Comparative study of the effect of pharmaceutical additives on the elimination of antibiotic activity during the treatment of oxacillin in water by the photo-Fenton, TiO2-photocatalysis and electrochemical processes

Comparative study of the effect of pharmaceutical additives on the elimination of antibiotic activity during the treatment of oxacillin in water by the photo-Fenton, TiO2-photocatalysis and electrochemical processes

Synthetic pharmaceutical effluents loaded with the β-lactam antibiotic oxacillin were treated using advanced oxidation processes (the photo-Fenton system and TiO2 photocatalysis) and chloride mediated electrochemical oxidation (with Ti/IrO2 anodes). Combinations of the antibiotic with excipients (ma...

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Veröffentlicht in:The Science of the total environment 2016-01, Vol.541, p.1431-1438
Hauptverfasser: Serna-Galvis, Efraim A., Silva-Agredo, Javier, Giraldo, Ana L., Flórez-Acosta, Oscar A., Torres-Palma, Ricardo A.
Format: Artikel
Sprache:eng
Schlagworte:
Additives
Advanced oxidation process
Anodic oxidation
Anti-Bacterial Agents - analysis
Anti-Bacterial Agents - chemistry
Antibiotics
Bicarbonates
Chlorides - chemistry
Ethers
Hydrogen Peroxide - chemistry
Iron - chemistry
Oxacillin - analysis
Oxacillin - chemistry
Oxidation-Reduction
Pharmaceutics
Photocatalysis
Photolysis
Sodium
Sulfates
Titanium - chemistry
Titanium dioxide
Waste Disposal, Fluid - methods
Water matrix
Water Pollutants, Chemical - analysis
Water Pollutants, Chemical - chemistry
Water treatment
β-Lactam antibiotics
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container_issue
container_start_page 1431
container_title The Science of the total environment
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creator Serna-Galvis, Efraim A.
Silva-Agredo, Javier
Giraldo, Ana L.
Flórez-Acosta, Oscar A.
Torres-Palma, Ricardo A.
description Synthetic pharmaceutical effluents loaded with the β-lactam antibiotic oxacillin were treated using advanced oxidation processes (the photo-Fenton system and TiO2 photocatalysis) and chloride mediated electrochemical oxidation (with Ti/IrO2 anodes). Combinations of the antibiotic with excipients (mannitol or tartaric acid), an active ingredient (calcium carbonate, i.e. bicarbonate ions due to the pH) and a cleaning agent (sodium lauryl ether sulfate) were considered. Additionally, urban wastewater that had undergone biological treatment was doped with oxacillin and treated with the tested systems. The evolution of antimicrobial activity was monitored as a parameter of processes efficiency. Although the two advanced oxidation processes (AOPs) differ only in the way they produce OH, marked differences were observed between them. There were also differences between the AOPs and the electrochemical system. Interestingly, each additive had a different effect on each treatment. For water loaded with mannitol, electrochemical treatment was the most suitable option because the additive did not significantly affect the efficiency of the system. Due to the formation of a complex with Fe3+, tartaric acid accelerated the elimination of antibiotic activity during the photo-Fenton process. For TiO2 photocatalysis, the presence of bicarbonate ions contributed to antibiotic activity elimination through the possible formation of carbonate and bicarbonate radicals. Sodium lauryl ether sulfate negatively affected all of the processes. However, due to the higher selectivity of HOCl compared with OH, electrochemical oxidation showed the least inhibited efficiency. For the urban wastewater doped with oxacillin, TiO2 photocatalysis was the most efficient process. These results will help select the most suitable technology for the treatment of water polluted with β-lactam antibiotics. [Display omitted] •Effect of additives on oxacillin removal was evaluated by three oxidation systems.•Tartaric acid favored the efficiency of the photo-Fenton processes.•Calcium carbonate did not affect the TiO2 photocatalytic system.•In the presence of mannitol and laureth sulfate, electrochemical process is efficient.•TiO2 photocatalysis removes the antibiotic activity from an urban wastewater.
doi_str_mv 10.1016/j.scitotenv.2015.10.029
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Combinations of the antibiotic with excipients (mannitol or tartaric acid), an active ingredient (calcium carbonate, i.e. bicarbonate ions due to the pH) and a cleaning agent (sodium lauryl ether sulfate) were considered. Additionally, urban wastewater that had undergone biological treatment was doped with oxacillin and treated with the tested systems. The evolution of antimicrobial activity was monitored as a parameter of processes efficiency. Although the two advanced oxidation processes (AOPs) differ only in the way they produce OH, marked differences were observed between them. There were also differences between the AOPs and the electrochemical system. Interestingly, each additive had a different effect on each treatment. For water loaded with mannitol, electrochemical treatment was the most suitable option because the additive did not significantly affect the efficiency of the system. Due to the formation of a complex with Fe3+, tartaric acid accelerated the elimination of antibiotic activity during the photo-Fenton process. For TiO2 photocatalysis, the presence of bicarbonate ions contributed to antibiotic activity elimination through the possible formation of carbonate and bicarbonate radicals. Sodium lauryl ether sulfate negatively affected all of the processes. However, due to the higher selectivity of HOCl compared with OH, electrochemical oxidation showed the least inhibited efficiency. For the urban wastewater doped with oxacillin, TiO2 photocatalysis was the most efficient process. These results will help select the most suitable technology for the treatment of water polluted with β-lactam antibiotics. [Display omitted] •Effect of additives on oxacillin removal was evaluated by three oxidation systems.