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Application of non-thermal plasma reactor and Fenton reaction for degradation of ibuprofen

Authorized Users Only
2015
Authors
Marković, Marijana
Jović, Milica
Stanković, Dalibor
Kovačević, Vesna V.
Roglić, Goran
Gojgić-Cvijović, Gordana D.
Manojlović, Dragan D.
Article (Published version)
Metadata
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Abstract
Pharmaceutical compounds have been detected frequently in surface and ground water. Advanced Oxidation Processes (AOPs) were reported as very efficient for removal of various organic compounds. Nevertheless, due to incomplete degradation, toxic intermediates can induce more severe effects than the parent compound. Therefore, toxicity studies are necessary for the evaluation of possible uses of AOPs. In this study the effectiveness and capacity for environmental application of three different AOPs were estimated. They were applied and evaluated for removal of ibuprofen from water solutions. Therefore, two treatments were performed in a non-thermal plasma reactor with dielectric barrier discharge with and without a homogenous catalyst (Fe2+). The third treatment was the Fenton reaction. The degradation rate of ibuprofen was measured by HPLC-DAD and the main degradation products were identified using LC-MS TOF. Twelve degradation products were identified, and there were differences accord...ing to the various treatments applied. Toxicity effects were determined with two bioassays: Vibrio fischeri and Artemia salina. The efficiency of AOPs was demonstrated for all treatments, where after 15 min degradation percentage was over 80% accompanied by opening of the aromatic ring. In the treatment with homogenous catalyst degradation reached 99%. V. fischeri toxicity test has shown greater sensitivity to ibuprofen solution after the Fenton treatment in comparison to A. salina. (C) 2014 Elsevier B.V. All rights reserved.

Keywords:
AOPs / Non-thermal plasma / Ibuprofen removal / Toxicity / V. fischeri / A. salina
Source:
Science of the Total Environment, 2015, 505, 1148-1155
Publisher:
  • Elsevier Science Bv, Amsterdam
Funding / projects:
  • Application of advanced oxidation processes and nanostructured oxide materials for the removal of pollutants from the environment, development and optimisation of instrumental techniques for efficiency monitoring (RS-172030)
  • Diagnostics and Optimization of Plasma Sources Important for Applications (RS-171034)
  • Integrated systems for flue gas cleansing and development of technologies for zero pollution power plants (RS-33022)
  • Simultaneous Bioremediation and Soilification of Degraded Areas to Preserve Natural Resources of Biologically Active Substances, and Development and Production of Biomaterials and Dietetic Products (RS-43004)

