• 关键词：氮氧化物  低温选择性催化还原(SCR)  Fe₂O₃/ACF  低温等离子体改性

• 基金项目：污染控制与生态修复广东省普通高等学校重点实验室资助项目;工业聚集区污染控制与生态修复教育部重点实验室

• 张武英
• 华南理工大学环境科学与工程学院, 广州 510006

• 黄碧纯
• 华南理工大学环境科学与工程学院, 广州 510006

• 周广英
• 1. 华南理工大学环境科学与工程学院, 广州 510006; 2. 华南师范大学化学与环境学院, 广州 510630

• 叶代启
• 华南理工大学环境科学与工程学院, 广州 510006

• 摘要：利用N₂低温等离子体对过量溶液浸渍法制备的Fe₂O₃/ACF(活性炭纤维)催化剂进行了改性,运用BET比表面积、扫描电子显微镜(SEM)、X射线衍射光谱(XRD)和傅立叶变换红外光谱(FT-IR)对催化剂进行表征.同时,对催化剂的NH₃选择性催化还原(SCR)NO的催化性能进行了研究.结果表明,活性组分最佳负载量的质量分数为10.3%;N₂等离子体改性最优改性电压为6kV,改性时间为3min;随着反应温度的升高,空白ACF上NO转化率先升高再下降,而催化剂上NO转化率呈上升趋势.在NO体积分数1000×10^-6、NH₃体积分数1000×10^-6、O₂体积分数5%、空速10040h^-1和反应温度240℃的条件下,催化剂3.7%Fe₂O₃/ACF和10.3%Fe₂O₃/ACF经N₂等离子体改性后,其NO转化率(相对于未改性的)分别提高了16.43%和6.84%.N₂等离子体改性催化剂提高了活性组分在ACF上的分散度,增加了ACF表面的含氮官能团,从而提高了催化剂的SCR低温活性.

• Abstract：A series of Fe₂O₃/ACF (activated carbon fiber) catalysts were prepared by excess solution impregnation and then modified with a non-thermal N₂ plasma at atmospheric pressure in a self-made wire-plate dielectric barrier discharge (DBD) apparatus. The relationship between the catalytic performance and the structure of the Fe₂O₃/ACF catalysts was explored using BET surface area measurement,scanning electron microscopy (SEM),X-ray powder diffraction (XRD) and Fourier transform infrared spectroscopy (FT-IR). The catalytic activity for the selective catalytic reduction (SCR) of NO with NH₃ in O₂ at temperatures between 120℃ and 240℃ was studied. The optimal catalyst preparation conditions were active component (Fe₂O₃) loading of 10.3% followed by non-thermal N₂ plasma treatment at 6 kV for 3 min. The NO conversion on blank ACF initially increased between 120℃ and 150℃ and then decreased above 150℃,while the NO conversion on Fe₂O₃/ACF catalysts continued to increase. Under the reaction conditions of NO volume fraction 1000×10^-6,NH₃ volume fraction 1000×10^-6,O₂ 5%,GHSV (gas hourly space velocity) =10040 h^-1 and reaction temperature 240℃,the NO conversion on 3.7% and 10.3% Fe₂O₃/ACF modified with the N₂ plasma increased by 16.43% and 6.84%,respectively. After N₂ plasma treatment,the catalytic activity of Fe₂O₃/ACF was enhanced because of an increased number of nitrogen-containing functional groups on ACF and improved dispersion of the active component (Fe₂O₃).

• Key words：nitrogen oxide  low-temperature selective catalytic reduction (SCR)  Fe₂O₃/ACF  non-thermal plasma modification

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