Comparative adsorption of tetracyclines on biochars and stevensite: Looking for the most effective adsorbent

Comparative adsorption of tetracyclines on biochars and stevensite: Looking for the most effective adsorbent

Tetracyclines are one of the most widely used class of veterinary and human antibiotics. The conventional treatment of wastewater based on activated sludge is not effective to remove antibiotics and their residues are still biologically active, which represents a problem in terms of bacterial resist...

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Bibliographic Details
Published in:Applied clay science Vol. 160; pp. 162 - 172
Main Authors: Antón-Herrero, Rafael, García-Delgado, Carlos, Alonso-Izquierdo, María, García-Rodríguez, Gabriel, Cuevas, Jaime, Eymar, Enrique
Format: Journal Article
Language:English
Published: Elsevier B.V 01-08-2018
Subjects:
Antibiotics
Clay
Continuous system
Desorption
Wastewater
Water pollution
Clay
Desorption
Water pollution
Antibiotics
Wastewater
Continuous system
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Summary:Tetracyclines are one of the most widely used class of veterinary and human antibiotics. The conventional treatment of wastewater based on activated sludge is not effective to remove antibiotics and their residues are still biologically active, which represents a problem in terms of bacterial resistance. The main objective of this work is to assess ability of stevensite and two biochars to adsorb three tetracycline antibiotics from water. Batch adsorption experiments were carried out to test the ability of these materials to adsorb tetracyclines. Then desorption experiments were performed to determine the adsorption strength on stevensite. In order to elucidate the adsorption mechanism of tetracyclines on stevensite, cation exchange analysis and spectroscopic analyses by IR and XRD were performed. The adsorption of tetracyclines on stevensite was tested on continuous system with water artificially contaminated. Finally, the designed filter was validated with tetracyclines spiked wastewater. The two biochars and stevensite were able to adsorb between 60 and 100% of the tetracyclines present in the batch system. Stevensite was the material with the highest tetracyclines removal capacity (around 100% at low concentrations of tetracyclines). Biochars showed less affinity for tetracyclines adsorption (70%). Tetracyclines desorption from stevensite reached values lower than 10% for low tetracyclines concentrations. The IR spectroscopy suggested that cation exchange is the main mechanism of tetracyclines adsorption on clay and also proved the role of amide and amine groups in this adsorption. The cation exchange mechanism was confirmed by displacement of Ca and Mg from stevensite. A continuous wastewater flow through a system composed by stevensite leaved this system with no tetracyclines, indicating water purification by tetracyclines adsorption in clay. •Stevensite and two biochars were assessed for tetracyclines adsorption.•Stevensite is more effective for tetracycline adsorption than biochars.•The paper outlines the specific interaction of stevensite with tetracyclines.•Tetracyclines desorption from stevensite is low with an appreciable hysteresis.•Stevensite is an adequate adsorbent to remove tetracyclines from wastewater.
ISSN:0169-1317
1872-9053
DOI:10.1016/j.clay.2017.12.023