Organic Pollutants - Monitoring, Risk and Treatment 2013
DOI: 10.5772/53188
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Application of Different Advanced Oxidation Processes for the Degradation of Organic Pollutants

Abstract: chemical structures into substances that are less toxic and/or more readily biodegradable by employing chemical oxidizing agents in the presence of an appropriate catalyst and/or ultraviolet light to oxidize or degrade the pollutant of interest. These technologies known as advanced oxidation processes (AOP) or advanced oxidation technologies (AOT), have been widely studied for the degradation of diverse types of industrial wastewaters. These processes are particularly interesting for the treatment of effluents… Show more

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Cited by 29 publications
(19 citation statements)
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“…The hydroxyl radical is highly reactive and non-selective against refractory organic pollutants with subsequent conversion of the pollutants to CO 2 , H 2 O, and mineral acids. In the last couple of years, AOPs have been extensively exploited and reported in the literature for the degradation of different wastewater containing contaminants such as pesticides, pharmaceuticals, endocrine disruptors, and dye molecules (Stasinakis 2008;Saien et al 2011;Machulek Jr et al 2013). AOPs could be generally classified into (1) homogeneous AOPs and (2) heterogeneous AOPs.…”
Section: Advanced Oxidation Processesmentioning
confidence: 99%
“…The hydroxyl radical is highly reactive and non-selective against refractory organic pollutants with subsequent conversion of the pollutants to CO 2 , H 2 O, and mineral acids. In the last couple of years, AOPs have been extensively exploited and reported in the literature for the degradation of different wastewater containing contaminants such as pesticides, pharmaceuticals, endocrine disruptors, and dye molecules (Stasinakis 2008;Saien et al 2011;Machulek Jr et al 2013). AOPs could be generally classified into (1) homogeneous AOPs and (2) heterogeneous AOPs.…”
Section: Advanced Oxidation Processesmentioning
confidence: 99%
“…AOPs occur in two steps: in situ formation of radicals and their reaction with organic or biological pollutants [21]. These technologies are based on the use of a broad range of photocatalysts, TiO 2 being the most used, or the combination of oxidants such as hydrogen peroxide, peroxymonosulfate or persulfate with metal catalysts or ultraviolet (UV) radiation [24]. AOPs based on the generation of hydroxyl radicals are the most deliberated treatments.…”
Section: Introductionmentioning
confidence: 99%
“…Oxidation potential of commonly used oxidants [26]. One of the most studied AOPs is the Fenton's reagent and its variations, where iron species (mainly Fe 2+ ) is used as catalyst and hydrogen peroxide acts as oxidant [23][24][25][26]. This technology presents some operation problems that have to be addressed [22,23] Restricted pH working range (pH 2-4) 3.…”
Section: Introductionmentioning
confidence: 99%
“…Flr degradation by the Fe-based Fenton reagent accounted for 25.96, 14.26, 6.25, and 7.76% more degradation than that for the Zn-based Fenton reagent at 0.25, 0.5, 1, and 2 h of UV exposure, respectively. The mode of action of the Zn-based Fenton reagent could be different from that for the Fe-based Fenton reagent, summarized as [36,37] Zn…”
Section: Pah Degradationmentioning
confidence: 99%