Catalytic Oxidation of CO Gas over Nanocrystallite Cu x </sub>Mn1?x </sub>Fe2</sub>O4</sub>

K. S. Abdel Halim; A. M. Ismail; M. H. Khedr; M. F. Abadir

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Catalytic Oxidation of CO Gas over Nanocrystallite Cu x Mn1?x Fe2O4

机译：纳米晶Cu x Mn1？x Fe2 O4 上的CO气催化氧化

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The catalytic oxidation of CO over nanocrystallite Cu x Mn(1?x)Fe2O4 powders was studied using advanced quadruple mass gas analyzer system. The oxidation of CO to CO2 was investigated as a function of reactants ratio and firing temperature of ferrite powders. The maximum CO conversion was observed for ferrite powders which have equal amount of Cu2+ and Mn2+ (Cu0.5Mn0.5Fe2O4). The high catalytic activity of Cu0.5Mn0.5Fe2O4 can be attributed to the changes of the valence state of catalytically active components of the ferrite powders. The firing temperature plays insignificant role in the catalytic activity of CO over nanocrystallite copper manganese ferrites. The mechanism of catalytic oxidation reactions was studied. It was found that the CO catalytic oxidation reactions on the surface of the Cu x Mn1?x Fe2O4 was done by the reduction of the ferrite by CO to the oxygen deficient lower oxide then re-oxidation of this phase to the saturated oxygen metal ferrite again.

机译：采用先进的四重质量气体分析仪系统研究了纳米晶Cu x （Mn（1？x） Fe2 O4 ）粉末上CO的催化氧化作用。研究了CO氧化为CO2 与反应物比例和铁氧体粉末烧结温度的关系。 Cu2 + 和Mn2 + （Cu0.5 Mn0.5 Fe2 O4 ）。 Cu0.5 Mn0.5 Fe2 O4 的高催化活性可归因于铁氧体粉末催化活性成分的价态变化。焙烧温度在CO对纳米微晶铜锰铁氧体的催化活性中起不重要的作用。研究了催化氧化反应的机理。结果发现，Cu x Mn1？x Fe2 O4 表面的CO催化氧化反应是通过将CO还原为氧而将铁氧体完成的。不足的低级氧化物，然后将该相再氧化为饱和氧金属铁氧体。

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来源
《Topics in Catalysis》 |2008年第2期|66-72|共7页
作者
K. S. Abdel Halim; A. M. Ismail; M. H. Khedr; M. F. Abadir;
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作者单位

Chemical Engineering Department Faculty of Engineering Cairo University Cairo Egypt;

Materials Chemistry Department Faculty of Science Beni Suef University Beni Suef Egypt;

Chemical Engineering Department Faculty of Engineering Cairo University Cairo Egypt;

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原文格式 PDF
正文语种 eng
中图分类
关键词
CO; Catalytic oxidation; Ferrites; Cun xn Mn(1?x)Fe2O4; Nanocrystallite;

机译：CO;催化氧化;铁素体;Cun xn Mn（1？x）Fe2O4;纳米微晶;

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Catalytic Oxidation of CO Gas over Nanocrystallite Cu x Mn1?x Fe2O4

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