Recent research progress and development of the palladium catalysts for methane combustion are described in this study.The influence of active species,precursor,solvent,preparation methodologies,support and dopant on ...Recent research progress and development of the palladium catalysts for methane combustion are described in this study.The influence of active species,precursor,solvent,preparation methodologies,support and dopant on the catalytic activity and thermal stability of the palladium catalysts was discussed.Results of deactivation and poisoning of palladium catalysts were analyzed.Furthermore,possible kinetic models and reaction mechanism were indicated for Pd catalysts.展开更多
Based on the reaction mechanism of resid hydrodemetallization, a new catalyst carrier was designed and prepared. As compared with the similar type of catalyst carrier, the said new carrier featured a higher pore volum...Based on the reaction mechanism of resid hydrodemetallization, a new catalyst carrier was designed and prepared. As compared with the similar type of catalyst carrier, the said new carrier featured a higher pore volume, a larger pore diameter and a weaker surface acidity, which could improve the diffusion performance and stable reaction performance of the catalyst. The active metal components were loaded on the said carrier by a new technique for better metal dispersion, thus the impurity removal rate of the new catalyst, RDM-3, was improved significantly. The commercial test of the RDM-3 catalyst showed that the process of catalyst preparation was stable, the catalyst performance was slightly better than the catalyst prepared in the lab, therefore, the catalyst could be manufactured in commercial scale.展开更多
文摘Recent research progress and development of the palladium catalysts for methane combustion are described in this study.The influence of active species,precursor,solvent,preparation methodologies,support and dopant on the catalytic activity and thermal stability of the palladium catalysts was discussed.Results of deactivation and poisoning of palladium catalysts were analyzed.Furthermore,possible kinetic models and reaction mechanism were indicated for Pd catalysts.
文摘Based on the reaction mechanism of resid hydrodemetallization, a new catalyst carrier was designed and prepared. As compared with the similar type of catalyst carrier, the said new carrier featured a higher pore volume, a larger pore diameter and a weaker surface acidity, which could improve the diffusion performance and stable reaction performance of the catalyst. The active metal components were loaded on the said carrier by a new technique for better metal dispersion, thus the impurity removal rate of the new catalyst, RDM-3, was improved significantly. The commercial test of the RDM-3 catalyst showed that the process of catalyst preparation was stable, the catalyst performance was slightly better than the catalyst prepared in the lab, therefore, the catalyst could be manufactured in commercial scale.
