Review of Core-shell structure zeolite-based catalysts for NOx emission control
•The recent progress of the core-shell structure zeolite-based NH3-SCR catalysts was reviewed.•The reaction mechanisms of resistance to poisons from diesel engines are summarized.•The interfacial effect between the core and the shell in NH3-SCR reaction was clarified.•The future development and outl...
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Veröffentlicht in: | Journal of environmental sciences (China) 2025-04, Vol.150, p.451-465 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | •The recent progress of the core-shell structure zeolite-based NH3-SCR catalysts was reviewed.•The reaction mechanisms of resistance to poisons from diesel engines are summarized.•The interfacial effect between the core and the shell in NH3-SCR reaction was clarified.•The future development and outlook of core-shell structure NH3-SCR catalysts are prospected.
Nitrogen oxides (NOx) from diesel engine exhaust, is one of the major sources of environmental pollution. Currently, selective catalytic reduction with ammonia (NH3-SCR) is considered to be the most effective protocol for reducing NOx emissions. Nowadays, zeolite-based NH3-SCR catalysts have been industrialized and widespread used in this field. Nevertheless, with the increasingly stringent environmental regulations and implementation of the requirement of “zero emission” of diesel engine exhaust, it is extremely urgent to prepare catalysts with superior NH3-SCR activity and exceptional resistance to poisons (SO2, alkali metals, hydrocarbons, etc.). Core-shell structure zeolite-based catalysts (CSCs) have shown great promise in NH3-SCR of NOx in recent years by virtue of its relatively higher low-temperature activity, broader operation temperature window and outstanding resistance to poisons. This review mainly focuses on the recent progress of CSCs for NH3-SCR of NOx with three extensively investigated SSZ-13, ZSM-5, Beta zeolites as cores. The reaction mechanisms of resistance to sulfur poisoning, alkali metal poisoning, hydrocarbon poisoning, and hydrothermal aging are summarized. Moreover, the important role of interfacial effect between core and shell in the reaction of NH3-SCR was clarified. Finally, the future development and application outlook of CSCs are prospected.
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ISSN: | 1001-0742 |
DOI: | 10.1016/j.jes.2023.10.012 |