催化作用
铜
化学
选择性催化还原
氨
热液循环
核化学
无机化学
化学工程
有机化学
工程类
作者
Yue Cao,Boyuan Chen,Yongli Dong,Yujun Zhu,Zhibin Li
摘要
Abstract BACKGROUND A series of Cu‐SAPO‐34 samples were prepared with different copper sources and addition of tetraethylenepentamine (TEPA) by a one‐pot method, which were applied for selective catalytic reduction of NO x with ammonia (NH 3 ‐SCR). RESULTS Various measurements were carried out to investigate the effect of TEPA addition and copper sources used on sample properties. The results indicated that Cu‐SAPO‐34 obtained with the addition of TEPA using copper citrate (Cu‐SAPO‐34‐TC) displayed over 90% NO x conversion at 150–500 °C and excellent H 2 O and SO 2 resistance in NH 3 ‐SCR. This is because the addition of TEPA can control the formation of isolated Cu 2+ species located at the junction of D6R in CHA cage, Site (I), which is regarded as a more easily approachable site to adsorbates (NH 3 and NO) than others, thus leading to the excellent NH 3 ‐SCR performance. Further study demonstrated that the Cu‐SAPO‐34‐TC catalyst shows much wider temperature window and more hydrothermal stability due to a greater amount of surface isolated Cu 2+ , fewer Si islands and more Al(IV) species. CONCLUSIONS The excellent activity of the Cu‐SAPO‐34‐TC catalyst can be attributed to the addition of TEPA, which is beneficial for controlling the isolated Cu 2+ at Site (I) as well as inhibiting the aggregation of CuO species. Various characterizations also confirm that more surface Cu 2+ can be produced using copper citrate as copper source. © 2022 Society of Chemical Industry (SCI).
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