A series of Co/Mg-Al oxide samples, CoMgAl-x (x = (Mg + Co)]AI molar ratio of 1-5), were prepared by the self-combustion method followed by H2 reduction. The catalytic performance and stability of the samples wer...A series of Co/Mg-Al oxide samples, CoMgAl-x (x = (Mg + Co)]AI molar ratio of 1-5), were prepared by the self-combustion method followed by H2 reduction. The catalytic performance and stability of the samples were studied in dry reforming ofCH4. XRD and H2-TPR characterization results showed that the reduced CoMgAl-x samples mainly consisted of solid solution and spinel phases with cobalt particles. The spinel phases contained COB04 and ConMgl-nAl204 (0 〈 n 〈 1 ) varying with the (Mg + Co)/AI ratio, The effect of (Mg + Co)/A1 molar ratio on the catalytic behavior was investigated in detail and CoMgAI-3 exhibited the highest catalytic activity and stability among the catalysts studied.展开更多
基金supported by the Ministry of Science and Technology(No.2009CB623506)the National Natural Science Foundation of China(No.21173050)Shanghai Leading Academic Discipline Project(No.B108)
文摘A series of Co/Mg-Al oxide samples, CoMgAl-x (x = (Mg + Co)]AI molar ratio of 1-5), were prepared by the self-combustion method followed by H2 reduction. The catalytic performance and stability of the samples were studied in dry reforming ofCH4. XRD and H2-TPR characterization results showed that the reduced CoMgAl-x samples mainly consisted of solid solution and spinel phases with cobalt particles. The spinel phases contained COB04 and ConMgl-nAl204 (0 〈 n 〈 1 ) varying with the (Mg + Co)/AI ratio, The effect of (Mg + Co)/A1 molar ratio on the catalytic behavior was investigated in detail and CoMgAI-3 exhibited the highest catalytic activity and stability among the catalysts studied.
