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      영가철 기반 펜톤 시스템을 활용한 페놀의 산화분해 = Oxidative Degradation of Phenol Using Zero-Valent Iron-Based Fenton-Like Systems

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      https://www.riss.kr/link?id=A101661972

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      다국어 초록 (Multilingual Abstract)

      For the last couple of decades, the Fenton (-like) systems have been extensively studied for oxidation of organic contaminants in water. Recently, zero-valent iron (ZVI) has received attention as a Fenton catalyst as well as a reducing agent capable o...

      For the last couple of decades, the Fenton (-like) systems have been extensively studied for oxidation of organic contaminants in water. Recently, zero-valent iron (ZVI) has received attention as a Fenton catalyst as well as a reducing agent capable of producing reactive oxidants from oxygen. In this study, the ZVI-based Fenton reaction was assessed for the oxidative degradation of phenol using $ZVI/O_2$, $ZVI/H_2O_2$, ZVI/Oxalate/$O_2$ and hv/ZVI/Oxalate/$O_2$ systems. Reaction parameters such as pH and reagent dose (e.g., ZVI, $H_2O_2$, and oxalate) were examined. In the presence of oxalate (ZVI/Oxalate/$O_2$ and hv/ZVI/Oxalate/$O_2$ systems), the degradation of phenol was greatly enhanced at neutral pH values. It was found that ZVI accelerates the Fenton reaction by reducing Fe(III) into Fe(II). The conversion of Fe(III) into Fe(II) by ZVI was more stimulated at acidic pH than at near-neutral pH values.

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      참고문헌 (Reference)

      1 Jeong, J., "pH effect on OH radical production in photo/ferrioxalate system" 39 (39): 2893-2900, 2005

      2 Nam, S., "Substituent effects on azo dye oxidation by the Fe(III)-EDTA-H2O2 system" 45 (45): 59-65, 2001

      3 Roy, G., "Study of tropaeolin degradation by iron-proposition of a reaction mechanism" 37 (37): 4954-4964, 2003

      4 Tamura, H., "Spectrophotometric determination of iron(II) with 1,10- phenanthroline in the presence of large amounts of iron(III)" 21 (21): 314-318, 1974

      5 Roberts, A. L., "Reductive elimination of chlorinated ethylenes by zero-valent metals" 30 (30): 2654-2659, 1996

      6 Matheson, L.J., "Reductive Dehalogenation of Chlorinated Methanes by Iron Metal" 28 (28): 2045-2053, 1994

      7 Agrawal, A., "Reduction of nitro aromatic compounds by zero-valent iron metal" 30 (30): 153-160, 1996

      8 Zecevic, S., "Oxygen reduction on iron. Part IV. The reduction of hydrogen peroxide as the intermediate in oxygen reduction reaction in alkaline solutions" 36 (36): 5-14, 1991

      9 Zecevic, S., "Oxygen reduction on iron. Part III. An analysis of the rotating disk-ring electrode measurements in near neutral solutions" 265 (265): 179-193, 1989

      10 Joo, S. H., "Oxidative degradation of the carbothioate herbicide, molinate, using nanoscale zero-valent iron" 38 (38): 2242-2247, 2004

      1 Jeong, J., "pH effect on OH radical production in photo/ferrioxalate system" 39 (39): 2893-2900, 2005

      2 Nam, S., "Substituent effects on azo dye oxidation by the Fe(III)-EDTA-H2O2 system" 45 (45): 59-65, 2001

      3 Roy, G., "Study of tropaeolin degradation by iron-proposition of a reaction mechanism" 37 (37): 4954-4964, 2003

      4 Tamura, H., "Spectrophotometric determination of iron(II) with 1,10- phenanthroline in the presence of large amounts of iron(III)" 21 (21): 314-318, 1974

      5 Roberts, A. L., "Reductive elimination of chlorinated ethylenes by zero-valent metals" 30 (30): 2654-2659, 1996

      6 Matheson, L.J., "Reductive Dehalogenation of Chlorinated Methanes by Iron Metal" 28 (28): 2045-2053, 1994

      7 Agrawal, A., "Reduction of nitro aromatic compounds by zero-valent iron metal" 30 (30): 153-160, 1996

      8 Zecevic, S., "Oxygen reduction on iron. Part IV. The reduction of hydrogen peroxide as the intermediate in oxygen reduction reaction in alkaline solutions" 36 (36): 5-14, 1991

      9 Zecevic, S., "Oxygen reduction on iron. Part III. An analysis of the rotating disk-ring electrode measurements in near neutral solutions" 265 (265): 179-193, 1989

      10 Joo, S. H., "Oxidative degradation of the carbothioate herbicide, molinate, using nanoscale zero-valent iron" 38 (38): 2242-2247, 2004

      11 Zhou, T., "Oxidation of 4-chlorophenol in a heterogeneous zero valent iron/ H2O2 Fenton-like system: Kinetic, pathway and effect factors" 62 (62): 551-558, 2008

      12 Keenan, C.R., "Ligand-enhanced reactive oxidant generation by nanoparticulate zero-valent iron and oxygen" 42 (42): 6936-6941, 2008

      13 Lee, Y., "Influence of various reaction parameters on 2,4-D removal in photo/ ferrioxalate/H2O2 process" 51 : 901-912, 2003

      14 Safarzadeh-Amiri, A., "Ferrioxalate- mediated photodegradation of organic pollutants in contaminated water" 31 (31): 787-798, 1997

      15 Keenan, C.R., "Factors affecting the yield of oxidants from the reaction of nanoparticulate zerovalent iron and oxygen" 42 (42): 1262-1267, 2008

      16 Lee, C., "Enhanced formation of oxidants from bimetallic nickel-iron nanoparticles in the presence of oxygen" 42 (42): 8528-8533, 2008

      17 Xue, X., "Effect of chelating agent on the oxidation rate of PCP in the magnetite/H2O2 system at neutral pH" 311 (311): 29-35, 2009

      18 Buxton, G. V., "Critical review of rate constants for reactions of hydrated electrons, hydrogen atoms and hydroxyl radicals in aqueous solution" 17 (17): 513-886, 1988

      19 Eisenberg, G., "Colorimetric determination of hydrogen peroxide" 15 (15): 327-328, 1943

      20 Ruangchainikom, C., "Characteristics of nitrate reduction by zero-valent iron powder in the recirculated and CO2-bubbled system" 40 (40): 195-204, 2006

      21 Pham, A. L., "A silica- supported iron oxide catalyst capable of activating hydrogen peroxide at neutral pH values" 43 (43): 8930-8935, 2009

      22 Hatchard, C.G., "A new sensitive chemical actinometer. II. Potassium ferrioxalate as a standard chemical actinometer" 235 (235): 518-536, 1956

      23 Ministry of Environment, "2011 Annual groundwater quality monitoring report" 2012

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      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 0.3 0.3 0.35
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      0.35 0.36 0.568 0.05
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