基于co基多组分催化剂的沼气重整制合成气

S. Itkulova, G. D. Zakumbaeva, A. Mukazhanova, Y. Y. Nurmakanov
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引用次数: 4

摘要

以氧化铝为载体,添加8族金属和稀土元素的新型多组分co基催化剂在模型沼气的干式和汽式转化中进行了试验。该过程在石英流动反应器中进行,条件为常压,气体每小时空速为1000 h−1,温度为300-800℃。采用电子显微镜、BET和x射线分析对催化剂进行了表征。在T≤800℃的条件下,沼气在干式重整中几乎完全转化。多组分催化剂上沼气重整的主要产物是H2/CO>1.0的合成气。在进料组合物中加入蒸汽可在较低温度下提高甲烷转化率和氢气产量。沼气蒸汽重整在T<750℃时甲烷几乎完全转化。该催化剂在100小时的连续测试中表现出稳定的活性。
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Syngas production by biogas reforming over the Co-based multicomponent catalysts
The new multicomponent Co-based catalysts with additives of group 8 metal and rare earth elements and supported on alumina have been tested in the dry and steam conversion of a model biogas. The processes were carried out in a flow quartz reactor under the following conditions: atmospheric pressure, a gas hourly space velocity of 1000 h−1 and temperatures of 300–800°C. The catalysts were characterised using electron microscopy, BET and X-ray analysis.The methane is almost completely converted in the dry reforming of biogas at T≤800°C. Synthesis gas with a ratio of H2/CO>1.0 is a main product of biogas reforming over the multicomponent catalysts studied. Adding steam in a feed composition increases both the methane conversion and the hydrogen yield at lower temperatures. Almost complete methane conversion occurs at T<750°C in the steam reforming of biogas. The catalysts are highly effective and exhibit stable activity throughout 100 h of continuous testing.
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