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Selective catalytic reduction (SCR) of NOx with NH3 over the SSZ-13/ZSM-5 intergrowth zeolite

Boji Wang, Yao Zhang, Sarayute Chansai, Amal Nadri, Xiaoxia Ou, Qiang Zhang, Shaojun Xu, Yilai Jiao, Xiaolei Fan

2024Microporous and Mesoporous Materials9 citationsDOIOpen Access PDF

Abstract

An intergrowth zeolite combining the SSZ-13 and ZSM-5 structure was synthesized using a dual-template method for application in selective catalytic reduction (SCR) of NO x with NH 3 . The intergrown structure was confirmed through detailed characterization. Compared to pure-phase zeolites, the intergrowth exhibited up to a 14 % enhancement in NO conversion at temperatures above 220 °C after hydrothermal aging (at 750 °C with 10 % H 2 O for 16 h). Comprehensive characterization revealed that intergrowth zeolite promoted the transformation of hydrothermally less stable Cu species (ZCuOH, located at 8 MR) to hydrothermally more stable Cu species (Z 2 Cu, located at 6 MR) during hydrothermal ageing. Additionally, copper leaching is hindered due to the well-preserved structural integrity of the intergrowth zeolite, with only a slight decrease in crystallinity (∼1.6 %). These findings suggest that intergrowth zeolites are promising candidates for mitigating NO x emissions in stationary sources under harsh hydrothermal conditions, such as that found in thermal power generation and steel manufacturing. • Synthesis of a SSZ-13/ZSM-5 intergrowth zeolite via a dual-template method. • Intergrowth zeolite facilitated Cu 2 ⁺ loading and improved hydrothermal stability. • Intergrowth zeolite demonstrated satisfactory SCR activity especially after hydrothermal ageing.

Topics & Concepts

NOxZeoliteSelective catalytic reductionCatalysisZSM-5ChemistryReduction (mathematics)Chemical engineeringInorganic chemistryOrganic chemistryCombustionEngineeringGeometryMathematicsCatalytic Processes in Materials ScienceZeolite Catalysis and SynthesisCatalysis and Oxidation Reactions