Catalytic degradation of Triclosan by using xenon light/GO @ TiO2 combination system: optimization of initial parameters

Catalytic degradation of Triclosan by using xenon light/GO @ TiO2 combination system: optimization of initial parameters

Background and Objective: Triclosan is one of the substances as anti-microbial that is used in many of these pharmaceutical products. This compound can affect human such as reduction of thyroid hormone levels, antibiotic resistant, and increasing skin cancer. This study evaluated the performance nan...

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Main Authors: N Golchinpour, N Rastkari, R Nabizadeh Nodehi, M Abtahi, A Azari, E Iravani, K Yaghmaeian
Format: Article
Language:fas
Published: Tehran University of Medical Sciences 2018-03-01
Series:سلامت و محیط
Subjects:
nanophotocatalysis
triclosan
graphene oxide
titanium dioxide
xenon lamp
Online Access:http://ijhe.tums.ac.ir/article-1-5959-en.html
id doaj-a3c955a94ede470fbe38958c9173e645
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spelling doaj-a3c955a94ede470fbe38958c9173e6452021-09-05T04:04:22ZfasTehran University of Medical Sciencesسلامت و محیط2008-20292008-37182018-03-01104443456Catalytic degradation of Triclosan by using xenon light/GO @ TiO2 combination system: optimization of initial parametersN Golchinpour0N Rastkari1R Nabizadeh Nodehi2M Abtahi3A Azari4E Iravani5K Yaghmaeian6 Center for Water Quality Research (CWQR), Institute for Environmental Research (IER), Tehran University of Medical Sciences, Tehran, Iran Center for Air Pollution Research (CAPR), Institute for Environmental Research (IER), Tehran University of Medical Sciences, Tehran, Iran Department of Environmental Health, School of Public Health, Tehran University of Medical Sciences, Tehran, Iran Department of Environmental Health Engineering, School of Public Health, Shahid Beheshti University of Medical Sciences, Tehran, Iran Department of Environmental Health, School of Public Health, Tehran University of Medical Sciences, Tehran, Iran AND Department of Environmental Health, School of Public Health, Kashan University of Medical Sciences, Kashan, Iran Department of Environmental Health, School of Public Health, Tehran University of Medical Sciences, Tehran, Iran Center for Water Quality Research (CWQR), Institute for Environmental Research (IER), Tehran University of Medical Sciences, Tehran, Iran AND Department of Environmental Health, School of Public Health, Tehran University of Medical Sciences, Tehran, Iran Background and Objective: Triclosan is one of the substances as anti-microbial that is used in many of these pharmaceutical products. This compound can affect human such as reduction of thyroid hormone levels, antibiotic resistant, and increasing skin cancer. This study evaluated the performance nanophotocatalysis process UV/Xe/TiO2-GO on triclosan removal from aqueous solutions. Materials and Methods: Synthesis of TiO2@GO and its structure was analyzed by SEM, EDX and FTIR. The effects of pollutant concentration, catalyst dosage, and contact time on the removal of Triclosan were studied by DOE software according to response surface methodology. Analysis of variance test was considered for the influence of parameters. Optimum process condition was determined by desirability factor. Results: Optimum conditions regarding concentration of pollutant, contact time, and catalyst dosage were determined as 0.205 g/L, 14.898 min, and 0.487 mg/L, respectively. Maximum removal efficiency in optimum condition was 97.542 percent. The catalyst dosage was the most effective parameter in removal of Triclosan. Conclusion: Using of TiO2@GO and xenon lamp had acceptable efficiency for the removal of Triclosan. The use of Xenon lamps alone was economically affordable.http://ijhe.tums.ac.ir/article-1-5959-en.htmlnanophotocatalysistriclosangraphene oxidetitanium dioxidexenon lamp
collection DOAJ
language fas
format Article
sources DOAJ
author N Golchinpour
N Rastkari
R Nabizadeh Nodehi
M Abtahi
A Azari
E Iravani
K Yaghmaeian
spellingShingle N Golchinpour
N Rastkari
R Nabizadeh Nodehi
M Abtahi
A Azari
E Iravani
K Yaghmaeian
Catalytic degradation of Triclosan by using xenon light/GO @ TiO2 combination system: optimization of initial parameters
سلامت و محیط
nanophotocatalysis
triclosan
graphene oxide
titanium dioxide
xenon lamp
author_facet N Golchinpour
N Rastkari
R Nabizadeh Nodehi
M Abtahi
A Azari
E Iravani
K Yaghmaeian
author_sort N Golchinpour
title Catalytic degradation of Triclosan by using xenon light/GO @ TiO2 combination system: optimization of initial parameters
title_short Catalytic degradation of Triclosan by using xenon light/GO @ TiO2 combination system: optimization of initial parameters
title_full Catalytic degradation of Triclosan by using xenon light/GO @ TiO2 combination system: optimization of initial parameters
title_fullStr Catalytic degradation of Triclosan by using xenon light/GO @ TiO2 combination system: optimization of initial parameters
title_full_unstemmed Catalytic degradation of Triclosan by using xenon light/GO @ TiO2 combination system: optimization of initial parameters
title_sort catalytic degradation of triclosan by using xenon light/go @ tio2 combination system: optimization of initial parameters
publisher Tehran University of Medical Sciences
series سلامت و محیط
issn 2008-2029
2008-3718
publishDate 2018-03-01
description Background and Objective: Triclosan is one of the substances as anti-microbial that is used in many of these pharmaceutical products. This compound can affect human such as reduction of thyroid hormone levels, antibiotic resistant, and increasing skin cancer. This study evaluated the performance nanophotocatalysis process UV/Xe/TiO2-GO on triclosan removal from aqueous solutions. Materials and Methods: Synthesis of TiO2@GO and its structure was analyzed by SEM, EDX and FTIR. The effects of pollutant concentration, catalyst dosage, and contact time on the removal of Triclosan were studied by DOE software according to response surface methodology. Analysis of variance test was considered for the influence of parameters. Optimum process condition was determined by desirability factor. Results: Optimum conditions regarding concentration of pollutant, contact time, and catalyst dosage were determined as 0.205 g/L, 14.898 min, and 0.487 mg/L, respectively. Maximum removal efficiency in optimum condition was 97.542 percent. The catalyst dosage was the most effective parameter in removal of Triclosan. Conclusion: Using of TiO2@GO and xenon lamp had acceptable efficiency for the removal of Triclosan. The use of Xenon lamps alone was economically affordable.
topic nanophotocatalysis
triclosan
graphene oxide
titanium dioxide
xenon lamp
url http://ijhe.tums.ac.ir/article-1-5959-en.html
work_keys_str_mv AT ngolchinpour catalyticdegradationoftriclosanbyusingxenonlightgotio2combinationsystemoptimizationofinitialparameters
AT nrastkari catalyticdegradationoftriclosanbyusingxenonlightgotio2combinationsystemoptimizationofinitialparameters
AT rnabizadehnodehi catalyticdegradationoftriclosanbyusingxenonlightgotio2combinationsystemoptimizationofinitialparameters
AT mabtahi catalyticdegradationoftriclosanbyusingxenonlightgotio2combinationsystemoptimizationofinitialparameters
AT aazari catalyticdegradationoftriclosanbyusingxenonlightgotio2combinationsystemoptimizationofinitialparameters
AT eiravani catalyticdegradationoftriclosanbyusingxenonlightgotio2combinationsystemoptimizationofinitialparameters
AT kyaghmaeian catalyticdegradationoftriclosanbyusingxenonlightgotio2combinationsystemoptimizationofinitialparameters
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