New Evidence of the Enhanced Elimination of a Persistent Drug Used as a Lipid Absorption Inhibitor by Advanced Oxidation with UV-A and Nanosized Catalysts
This work demonstrates new evidence of the efficient destruction and mineralization of an emergent organic pollutant using UV-A and titanium nanosized catalysts. The target compound considered in this work is the primary metabolite of a lipid regulator drug, clofibrate, identified in many studies as...
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MDPI AG
2019-09-01
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| Series: | Catalysts |
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| Online Access: | https://www.mdpi.com/2073-4344/9/9/761 |
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doaj-4ae2a90e5b3c4a44b242e5a36a9f8ee32020-11-25T01:33:11ZengMDPI AGCatalysts2073-43442019-09-019976110.3390/catal9090761catal9090761New Evidence of the Enhanced Elimination of a Persistent Drug Used as a Lipid Absorption Inhibitor by Advanced Oxidation with UV-A and Nanosized CatalystsNarcisa Vrinceanu0Raluca Maria Hlihor1Andrei Ionut Simion2Lacramioara Rusu3Ildikó Fekete-Kertész4Noureddine Barka5Lidia Favier6Department of Industrial Machines and Equipment, Faculty of Engineering, “Lucian Blaga” University of Sibiu, 2-4 Emil Cioran Street, 550024 Sibiu, RomaniaDepartment of Horticultural Technologies, Faculty of Horticulture, University of Agricultural Sciences and Veterinary Medicine of Iasi, 3 Mihail Sadoveanu Alley, 700490 Iasi, RomaniaDepartment of Chemical and Food Engineering, Faculty of Engineering, University of Bacau, 157 Calea Marasesti, 600115 Bacau, RomaniaDepartment of Chemical and Food Engineering, Faculty of Engineering, University of Bacau, 157 Calea Marasesti, 600115 Bacau, RomaniaDepartment of Applied Biotechnology and Food Science, Budapest University of Technology and Economics, H-1111 Budapest, HungaryResearch Group in Environmental Sciences and Applied Materials (SEMA), Sultan Moulay Slimane University of Beni Mellal, FP Khouribga, B.P. 145, 25000 Khouribga, MoroccoEcole Nationale Supérieure de Chimie de Rennes, Univ Rennes, CNRS, ISCR–UMR6226, F-35000 Rennes, FranceThis work demonstrates new evidence of the efficient destruction and mineralization of an emergent organic pollutant using UV-A and titanium nanosized catalysts. The target compound considered in this work is the primary metabolite of a lipid regulator drug, clofibrate, identified in many studies as refractory during conventional wastewater treatment. The photocatalytic performance study was carried out in batch mode at laboratory scale, in aqueous suspension. Kinetic data showed that titanium dioxide P25 Aeroxide<sup>®</sup> exhibits the highest photocatalytic efficiency compared to the other investigated catalysts. Pollutant degradation and mineralization efficiencies strongly increased when decreasing the initial substrate concentration. Target molecules oxidized faster when the catalyst load increased, and the mineralization was enhanced under acidic conditions: 92% of mineralization was achieved at pH 4 after 190 min of reaction. Radical quenching assays confirmed that HO<sup>•</sup> and (<inline-formula> <math display="inline"> <semantics> <mrow> <msubsup> <mi mathvariant="normal">h</mi> <mrow> <mi>vb</mi> </mrow> <mo>+</mo> </msubsup> <mo stretchy="false">)</mo> </mrow> </semantics> </math> </inline-formula> were the reactive oxygen species involved in the photocatalytic oxidation of the considered pollutant. In addition, further results revealed that the removal efficiency decreased in real water matrices. Finally, data collected through a series of phytotoxicity tests demonstrated that the photocatalytic process considerably reduces the toxicity of the treated solutions, confirming the process’s effectiveness in the removal of persistent and biorefractory emergent organic water pollutants.https://www.mdpi.com/2073-4344/9/9/761emerging water pollutantspharmaceutic compoundstitania catalystsphotocatalysiskineticsdegradationmineralizationtoxicity |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Narcisa Vrinceanu Raluca Maria Hlihor Andrei Ionut Simion Lacramioara Rusu Ildikó Fekete-Kertész Noureddine Barka Lidia Favier |
