改性活性炭纤维负载锰铈复合氧化物低温选择性催化还原脱硝

Low-temperature SCR denitrification with manganese-cerium composite oxide supported on modified ACF

  • 摘要: 采用Ce-MnOx/ACFN对烟气进行低温选择性催化还原脱硝实验,分别考察了活性炭纤维(ACF)改性、Ce-MnOx负载量和Ce/Mn摩尔比以及操作条件对脱硝效率的影响.在70~110℃条件下,Ce-MnOx/ACFN作为选择性催化还原脱硝的催化剂具有良好的活性,其脱硝效率随烟气温度升高而升高.催化剂载体活性炭纤维经硝酸改性后脱硝效率有明显提高.随着Ce-MnOx负载量增加和Ce/Mn摩尔比增加,脱硝效率先升高后降低.随着入口烟气NH3/NO摩尔比增加,脱硝效率先升高后趋于稳定.当入口烟气中水蒸气体积分数大于8%时,脱硝效率随其增加而降低.

     

    Abstract: The low-temperature selective catalytic reduction (SCR) denitrification of a flue gas was carried out with Ce-MnOx/ACFN. The denitrification efficiencies were studied by modifying the activated carbon fibers (ACF) and changing the Ce-MnOx loading capacity, Ce/Mn molar ratio and operating conditions respectively. Ce-MnOx/ACFN as a SCR denitrification catalyst has good activity at 70-110℃. The denitrification efficiency increases with rising temperature, and it improves obviously after the ACF is modified by nitric acid. With the increasing of Ce-MnOx loading capacity and Ce/Mn molar ratio, the denitrification efficiency increases firstly and then decreases; but with the increasing of NH3/NO molar ratio in the inlet flue gas, it increases firstly and then tends to be stable. When the volume fraction of vapor in the inlet flue gas is above 8% the denitrification efficiency decreases with the vapor volume fraction increasing.

     

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