Performance evaluation of powdered activated carbon for removing 28 types of antibiotics from water

Performance evaluation of powdered activated carbon for removing 28 types of antibiotics from water

Currently, the occurrence and fate of antibiotics in the aquatic environment has become a very serious problem in that they can potentially and irreversibly damage the ecosystem and human health. For this reason, interest has increased in developing strategies to remove antibiotics from water. This...

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Veröffentlicht in:Journal of environmental management 2016-05, Vol.172, p.193-200
Hauptverfasser: Zhang, Xinbo, Guo, Wenshan, Ngo, Huu Hao, Wen, Haitao, Li, Nan, Wu, Wei
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Activated carbon
Adsorption
Anti-Bacterial Agents - isolation & purification
Antibiotics
Charcoal - chemistry
Diffusion
Kinetics
Models, Theoretical
Performance evaluation
Pollution control
Powdered activated carbon
Water - chemistry
Water Pollutants, Chemical - isolation & purification
Water Purification - methods
Water quality
Water treatment
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creator Zhang, Xinbo
Guo, Wenshan
Ngo, Huu Hao
Wen, Haitao
Li, Nan
Wu, Wei
description Currently, the occurrence and fate of antibiotics in the aquatic environment has become a very serious problem in that they can potentially and irreversibly damage the ecosystem and human health. For this reason, interest has increased in developing strategies to remove antibiotics from water. This study evaluated the performance of powdered activated carbon (PAC) in removing from water 6 representative groups of 28 antibiotics, namely Tetracyclines (TCs), Macrolides (MCs), Chloramphenicols (CPs), Penicillins (PNs), Sulfonamides (SAs) and Quinolones (QNs). Results indicate that PAC demonstrated superior adsorption capacity for all selected antibiotics. The removal efficiency was up to 99.9% in deionized water and 99.6% in surface water at the optimum conditions with PAC dosage of 20 mg/L and contact time of 120 min. According to the Freundlich model's adsorption isotherm, the values of n varied among these antibiotics and most were less than 1, suggesting that the adsorption of antibiotics onto PAC was nonlinear. Adsorption of antibiotics followed well the pseudo-second-order kinetic model (R2 = 0.99). Analysis using the Weber-Morris model revealed that the intra-particle diffusion was not the only rate-controlling step. Overall, the findings in this study confirm that PAC is a feasible and viable option for removing antibiotics from water in terms of water quality improvement and urgent antibiotics pollution control. Further research is essential on the following subjects: (i) removing more types of antibiotics by PAC; (ii) the adsorption process; and (iii) the mechanism of the competitive adsorption existing between natural organic matters (NOMs) and antibiotics. •PAC exhibited superior adsorption capacity for 28 selected antibiotics from water.•6 groups of antibiotics adsorption fit well the pseudo second-order kinetic model.•Macrolides and chloramphenicols demonstrated higher initial adsorption.•Removal of sulfonamides was greater influenced by NOMs in surface water.
doi_str_mv 10.1016/j.jenvman.2016.02.038
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For this reason, interest has increased in developing strategies to remove antibiotics from water. This study evaluated the performance of powdered activated carbon (PAC) in removing from water 6 representative groups of 28 antibiotics, namely Tetracyclines (TCs), Macrolides (MCs), Chloramphenicols (CPs), Penicillins (PNs), Sulfonamides (SAs) and Quinolones (QNs). Results indicate that PAC demonstrated superior adsorption capacity for all selected antibiotics. The removal efficiency was up to 99.9% in deionized water and 99.6% in surface water at the optimum conditions with PAC dosage of 20 mg/L and contact time of 120 min. According to the Freundlich model's adsorption isotherm, the values of n varied among these antibiotics and most were less than 1, suggesting that the adsorption of antibiotics onto PAC was nonlinear. Adsorption of antibiotics followed well the pseudo-second-order kinetic model (R2 = 0.99). Analysis using the Weber-Morris model revealed that the intra-particle diffusion was not the only rate-controlling step. Overall, the findings in this study confirm that PAC is a feasible and viable option for removing antibiotics from water in terms of water quality improvement and urgent antibiotics pollution control. Further research is essential on the following subjects: (i) removing more types of antibiotics by PAC; (ii) the adsorption process; and (iii) the mechanism of the competitive adsorption existing between natural organic matters (NOMs) and antibiotics. •PAC exhibited superior adsorption capacity for 28 selected antibiotics from water.