•Tartaric acid favored the efficiency of the photo-Fenton processes.•Calcium carbonate did not affect the TiO2 photocatalytic system.•In the presence of mannitol and laureth sulfate, electrochemical process is efficient.•TiO2 photocatalysis removes the antibiotic activity from an urban wastewater.</description><identifier>ISSN: 0048-9697</identifier><identifier>EISSN: 1879-1026</identifier><identifier>DOI: 10.1016/j.scitotenv.2015.10.029</identifier><identifier>PMID: 26479916</identifier><language>eng</language><publisher>Netherlands: Elsevier B.V</publisher><subject>Additives ; Advanced oxidation process ; Anodic oxidation ; Anti-Bacterial Agents - analysis ; Anti-Bacterial Agents - chemistry ; Antibiotics ; Bicarbonates ; Chlorides - chemistry ; Ethers ; Hydrogen Peroxide - chemistry ; Iron - chemistry ; Oxacillin - analysis ; Oxacillin - chemistry ; Oxidation-Reduction ; Pharmaceutics ; Photocatalysis ; Photolysis ; Sodium ; Sulfates ; Titanium - chemistry ; Titanium dioxide ; Waste Disposal, Fluid - methods ; Water matrix ; Water Pollutants, Chemical - analysis ; Water Pollutants, Chemical - chemistry ; Water treatment ; β-Lactam antibiotics</subject><ispartof>The Science of the total environment, 2016-01, Vol.541, p.1431-1438</ispartof><rights>2015 Elsevier B.V.</rights><rights>Copyright © 2015 Elsevier B.V. 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Due to the formation of a complex with Fe3+, tartaric acid accelerated the elimination of antibiotic activity during the photo-Fenton process. For TiO2 photocatalysis, the presence of bicarbonate ions contributed to antibiotic activity elimination through the possible formation of carbonate and bicarbonate radicals. Sodium lauryl ether sulfate negatively affected all of the processes. However, due to the higher selectivity of HOCl compared with OH, electrochemical oxidation showed the least inhibited efficiency. For the urban wastewater doped with oxacillin, TiO2 photocatalysis was the most efficient process. These results will help select the most suitable technology for the treatment of water polluted with β-lactam antibiotics. 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Combinations of the antibiotic with excipients (mannitol or tartaric acid), an active ingredient (calcium carbonate, i.e. bicarbonate ions due to the pH) and a cleaning agent (sodium lauryl ether sulfate) were considered. Additionally, urban wastewater that had undergone biological treatment was doped with oxacillin and treated with the tested systems. The evolution of antimicrobial activity was monitored as a parameter of processes efficiency. Although the two advanced oxidation processes (AOPs) differ only in the way they produce OH, marked differences were observed between them. There were also differences between the AOPs and the electrochemical system. Interestingly, each additive had a different effect on each treatment. For water loaded with mannitol, electrochemical treatment was the most suitable option because the additive did not significantly affect the efficiency of the system. Due to the formation of a complex with Fe3+, tartaric acid accelerated the elimination of antibiotic activity during the photo-Fenton process. For TiO2 photocatalysis, the presence of bicarbonate ions contributed to antibiotic activity elimination through the possible formation of carbonate and bicarbonate radicals. Sodium lauryl ether sulfate negatively affected all of the processes. However, due to the higher selectivity of HOCl compared with OH, electrochemical oxidation showed the least inhibited efficiency. For the urban wastewater doped with oxacillin, TiO2 photocatalysis was the most efficient process. These results will help select the most suitable technology for the treatment of water polluted with β-lactam antibiotics. [Display omitted] •Effect of additives on oxacillin removal was evaluated by three oxidation systems.•Tartaric acid favored the efficiency of the photo-Fenton processes.•Calcium carbonate did not affect the TiO2 photocatalytic system.•In the presence of mannitol and laureth sulfate, electrochemical process is efficient.•TiO2 photocatalysis removes the antibiotic activity from an urban wastewater.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>26479916</pmid><doi>10.1016/j.scitotenv.2015.10.029</doi><tpages>8</tpages><orcidid>https://orcid.org/0000-0003-4583-9849</orcidid><oa>free_for_read</oa></addata></record>
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source MEDLINE; Elsevier ScienceDirect Journals
subjects Additives
Advanced oxidation process
Anodic oxidation
Anti-Bacterial Agents - analysis
Anti-Bacterial Agents - chemistry
Antibiotics
Bicarbonates
Chlorides - chemistry
Ethers
Hydrogen Peroxide - chemistry
Iron - chemistry
Oxacillin - analysis
Oxacillin - chemistry
Oxidation-Reduction
Pharmaceutics
Photocatalysis
Photolysis
Sodium
Sulfates
Titanium - chemistry
Titanium dioxide
Waste Disposal, Fluid - methods
Water matrix
Water Pollutants, Chemical - analysis
Water Pollutants, Chemical - chemistry
Water treatment
β-Lactam antibiotics
title Comparative study of the effect of pharmaceutical additives on the elimination of antibiotic activity during the treatment of oxacillin in water by the photo-Fenton, TiO2-photocatalysis and electrochemical processes
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