• Title of article

    Durability of a Ni based monolithic catalyst in the autothermal reforming of biogas

  • Author/Authors

    Araki، نويسنده , , Sadao and Hino، نويسنده , , Naoe and Mori، نويسنده , , Takuma and Hikazudani، نويسنده , , Susumu، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2009
  • Pages
    8
  • From page
    4727
  • To page
    4734
  • Abstract
    A Ni based catalyst supported on a cordierite monolithic substrate was applied to the autothermal reforming (ATR) of biogas to produce hydrogen. When the feed rates of oxygen and steam were constant, the Steam/CH4 (S/CH4) and O2/CH4 ratios changed because of an increase or decrease in the methane concentration of the biogas. The concentration of methane in the biogas fluctuates roughly between 35% and 65% according to factors such as the properties or amount of the waste. Therefore, the effect of S/CH4 and O2/CH4 ratios on catalyst durability was confirmed by using actual biogas, which was produced by anaerobic fermentation of biomass at the biogasification bench-scale plant in Kyoto. Reforming reactions were carried out at ratios of S/CH4 = 0–4, O2/CH4 = 0.5 and at S/CH4 = 2, O2/CH4 = 0.6. The S/CH4 range of 0–2.0 and the O2/CH4 range of 0.5–0.6 had no effect on the catalyst durability and a S/CH4 ratio of more than 3.0 led to decreased catalytic performance. biogas contains minor components such as hydrogen sulfide, siloxanes and other organic materials. It was difficult to completely remove these compounds. The influence of these compounds was investigated during an experiment, which lasted for 250 h using actual biogas. We confirmed that the residual organic compounds had no effect on the catalytic activity, and that a stable performance was obtained under suitable conditions for the feed rate of steam and oxygen.
  • Keywords
    Autothermal reforming , Biogas , Hydrogen production , durability , Monolithic catalyst
  • Journal title
    International Journal of Hydrogen Energy
  • Serial Year
    2009
  • Journal title
    International Journal of Hydrogen Energy
  • Record number

    1657894