Unlocking Mixed-Metal Oxides Active Centers via Acidity Regulation for K&SO2 Poisoning Resistance: Self-Detoxification Mechanism of Zeolite-Confined deNOx Catalysts

催化作用 氮氧化物 化学 烟气 氧化还原 选择性催化还原 沸石 无机化学 金属 有机化学 燃烧
作者
Guobo Li,Gang Li,Meiyuan Liao,Wenming Liu,Hongxiang Zhang,Shan Huang,Ting Huang,Shule Zhang,Zhenguo Li,Honggen Peng
出处
期刊:Environmental Science & Technology [American Chemical Society]
卷期号:58 (23): 10388-10397 被引量:7
标识
DOI:10.1021/acs.est.4c03060
摘要

Selective catalytic reduction of nitrogen oxides (NOx) with ammonia (NH3–SCR) is an efficient NOx reduction strategy, while the denitrification (deNOx) catalysts suffer from serious deactivation due to the coexistence of multiple poisoning substances, such as alkali metal (e.g., K), SO2, etc., in industrial flue gases. It is essential to understand the interaction among various poisons and their effects on the deNOx process. Herein, the ZSM-5 zeolite-confined MnSmOx mixed (MnSmOx@ZSM-5) catalyst exhibited better deNOx performance after the poisoning of K, SO2, and/or K&SO2 than the MnSmOx and MnSmOx/ZSM-5 catalysts, the deNOx activity of which at high temperature (H-T) increased significantly (>90% NOx conversion in the range of 220–480 °C). It has been demonstrated that K would occupy both redox and acidic sites, which severely reduced the reactivity of MnSmOx/ZSM-5 catalysts. The most important, K element is preferentially deposited at −OH on the surface of ZSM-5 carrier due to the electrostatic attraction (−O–K). As for the K&SO2 poisoning catalyst, SO2 preferred to be combined with the surface-deposited K (−O–K–SO2ads) according to XPS and density functional theory (DFT) results, the poisoned active sites by K would be released. The K migration behavior was induced by SO2 over K-poisoned MnSmOx@ZSM-5 catalysts, and the balance of surface redox and acidic site was regulated, like a synergistic promoter, which led to K-poisoning buffering and activity recovery. This work contributes to the understanding of the self-detoxification interaction between alkali metals (e.g., K) and SO2 on deNOx catalysts and provides a novel strategy for the adaptive use of one poisoning substance to counter another for practical NOx reduction.
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