摘要
用共沉淀法制备了Zn-Fe尖晶石型复合氧化物催化剂,用于有氧气氛中N2O的分解反应;考察了复合氧化物的组成、焙烧温度及K改性对其催化活性的影响,并用氮气吸附、XRD和H2-TPR等技术对催化剂结构进行了表征。结果表明,Zn-Fe尖晶石型复合氧化物具有良好的催化N2O分解的活性;在优化出的Zn0.8Fe0.2Fe2O4-400催化剂上500℃下连续反应10 h时,有氧无水和有氧有水条件下N2O转化率分别达到63.5%和22.2%。K改性Zn-Fe尖晶石型复合氧化物的催化活性均不及纯Zn-Fe氧化物,这是由于K改性催化剂的比表面积显著降低,而且K粒子迁移至催化剂表面,抑制了FeOx的还原和表面氧物种的脱除。
Zn-Fe spinel oxides were prepared by co-precipitation method and used as the catalysts in N2O decomposition in the presence of oxygen;the effects of spinel oxide composition,calcination temperature,and K doping on their catalytic activity were investigated.In addition,the Zn-Fe spinel oxides were characterized by N2 physisorption,X-ray diffraction and H2-TPR techniques.The results indicated that the Zn-Fe spinel oxides are active in N2O decomposition in the presence of oxygen;over the Zn 0.8 Fe 0.2 Fe2O4-400 catalyst with the optimized composition and calcined at 400 ℃,the conversions of N2O in the absence and in the presence of steam achieve 63.5% and 22.2%,respectively,after reaction at 500 ℃ for 10 h,which are much higher than those over Fe 3 O 4.However,the K-doped Zn-Fe spinel oxides exhibit lower activity than the bare Zn-Fe oxide,as K doping may lead to a substantial decrease of surface area and the migration of potassium crystallites to FeO x surface that will inhibit the ferric species from reduction and active oxygen species from removal from the catalyst surface.
出处
《燃料化学学报》
EI
CAS
CSCD
北大核心
2013年第6期729-734,共6页
Journal of Fuel Chemistry and Technology
基金
The Research Project from Department of Science and Technology of Shandong Province(2012GGA01012)
the Scientific Research Foundation for the Returned Overseas Chinese Scholars of State Education Ministry(2004-527)