A combined degradation of dyes and inactivation of viruses by UV and UV/H2O2

► Fluorescent dye degradation rate in mixtures is lower than in model solutions. ► Hydroxyl radicals are less decomposing dyes and more inactivate viruses. ► Two additional logs of MS2 inactivation were obtained in UV/0.2M H2O2. ► Phi X 174 and T4 are inactivated by direct UV irradiation only. An ad...

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Published in	Chemical engineering journal (Lausanne, Switzerland : 1996) Vol. 192; pp. 164 - 170
Main Authors	Timchak, Elena, Gitis, Vitaly
Format	Journal Article
Language	English
Published	Oxford Elsevier B.V 01.06.2012 Elsevier
Subjects	Applied sciences Chemical engineering Cryptosporidium parvum Disinfection Exact sciences and technology Free radical General purification processes Hydrogen peroxide Pollution Reactors UV irradiation Wastewaters Water treatment and pollution Disinfection UV irradiation Hydrogen peroxide Cryptosporidium parvum Free radical Availability Protozoa Apicomplexa Dyes Continuous process Pollutant Ultraviolet radiation Bleaching Pathogenic Metabolic inactivation Oxidation Waste water purification Reactor
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ISSN	1385-8947 1873-3212
DOI	10.1016/j.cej.2012.03.054

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Abstract	► Fluorescent dye degradation rate in mixtures is lower than in model solutions. ► Hydroxyl radicals are less decomposing dyes and more inactivate viruses. ► Two additional logs of MS2 inactivation were obtained in UV/0.2M H2O2. ► Phi X 174 and T4 are inactivated by direct UV irradiation only. An advanced UV/H2O2 oxidation process is a popular wastewater treatment option that combines the inactivation of pathogenic microorganisms with the oxidation of organic pollutants. While a separate decomposition of viruses and organics has been a subject of several studies, no research on the possible mutual influence of the two during UV and UV/H2O2 processes has been conducted yet. We investigated inactivation of MS2, phi X 174 and T4 viruses, alone and jointly with the degradation of two fluorescent dyes, rhodamine B and fluorescein. Complex dye-virus experiments were performed in mixed suspensions of free floating and conjugated species. The studies were performed in collimated beam and in continuous-flow UV reactors and showed that the inactivation of viruses is not affected by the presence of dyes but can be improved by the addition of hydrogen peroxide. The addition of 0.2M H2O2 at 70mJ/cm2 increased the inactivation of MS2 by two logs and had no effect on phi X 174 and T4. The bleaching of fluorescent dyes in the presence of viruses was decreased due to limited availability of hydroxyl radicals and their preferential participation in virus inactivation.
AbstractList	An advanced UV/H2O2 oxidation process is a popular wastewater treatment option that combines the inactivation of pathogenic microorganisms with the oxidation of organic pollutants. While a separate decomposition of viruses and organics has been a subject of several studies, no research on the possible mutual influence of the two during UV and UV/H2O2 processes has been conducted yet. We investigated inactivation of MS2, phi X 174 and T4 viruses, alone and jointly with the degradation of two fluorescent dyes, rhodamine B and fluorescein. Complex dye-virus experiments were performed in mixed suspensions of free floating and conjugated species. The studies were performed in collimated beam and in continuous-flow UV reactors and showed that the inactivation of viruses is not affected by the presence of dyes but can be improved by the addition of hydrogen peroxide. The addition of 0.2 M H2O2 at 70 mJ/cm2 increased the inactivation of MS2 by two logs and had no effect on phi X 174 and T4. The bleaching of fluorescent dyes in the presence of viruses was decreased due to limited availability of hydroxyl radicals and their preferential participation in virus inactivation. ► Fluorescent dye degradation rate in mixtures is lower than in model solutions. ► Hydroxyl radicals are less decomposing dyes and more inactivate viruses. ► Two additional logs of MS2 inactivation were obtained in UV/0.2M H2O2. ► Phi X 174 and T4 are inactivated by direct UV irradiation only. An advanced UV/H2O2 oxidation process is a popular wastewater treatment option that combines the inactivation of pathogenic microorganisms with the oxidation of organic pollutants. While a separate decomposition of viruses and organics has been a subject of several studies, no research on the possible mutual influence of the two during UV and UV/H2O2 processes has been conducted yet. We investigated inactivation of MS2, phi X 174 and T4 viruses, alone and jointly with the degradation of two fluorescent dyes, rhodamine B and fluorescein. Complex dye-virus experiments were performed in mixed suspensions of free floating and conjugated species. The studies were performed in collimated beam and in continuous-flow UV reactors and showed that the inactivation of viruses is not affected by the presence of dyes but can be improved by the addition of hydrogen peroxide. The addition of 0.2M H2O2 at 70mJ/cm2 increased the inactivation of MS2 by two logs and had no effect on phi X 174 and T4. The bleaching of fluorescent dyes in the presence of viruses was decreased due to limited availability of hydroxyl radicals and their preferential participation in virus inactivation.
Author	Timchak, Elena Gitis, Vitaly
Author_xml	– sequence: 1 givenname: Elena surname: Timchak fullname: Timchak, Elena organization: Unit of Environmental Engineering, Ben-Gurion University of the Negev, P.O. Box 653, Beer-Sheva 84105, Israel – sequence: 2 givenname: Vitaly surname: Gitis fullname: Gitis, Vitaly email: gitis@bgu.ac.il organization: Unit of Environmental Engineering, Ben-Gurion University of the Negev, P.O. Box 653, Beer-Sheva 84105, Israel
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Keywords	Disinfection UV irradiation Hydrogen peroxide Cryptosporidium parvum Free radical Availability Protozoa Apicomplexa Dyes Continuous process Pollutant Ultraviolet radiation Bleaching Pathogenic Metabolic inactivation Oxidation Waste water purification Reactor
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Snippet	► Fluorescent dye degradation rate in mixtures is lower than in model solutions. ► Hydroxyl radicals are less decomposing dyes and more inactivate viruses. ►... An advanced UV/H2O2 oxidation process is a popular wastewater treatment option that combines the inactivation of pathogenic microorganisms with the oxidation...
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SubjectTerms	Applied sciences Chemical engineering Cryptosporidium parvum Disinfection Exact sciences and technology Free radical General purification processes Hydrogen peroxide Pollution Reactors UV irradiation Wastewaters Water treatment and pollution
Title	A combined degradation of dyes and inactivation of viruses by UV and UV/H2O2
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