| spellingShingle |
Narcisa Vrinceanu Raluca Maria Hlihor Andrei Ionut Simion Lacramioara Rusu Ildikó Fekete-Kertész Noureddine Barka Lidia Favier New Evidence of the Enhanced Elimination of a Persistent Drug Used as a Lipid Absorption Inhibitor by Advanced Oxidation with UV-A and Nanosized Catalysts Catalysts emerging water pollutants pharmaceutic compounds titania catalysts photocatalysis kinetics degradation mineralization toxicity |
| author_facet |
Narcisa Vrinceanu Raluca Maria Hlihor Andrei Ionut Simion Lacramioara Rusu Ildikó Fekete-Kertész Noureddine Barka Lidia Favier |
| author_sort |
Narcisa Vrinceanu |
| title |
New Evidence of the Enhanced Elimination of a Persistent Drug Used as a Lipid Absorption Inhibitor by Advanced Oxidation with UV-A and Nanosized Catalysts |
| title_short |
New Evidence of the Enhanced Elimination of a Persistent Drug Used as a Lipid Absorption Inhibitor by Advanced Oxidation with UV-A and Nanosized Catalysts |
| title_full |
New Evidence of the Enhanced Elimination of a Persistent Drug Used as a Lipid Absorption Inhibitor by Advanced Oxidation with UV-A and Nanosized Catalysts |
| title_fullStr |
New Evidence of the Enhanced Elimination of a Persistent Drug Used as a Lipid Absorption Inhibitor by Advanced Oxidation with UV-A and Nanosized Catalysts |
| title_full_unstemmed |
New Evidence of the Enhanced Elimination of a Persistent Drug Used as a Lipid Absorption Inhibitor by Advanced Oxidation with UV-A and Nanosized Catalysts |
| title_sort |
new evidence of the enhanced elimination of a persistent drug used as a lipid absorption inhibitor by advanced oxidation with uv-a and nanosized catalysts |
| publisher |
MDPI AG |
| series |
Catalysts |
| issn |
2073-4344 |
| publishDate |
2019-09-01 |
| description |
This work demonstrates new evidence of the efficient destruction and mineralization of an emergent organic pollutant using UV-A and titanium nanosized catalysts. The target compound considered in this work is the primary metabolite of a lipid regulator drug, clofibrate, identified in many studies as refractory during conventional wastewater treatment. The photocatalytic performance study was carried out in batch mode at laboratory scale, in aqueous suspension. Kinetic data showed that titanium dioxide P25 Aeroxide<sup>®</sup> exhibits the highest photocatalytic efficiency compared to the other investigated catalysts. Pollutant degradation and mineralization efficiencies strongly increased when decreasing the initial substrate concentration. Target molecules oxidized faster when the catalyst load increased, and the mineralization was enhanced under acidic conditions: 92% of mineralization was achieved at pH 4 after 190 min of reaction. Radical quenching assays confirmed that HO<sup>•</sup> and (<inline-formula>
<math display="inline">
<semantics>
<mrow>
<msubsup>
<mi mathvariant="normal">h</mi>
<mrow>
<mi>vb</mi>
</mrow>
<mo>+</mo>
</msubsup>
<mo stretchy="false">)</mo>
</mrow>
</semantics>
</math>
</inline-formula> were the reactive oxygen species involved in the photocatalytic oxidation of the considered pollutant. In addition, further results revealed that the removal efficiency decreased in real water matrices. Finally, data collected through a series of phytotoxicity tests demonstrated that the photocatalytic process considerably reduces the toxicity of the treated solutions, confirming the process’s effectiveness in the removal of persistent and biorefractory emergent organic water pollutants. |
| topic |
emerging water pollutants pharmaceutic compounds titania catalysts photocatalysis kinetics degradation mineralization toxicity |
| url |
https://www.mdpi.com/2073-4344/9/9/761 |
| work_keys_str_mv |
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