced oxidation water treatment
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