采用共沉淀法和浸渍法制备了贵金属负载均匀的镁铁水滑石基稀燃氮氧化物捕集( LNT)催化剂,并采用多种表征手段研究了焙烧温度对催化剂结构及NOx 吸附-还原反应的影响。结果表明,500-700℃焙烧后催化剂晶相结构稳定,800℃焙烧后催化剂表面出现烧结,Pt颗粒发生团聚;随焙烧温度升高,催化剂的NOx 脱附峰面积先减小后增大,但峰值温度变化不大;与500℃焙烧催化剂相比,800℃焙烧后催化剂表面NOx 吸附物种及吸附路径发生改变,而还原反应产物中氨气/氮气体积比下降,NOx 转化效率由91.7%降为85.2%。%In this paper, the iron-magnesium hydrotalcite-based catalysts with well dispersed noble metal for the lean NOx trap ( LNT) were prepared by co-precipitation and impregnation methods. The effects of different calcination temperatures on the catalyst structure and the adsorption-reduction performance for NOx were investigated by analytical techniques. Results show that the crystalline structure of the catalysts remains stable when the calcination temperature is lower than 700 ℃. The sintering of the catalysts prepared and the conglobation of Pt particles appear on the catalyst surface after calcination at 800 ℃. With the increase in calcination temperature from 500 to 800 ℃, the desorption amounts of NOx increases after an initial decrease, while the corresponding peak temperature show a marginal change. DRIFTs results indicate that the adsorbed NOx species and the adsorption pathways over the catalyst after calcination at 800℃ differ from those at 500℃. The ratio of NH3/N2 released from the reduction of adsorbed NOx species over the catalyst calcinated at 800℃decreases in comparison with those calcinated at lower temperatures, which is responsible for the decrease in the NOx conversion efficiency.
展开▼
