摘要
采用离子交换法制备了钛基层柱粘土(TiO2-PILC),并应用浸渍法将Mn负载于其上制得不同Mn含量的xMn/TiO2-PILCs催化剂,考察了催化剂低温NH3选择性催化还原NO(NH3-SCR)活性,研究了添加Ce对8%Mn/TiO2-PILC催化剂活性及其抗水蒸气抗SO2特性的影响.结果发现,TiO2-PILC负载的锰基催化剂具有良好的抗水蒸气性能,但在水蒸气和SO2共存时失活严重.Ce的添加对催化剂活性以及抗SO2能力均有所提高,其中8%Mn-2%Ce/TiO2-PILC在200oC时NO去除率达到95%,同时SO2失活速率明显比其他催化剂低.采用N2吸附-脱附、X射线衍射、NH3程序升温脱附、H2程序升温还原和X射线光电子能谱等技术对催化剂结构和性质进行了表征.结果表明,所制备催化剂具有丰富的中孔结构和较大的比表面积;Ce的添加使Mn在催化剂表面分散性更好,提高了催化剂表面酸性和催化剂氧化还原性能,从而使其活性和抗硫性能增加.
Titania-pillared clays (TiO2-PILC) were synthesized by ion exchange and manganese was introduced as the active phase. The catalytic behavior of the xMn/TiO2-PILC catalysts was studied for the low-temperature selective catalytic reduction (SCR) of NO with NH3. A series of Ce-doped 8%Mn-yCe/TiO2-PILC catalysts were prepared and evaluated for their performance in the low-temperature SCR of NO with NH3, their resistance to water vapor (H2O), and their resistance to sulfur dioxide (SO2). It was found that the NO conversion properties of the 8%Mn/TiO2-PILC catalysts could be significantly improved by adding Ce and all the catalysts gave high resistance to H2O but were sensitive to SO2. The catalyst with a Ce loading of 2% gave 95% NO conversion at 220 °C and exhibited a moderate SO2-poisoning resistance compared with the other catalysts. X-ray diffraction, N2 adsorption-desorption, temperature-programmed desorption of NH3, X-ray photoelectron spectroscopy, and temperature-programmed reduction of H2 were used to characterize the properties of the catalysts. The addition of Ce improved the diffusion of Mn on the surfaces of the catalysts, which enhanced the surface acidity and improved the reduction properties of the catalysts and these were the main influencing factors for the low-temperature SCR.
出处
《催化学报》
SCIE
CAS
CSCD
北大核心
2011年第12期1803-1811,共9页
基金
supported by the National Natural Science Foundation of China(50976050,51150110155,51176077)
Key Special Technologies R&D Program of Tianjin(09ZCKFSH01900)~~
关键词
低温选择性催化还原
钛基层柱粘土
氧化锰
氧化铈
中毒
low-temperature selective catalytic reduction
titania-pillared interlayered clay
manganese oxide
cerium
poisoning