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Research progress of Mn-based low-temperature SCR denitrification catalysts

Jiadong Zhang, Zengyi Ma, Ang Cao, Jianhua Yan, Yuelan Wang, Miao Yu, Linlin Hu, Shihang Pan

2024RSC Advances18 citationsDOIOpen Access PDF

Abstract

Selective catalytic reduction (SCR) is a efficiently nitrogen oxides removal technology from stationary source flue gases. Catalysts are key component in the technology, but currently face problems including poor low-temperature activity, narrow temperature windows, low selectivity, and susceptibility to water passivation and sulphur dioxide poisoning. To develop high-efficiency low-temperature denitrification activity catalyst, manganese-based catalysts have become a focal point of research globally for low-temperature SCR denitrification catalysts. This article investigates the denitrification efficiency of unsupported manganese-based catalysts, exploring the influence of oxidation valence, preparation method, crystallinity, crystal form, and morphology structure. It examines the catalytic performance of binary and multicomponent unsupported manganese-based catalysts, focusing on the use of transition metals and rare earth metals to modify manganese oxide. Furthermore, the synergistic effect of supported manganese-based catalysts is studied, considering metal oxides, molecular sieves, carbon materials, and other materials (composite carriers and inorganic non-metallic minerals) as supports. The reaction mechanism of low-temperature denitrification by manganese-based catalysts and the mechanism of sulphur dioxide/water poisoning are analysed in detail, and the development of practical and efficient manganese-based catalysts is considered.

Topics & Concepts

DenitrificationCatalysisChemistryEnvironmental chemistryEnvironmental scienceInorganic chemistryOrganic chemistryNitrogenCatalytic Processes in Materials ScienceAmmonia Synthesis and Nitrogen ReductionCatalysis and Hydrodesulfurization Studies
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