Structural change of Ni species during the methane decomposition and the subsequent gasification of deposited carbon with CO_2 over supported Ni catalysts

摘要

The structural changes of Ni species in Ni/Al_2O_3,Ni/SiO_2 and Ni/TiO_2 catalysts during the repeated cycles of the methane decomposition and the subsequent gasification of deposited carbons with CO_2 have been studied The catalytic activity for the methane decomposition depended on the size of Ni metal particles i.e.,the particle size from 60 to 100 nm was most effective The catalytically active Ni species in Ni/SiO_2 were present as Ni metal particles with diameter from 40 to 100 nm at te first reaction cycle but they were aggregated into ones with diameters larger than 200 nm resulting in the deactivation of Ni/SiO_2 for methane decomposition In contrast catalytic activity of NI/TiO_2 was kept high during te repeated reactions because the particle size of ni metal was kept at the optimum size range effective for the methane decomposition On the other hand Ni species in a fresh Ni/Al_2O_3 were composed of highly dispersed Ni(II) species and Ni metal particles of diameter asmaller than 20 nm During the repeated reactions the Ni(II) species wer gradually reduced forming the fine Ni metal particles and the fine metal particles were aggregated into ones with a larger diameter which brought about an increase in the catalytic activity of Ni/Al_2O_3.