•6 groups of antibiotics adsorption fit well the pseudo second-order kinetic model.•Macrolides and chloramphenicols demonstrated higher initial adsorption.•Removal of sulfonamides was greater influenced by NOMs in surface water.</description><identifier>ISSN: 0301-4797</identifier><identifier>EISSN: 1095-8630</identifier><identifier>DOI: 10.1016/j.jenvman.2016.02.038</identifier><identifier>PMID: 26946168</identifier><identifier>CODEN: JEVMAW</identifier><language>eng</language><publisher>England: Elsevier Ltd</publisher><subject>Activated carbon ; Adsorption ; Anti-Bacterial Agents - isolation &amp; purification ; Antibiotics ; Charcoal - chemistry ; Diffusion ; Kinetics ; Models, Theoretical ; Performance evaluation ; Pollution control ; Powdered activated carbon ; Water - chemistry ; Water Pollutants, Chemical - isolation &amp; purification ; Water Purification - methods ; Water quality ; Water treatment</subject><ispartof>Journal of environmental management, 2016-05, Vol.172, p.193-200</ispartof><rights>2016 Elsevier Ltd</rights><rights>Copyright © 2016 Elsevier Ltd. 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Analysis using the Weber-Morris model revealed that the intra-particle diffusion was not the only rate-controlling step. Overall, the findings in this study confirm that PAC is a feasible and viable option for removing antibiotics from water in terms of water quality improvement and urgent antibiotics pollution control. 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For this reason, interest has increased in developing strategies to remove antibiotics from water. This study evaluated the performance of powdered activated carbon (PAC) in removing from water 6 representative groups of 28 antibiotics, namely Tetracyclines (TCs), Macrolides (MCs), Chloramphenicols (CPs), Penicillins (PNs), Sulfonamides (SAs) and Quinolones (QNs). Results indicate that PAC demonstrated superior adsorption capacity for all selected antibiotics. The removal efficiency was up to 99.9% in deionized water and 99.6% in surface water at the optimum conditions with PAC dosage of 20 mg/L and contact time of 120 min. According to the Freundlich model's adsorption isotherm, the values of n varied among these antibiotics and most were less than 1, suggesting that the adsorption of antibiotics onto PAC was nonlinear. Adsorption of antibiotics followed well the pseudo-second-order kinetic model (R2 = 0.99). Analysis using the Weber-Morris model revealed that the intra-particle diffusion was not the only rate-controlling step. Overall, the findings in this study confirm that PAC is a feasible and viable option for removing antibiotics from water in terms of water quality improvement and urgent antibiotics pollution control. Further research is essential on the following subjects: (i) removing more types of antibiotics by PAC; (ii) the adsorption process; and (iii) the mechanism of the competitive adsorption existing between natural organic matters (NOMs) and antibiotics. •PAC exhibited superior adsorption capacity for 28 selected antibiotics from water.•6 groups of antibiotics adsorption fit well the pseudo second-order kinetic model.•Macrolides and chloramphenicols demonstrated higher initial adsorption.•Removal of sulfonamides was greater influenced by NOMs in surface water.</abstract><cop>England</cop><pub>Elsevier Ltd</pub><pmid>26946168</pmid><doi>10.1016/j.jenvman.2016.02.038</doi><tpages>8</tpages><oa>free_for_read</oa></addata></record>
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subjects Activated carbon
Adsorption
Anti-Bacterial Agents - isolation & purification
Antibiotics
Charcoal - chemistry
Diffusion
Kinetics
Models, Theoretical
Performance evaluation
Pollution control
Powdered activated carbon
Water - chemistry
Water Pollutants, Chemical - isolation & purification
Water Purification - methods
Water quality
Water treatment
title Performance evaluation of powdered activated carbon for removing 28 types of antibiotics from water
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