• Title of article

    Importance of palladium dispersion in Pd/Al2O3 catalysts for complete oxidation of humid low-methane–air mixtures

  • Author/Authors

    Beata Stasinska، نويسنده , , Andrzej Machocki، نويسنده , , Katarzyna Antoniak، نويسنده , , Marek Rotko، نويسنده , , José L. Figueiredo، نويسنده , , Filomena Gonçalves، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2008
  • Pages
    6
  • From page
    329
  • To page
    334
  • Abstract
    The catalytic oxidation is considered as an environmental benign method for utilization of various methane-poor gas mixtures, including humid post-ventilation air of coal mines. The small crystallites of palladium phase in the Pd/Al2O3 catalyst decrease temperatures necessary to ignite the methane oxidation reaction and to achieve complete conversion of methane. The isotopic exchange of oxygen between the catalyst and the gas phase, the temperature-programmed reduction (TPR) with methane and the X-ray photoelectron spectroscopy studies suggest that it can result from a higher number of the Pd–PdO sites present on the catalysts with small palladium crystallites. The inhibiting effect of water vapour present in the reaction mixture increases with lower dispersion of palladium phase as well as with the water concentration in the feed. The larger palladium crystallites are more significantly affected by the presence of water. It is suggested that water vapour blocks the Pd–PdO active sites. The catalysts with small crystallites (<6.6 nm) of palladium can be successfully used for mitigation of the emission of methane from coal mine post-ventilation air and, after increasing of the methane concentration to 1–2 vol.%, for its utilization for the energy production. In the case of such catalysts even a high concentration of water vapour has the least negative influence on the catalyst activity and it will not interfere with obtaining of the 100% conversion of methane below 650 °C.
  • Keywords
    Coal mine ventilation air , Utilization of methane , Catalytic oxidation of methane , Palladium catalysts , Water poisoning
  • Journal title
    CATALYSIS TODAY
  • Serial Year
    2008
  • Journal title
    CATALYSIS TODAY
  • Record number

    1236592