Ce0.63Zr0.37MnxO2复合氧化物在CH4选择性催化还原NO反应中的研究

以Ce0.63Zr0.37MnxO2复合氧化物(OSM)为载体,Pt为活性组分,制备Pt质量百分含量为1%的催化剂。考察了OSM中Mn含量对CH4催化还原NO反应的性能,并利用XRD和H2-TPR对催化剂进行了表征。结果表明Pt/OSM催化剂在有氧条件下对CH4催化还原NO具有较好的催化活性,Mn含量为10%和15%的OSM制备的催化剂活性最好。XRD结果表明,Ce0.63Zr0.37MnxO2复合氧化物以固熔体形式存在,且Pt高度分散于载体上。H2-TPR结果表明,Pt/OSM2和Pt/OSM3催化剂具有较强的可还原性能,而Pt/OSM1和Pt/OSM4催化剂的可还原性能较弱。     

焙烧温度对复合储氧材料性能的影响

自上世纪80年代初期以来,稀土铈氧化物(CeO2)作为一种储氧材料已在汽车三效催化剂(TWC)中得到了广泛应用。众所周知,CeO2在富氧和富燃条件下有储氧和释放氧的功能,CeO2在缺氧条件下可通过Ce4 转化成Ce3 而释放出氧气,在富氧条件下Ce3 又可氧化成Ce4 而吸收氧,即2CeO2(Ce2O3 1/2     

用算盘求解“鸡兔同笼”应用题

<正>"鸡兔同笼"是我国最古老的数学趣题之一,在《孙子算经》一书中就有鸡(雉)兔同笼问题。如果用抽象的笔算求解,儿童理解不了,很难学会。因为用算术求解,要死记套用公式:(b-a×2)÷(4-2),(a×4-b)÷(4-2)。用代     

整体式Pt基催化剂上CH4选择性催化还原NO的研究

以La-Al2O3(La稳定的γ-Al2O3)、Ce0.63Zr0.37O2(OSM1)及Ce0.5Zr0.3Mn0.2O2(OSM2)为载体, Pt为活性组分, 制备了Pt质量分数为1%的整体式催化剂. 研究了不同载体负载的催化剂对CH4选择催化还原NO反应的性能, 并利用XRD、H2-TPR和XPS对催化剂进行了表征. 结果表明, Pt/OSM1和Pt/OSM2催化剂在氧含量为0.8%时对CH4催化还原NO具有优异的净化性能, Pt/OSM1催化剂上500 ℃时, CH4和NO均达到100%转化; Pt/OSM2催化剂上500 ℃时, CH4和NO的转化率分别达到73%和100%; 而 Pt/ La-Al2O3催化剂只在O2含量较低时(0.4%以下)具有较好活性, 500 ℃以上才可使CH4和NO完全转化. H2-TPR结果表明, Pt与OSM1和OSM2存在的相互作用导致低温还原物相生成. Pt与OSM的相互作用及OSM的储氧性能使催化剂在过量氧存在下对CH4催化还原NO具有优异性能.     

储氧材料制备过程中的结构及织构变化

Ce_0.65Zr_0.35O₂ solid solution was prepared by co-precipitation method and characterized by X-ray diffraction (XRD), Raman spectra, BET, oxygen storage capacity (OSC) and temperature-programmed reduction measurements (H₂-TPR) after calcination at 100 ℃, 300 ℃, 600 ℃, and 1 000 ℃. The results showed that the precipitation was a crystalline of fluorite structure, and in the process of the precipitation transformation into Ce_0.65Zr_0.35O₂ solid solution, the fluorite structure of the precipitation kept unchanged. The samples had different BET surface areas and OSC at different temperatures, but they held the performance of stable structure. After 1 000 ℃, there didn′t appear the other crystalline phase. So the samples prepared by co-precipitation method had excellent texture and higher thermal stability.