热液循环
碳氢化合物
催化作用
材料科学
化学工程
环境科学
化学
工程类
有机化学
作者
Huan Zhou,Jianqi Liu,Yan Zhang,Shichao Han,Jinpeng Du,Wenpo Shan
标识
DOI:10.1016/j.jes.2024.12.017
摘要
Hydrocarbons (HCs) exert toxic effects on the activity of Cu-based zeolite catalysts for NH3-SCR on diesel vehicles. This study investigated the hydrocarbon resistance of both fresh and hydrothermally aged high-silica Cu-SSZ-16 catalysts. It was found that low-temperature activity of Cu-SSZ-16 catalyst decreased after C3H6 poisoning, which was mainly due to the blockage of pore channels and the coverage of Cu active sites as well as acid sites by the formation of carbon deposits. Additionally, [Cu(OH)]+-Z was proposed to be more easily affected by C3H6 poisoning than Cu2+-2Z. Hydrothermally aged Cu-SSZ-16 presented better C3H6 resistance than the fresh catalyst since less carbon deposits were accumulated and [Cu(OH)]+-Z species were partially transformed to more-stable Cu2+-2Z in the aged sample. This was probably because of the reduction of acid sites and the formation of CuOx, which enhanced the oxidation of C3H6, thereby inhibiting the formation of carbon deposits. In addition, the coverage of the active Cu species also influenced the adsorption and oxidation of NO, causing a decrease in low-temperature activity. Thus, the low-temperature activity could be fully recovered by hydrothermal treatment at 500 °C due to the removal of carbon deposits and recovery of Cu active sites as well as acid sites. In summary, high-silica Cu-SSZ-16, with high resistance to HCs and excellent hydrothermal stability, is a competitive candidate as a catalyst for the NH3-SCR reaction in practical application.
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