DOI: 10.1016/j.scitotenv.2014.11.017

ISSN: 0048-9697

PubMed: 25466684

WoS: 000347654900113

Scopus: 2-s2.0-84915749003
[ Google Scholar ]
69
61
URI
https://cherry.chem.bg.ac.rs/handle/123456789/1898
Collections
  • Publikacije
  • Publikacije
Institution/Community
Hemijski fakultet
TY  - JOUR
AU  - Marković, Marijana
AU  - Jović, Milica
AU  - Stanković, Dalibor
AU  - Kovačević, Vesna V.
AU  - Roglić, Goran
AU  - Gojgić-Cvijović, Gordana D.
AU  - Manojlović, Dragan D.
PY  - 2015
UR  - https://cherry.chem.bg.ac.rs/handle/123456789/1898
AB  - Pharmaceutical compounds have been detected frequently in surface and ground water. Advanced Oxidation Processes (AOPs) were reported as very efficient for removal of various organic compounds. Nevertheless, due to incomplete degradation, toxic intermediates can induce more severe effects than the parent compound. Therefore, toxicity studies are necessary for the evaluation of possible uses of AOPs. In this study the effectiveness and capacity for environmental application of three different AOPs were estimated. They were applied and evaluated for removal of ibuprofen from water solutions. Therefore, two treatments were performed in a non-thermal plasma reactor with dielectric barrier discharge with and without a homogenous catalyst (Fe2+). The third treatment was the Fenton reaction. The degradation rate of ibuprofen was measured by HPLC-DAD and the main degradation products were identified using LC-MS TOF. Twelve degradation products were identified, and there were differences according to the various treatments applied. Toxicity effects were determined with two bioassays: Vibrio fischeri and Artemia salina. The efficiency of AOPs was demonstrated for all treatments, where after 15 min degradation percentage was over 80% accompanied by opening of the aromatic ring. In the treatment with homogenous catalyst degradation reached 99%. V. fischeri toxicity test has shown greater sensitivity to ibuprofen solution after the Fenton treatment in comparison to A. salina. (C) 2014 Elsevier B.V. All rights reserved.
PB  - Elsevier Science Bv, Amsterdam
T2  - Science of the Total Environment
T1  - Application of non-thermal plasma reactor and Fenton reaction for degradation of ibuprofen
VL  - 505
SP  - 1148
EP  - 1155
DO  - 10.1016/j.scitotenv.2014.11.017
UR  - Kon_2781
ER  - 
@article{
author = "Marković, Marijana and Jović, Milica and Stanković, Dalibor and Kovačević, Vesna V. and Roglić, Goran and Gojgić-Cvijović, Gordana D. and Manojlović, Dragan D.",
year = "2015",
abstract = "Pharmaceutical compounds have been detected frequently in surface and ground water. Advanced Oxidation Processes (AOPs) were reported as very efficient for removal of various organic compounds. Nevertheless, due to incomplete degradation, toxic intermediates can induce more severe effects than the parent compound. Therefore, toxicity studies are necessary for the evaluation of possible uses of AOPs. In this study the effectiveness and capacity for environmental application of three different AOPs were estimated. They were applied and evaluated for removal of ibuprofen from water solutions. Therefore, two treatments were performed in a non-thermal plasma reactor with dielectric barrier discharge with and without a homogenous catalyst (Fe2+). The third treatment was the Fenton reaction. The degradation rate of ibuprofen was measured by HPLC-DAD and the main degradation products were identified using LC-MS TOF. Twelve degradation products were identified, and there were differences according to the various treatments applied. Toxicity effects were determined with two bioassays: Vibrio fischeri and Artemia salina. The efficiency of AOPs was demonstrated for all treatments, where after 15 min degradation percentage was over 80% accompanied by opening of the aromatic ring. In the treatment with homogenous catalyst degradation reached 99%. V. fischeri toxicity test has shown greater sensitivity to ibuprofen solution after the Fenton treatment in comparison to A. salina. (C) 2014 Elsevier B.V. All rights reserved.",
publisher = "Elsevier Science Bv, Amsterdam",
journal = "Science of the Total Environment",
title = "Application of non-thermal plasma reactor and Fenton reaction for degradation of ibuprofen",
volume = "505",
pages = "1148-1155",
doi = "10.1016/j.scitotenv.2014.11.017",
url = "Kon_2781"
}
Marković, M., Jović, M., Stanković, D., Kovačević, V. V., Roglić, G., Gojgić-Cvijović, G. D.,& Manojlović, D. D.. (2015). Application of non-thermal plasma reactor and Fenton reaction for degradation of ibuprofen. in Science of the Total Environment
Elsevier Science Bv, Amsterdam., 505, 1148-1155.
https://doi.org/10.1016/j.scitotenv.2014.11.017
Kon_2781
Marković M, Jović M, Stanković D, Kovačević VV, Roglić G, Gojgić-Cvijović GD, Manojlović DD. Application of non-thermal plasma reactor and Fenton reaction for degradation of ibuprofen. in Science of the Total Environment. 2015;505:1148-1155.
doi:10.1016/j.scitotenv.2014.11.017
Kon_2781 .
Marković, Marijana, Jović, Milica, Stanković, Dalibor, Kovačević, Vesna V., Roglić, Goran, Gojgić-Cvijović, Gordana D., Manojlović, Dragan D., "Application of non-thermal plasma reactor and Fenton reaction for degradation of ibuprofen" in Science of the Total Environment, 505 (2015):1148-1155,
https://doi.org/10.1016/j.scitotenv.2014.11.017 .,
Kon_2781 .

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