Details

Title

A novel process of dye wastewater treatment by linking advanced chemical oxidation with biological oxidation

Journal title

Archives of Environmental Protection

Yearbook

2015

Volume

vol. 41

Issue

No 4

Authors

Keywords

dye wastewater ; Fenton’s oxidation ; biological oxidation ; biological aerated filter ; Advanced oxidation processes

Divisions of PAS

Nauki Techniczne

Publisher

Polish Academy of Sciences

Date

2015[2015.01.01 AD - 2015.12.31 AD]

Type

Artykuły / Articles

Identifier

DOI: 10.1515/aep-2015-0037 ; ISSN 2083-4772 ; eISSN 2083-4810

Source

Archives of Environmental Protection; 2015; vol. 41; No 4

References

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Kang (2000), Effects of reaction conditions on the oxidation efficiency in the Fenton process, Water Research, 34, 10, doi.org/10.1016/S0043-1354(99)00388-7 ; Shannon (2008), Science and technology for water purification in the coming decades, Nature, 452. ; Sanchis (2014), Coupling Fenton and biological oxidation for the removal of nitrochlorinated herbicides from water, Water Research, 49, 197, doi.org/10.1016/j.watres.2013.11.033 ; Feng (2012), The characteristics and application of grain - slag media in a biological aerated filter, Journal of Industrial and Engineering Chemistry, 18, 1051, doi.org/10.1016/j.jiec.2011.12.005 ; Wang (2009), Pilot study on the advanced treatment of landfill leachate using a combined coagulation , fenton oxidation and biological aerated filter process, Waste Management, 29, 1354, doi.org/10.1016/j.wasman.2008.10.006 ; Rozas (2010), Experimental design of Fenton and photo - Fenton reactions for the treatment of ampicillin solutions, Journal of Hazardous Materials, 177. ; Namkung (2005), A Fenton - like oxidation process using corrosion of iron metal sheet surfaces in the presence of hydrogen peroxide : a batch process study using model pollutants, Environmental Technology, 26, 341, doi.org/10.1080/09593332608618564 ; Szpyrkowicz (2001), A comparative study on oxidation of disperse dyes by electrochemical process ozone hypochlorite and Fenton reagent, Water Research, 35, 2129, doi.org/10.1016/S0043-1354(00)00487-5 ; Lodha (2007), Optimization of Fenton - biological treatment scheme for the treatment of aqueous dye solutions, Journal of Hazardous Materials, 148. ; Chen (2007), Treatment of pesticide wastewater by moving - bed biofilm reactor combined with Fenton - coagulation pretreatment, Journal of Hazardous Materials, 144. ; Chen (2009), Coupled biological and photo - Fenton pretreatment system for the removal of di - - ethylhexyl ) phthalate from water, Bioresource Technology, 100, 4531, doi.org/10.1016/j.biortech.2009.04.020 ; Qiu (2010), Performances and nitrification properties of biological aerated filters with zeolite , ceramic particle and carbonate media, Bioresource Technology, 101, 7245, doi.org/10.1016/j.biortech.2010.04.034 ; Sun (2009), Decolorization of an azo dye Orange G in aqueous solution by Fenton oxidation process : Effect of system parameters and kinetic study, Journal of Hazardous Materials, 161. ; Vilar (2012), Biodegradability enhancement of a pesticide - containing bio - treated wastewater using a solar photo - Fenton treatment step followed by a biological oxidation process, Water Research, 46, 15, doi.org/10.1016/j.watres.2012.06.038 ; Kallel (2009), Olive mill wastewater degradation by Fenton oxidation with zero - valent iron and hydrogen peroxide, Journal of Hazardous Materials, 163. ; Duesterberg (2008), pH effects on iron - catalyzed oxidation using Fenton s reagent, Environmental Science & Technology, 42, 22, doi.org/10.1021/es801720d ; Malachova (2013), Biodegradation and detoxification potential of rotating biological contactor with Irpex lacteus for remediation of dye - containing wastewater, Water Research, 47, 7143, doi.org/10.1016/j.watres.2013.07.050 ; Feng (2012), Production of sorption functional media from clinoptilolite tailings and its performance investigation in a biological aerated filter reactor, Journal of Hazardous Materials, 15, 246. ; Wang (2012), Combined Fenton ' s oxidation and biological aerated filter process reduces chemical dosage, Environmental Engineering Science, 29, 248, doi.org/10.1089/ees.2010.0164 ; Oller (2011), Combination of advanced oxidation processes and biological treatments f or wastewater decontamination - a review, Science of the Total Environment, 20, 409. ; Zhang (2013), Aerobic SMBR / reverse osmosis system enhanced by Fenton oxidation for advanced treatment of old municipal landfill leachate, Bioresource Technology, 142. ; Papic (2006), Advanced oxidation processes in azo dye wastewater treatment, Water Environment Research, 78, 572, doi.org/10.2175/106143006X101665 ; Neyens (2003), A review of classic Fenton s peroxidation as an advanced oxidation technique o f Hazardous Materials, Journal, 98, 33. ; Rizzo (2011), Bioassays as a tool for evaluating advanced oxidation processes in water and wastewater treatment, Water Research, 45, 15, doi.org/10.1016/j.watres.2011.05.035 ; Mackulák (2012), Reduction of ostazine dyes p hotodynamic effect by Fenton reaction, Chemical Papers, 66, 156, doi.org/10.2478/s11696-011-0104-4 ; 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