Automotive fleet repair facility wastewater treatment using air/ZVI and air/ZVI/H2O2 processes

Journal title

Archives of Environmental Protection




No 3

Publication authors

Divisions of PAS

Nauki Techniczne


Polish Academy of Sciences




ISSN 2083-4772 ; eISSN 2083-4810


Cao (1999), Reductive degradation of azo dye by zero valent iron in aqueous solution, Chemosphere, 565. ; Piecuch (null), ścieków ze stacji naprawy samochodów Annual Set The Environment Protection, null, 17, 2015. ; Chang (2006), Reductive decolorization and total organic carbon reduction of the diazo dye CI Acid Black by zero - valent iron powder of Chemical Technology and, Journal Biotechnology, 24, 1259. ; Babuponnusami (2014), on Fenton and improvements to the Fenton process for wastewater treatment of Environmental Chemical, review Journal Engineering, 557. ; Grcic (2012), Zero - valent iron oxidation of reactive dye wastewater under UV solar irradiation, Chemical Engineering Journal, 195. ; Pourrezaei (2014), Din Removal of organic compounds and trace metals from oil sands process - affected water using zero valent iron enhanced by petroleum coke of, Journal Environmental Management, 139. ; Zhang (2014), nanoparticles as high - performance like catalyst for dye decoloration Chinese, Science Bulletin, 59. ; Rozporządzenie Ministra (2014), Środowiska dnia listopada sprawie warunków jakie należy spełnić przy wprowadzaniu ścieków do wód lub do ziemi oraz w sprawie substancji szczególnie szkodliwych dla środowiska wodnego, null, 18. ; Dong (2010), Effects of pH and particle size on kinetics of nitrobenzene reduction by zero - valent iron of, Journal Environmental Sciences, 22, 1741. ; Zhang (2005), Optimization of Fenton process for the treatment of landfill leachate of, Journal Hazardous Materials, 125. ; Shen (2013), Pretreatment of dinitroanisole producing wastewater using a combined zero - valent iron reduction oxidation process of, Journal Hazardous Materials, 260. ; Lau (2001), Organic removal of anaerobically treated leachate by coagulation of Environmental, Journal Engineering, 27, 666. ; Kang (2000), Effect of reaction conditions on the oxidation efficiency in the process, Water Research, 2786. ; Moon (2011), oxidation of Orange II by pre - reduction using nanoscale zero - valent iron, Desalination, 268. ; Martins (2014), Quinta s process over iron shavings for surfactants removal, Environmental Technology, 2380. ; Fateminia (2013), Zero valent nano - sized iron / clinoptilolite modified with zero valent copper for reductive nitrate removal Safety and Environmental Protection, Process, 304. ; Yang (null), SiO nanoparticles as a high - performance - like catalyst in a neutral environment Advances, null, 5, 2015. ; Lai (2007), Advanced treatment of coking wastewater by coagulation and zero - valent iron processes of, Journal Hazardous Materials, 147. ; Deng (2006), Treatment of landfill leachate by the process, Water Research, 3683. ; Segura (2013), Effective pharmaceutical wastewater degradation by Fenton oxidation with zero - valent iron -, Applied Catalysis Environmental, 136. ; Naumczyk (2012), Landfill leachates treatment by UV modified modified Photo of, methods International Journal Photoenergy, ; Fjordbøge (2013), Zero valent iron reduces toxicity and concentrations of organophosphate pesticides in contaminated groundwater, Chemosphere, 627. ; Barreto (2009), Optimization of Brazilian TNT industry wastewater treatment using combined zero - valent iron and processes of, Journal Hazardous Materials, 168. ; Devi (2009), Photo degradation of Methyl Orange an azo dye by advanced Fenton process using zero valent metallic iron : influence of various reaction parameters and its degradation mechanism of, Journal Hazardous Materials, 164. ; Makowska (2016), Treatment of wastewater from service areas at motorways of Environmental Protection, Archives, 80. ; Kim (2011), Effect of magnetic field on the zero valent iron induced oxidation reaction of, Journal Hazardous Materials, 192. ; Shimizu (2012), Phenol removal using zero - valent iron powder in the presence of dissolved oxygen : Roles of decomposition by the Fenton reaction and adsorption precipitation of, Journal Hazardous Materials, 201. ; Suzuki (2012), Mechanism of nitrate reduction by zero - valent iron : Equilibrium and kinetics studies, Chemical Engineering Journal, 183. ; Marcinowski (2014), Cosmetic wastewater treatment using the Photo UV processes of Part, Journal Environmental Science Health, 49. ; Fan (2009), Rapid decolorization of azo dye methyl orange in aqueous solution by nanoscale zerovalent iron particles of, Journal Hazardous Materials, 166. ; Taha (2014), Characterization of nano zero - valent iron nZVI and its application in sono - Fenton process to remove COD in palm oil mill effluent of Environmental Chemical, Journal Engineering, 1. ; Bautitz (2012), Zero valent iron mediated degradation of the pharmaceutical diazepam, Chemosphere, 688. ; Chen (2001), Effects of pH on dechlorination of trichloroethylene by zero - valent iron of, Journal Hazardous Materials, 243. ; Weng (2013), Decolourization of direct blue by ultrasonic process using a zero - valent iron aggregate catalyst, Ultrasonics Sonochemistry, 15, 970. ; Yang (null), TiO doped nanoparticles as high - performance like catalyst for dye decoloration China Technological, Science Sciences, 2015. ; Rubio (2014), Removal of polycyclic aromatic hydrocarbons in aqueous environment by chemical treatments of the, review Science Total Environment, 478. ; Sun (2014), Xi degradation enhanced by air bubbles via advanced oxidation using in situ generated ferrous ions from nano zero - valent iron / palygorskite composite materials, Chemical Engineering Journal, 247.