Wenkang Su scite author profile

A series of V2O5/CeO2 catalysts with different potassium loadings were prepared to investigate alkali deactivations for selective catalytic reduction of NOx with NH3. An alkali poisoning mechanism could be attributed to surface acidity, reducibility, and NOx adsorption/desorption behaviors. The detailed factors are as follows: (1) decrease of surface acidity suppresses NH3 adsorption by strong bonding of alkali to vanadia (major factor); (2) low reducibility prohibits NH3 activation and NO oxidation by formation bonding of alkali to vanadia and ceria (important factor); (3) active NOx(-) species at low temperature diminish because of coverage of alkali on the surfaces (minor factor); and (4) stable, inactive nitrate species at high temperature increase by generating new basic sites (important factor).

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Identification of sulfate species and their influence on SCR performance of Cu/CHA catalyst

Zhang

et al. 2017

Catal. Sci. Technol.

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A novel Ce–Ta mixed oxide catalyst for the selective catalytic reduction of NOx with NH3

Zhang

et al. 2015

Applied Catalysis B: Environmental

150

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Wenkang Su

Deactivation Mechanism of Potassium on the V₂O₅/CeO₂ Catalysts for SCR Reaction: Acidity, Reducibility and Adsorbed-NO_x

Identification of sulfate species and their influence on SCR performance of Cu/CHA catalyst

A novel Ce–Ta mixed oxide catalyst for the selective catalytic reduction of NOx with NH3

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Wenkang Su

Deactivation Mechanism of Potassium on the V2O5/CeO2 Catalysts for SCR Reaction: Acidity, Reducibility and Adsorbed-NOx

Identification of sulfate species and their influence on SCR performance of Cu/CHA catalyst

A novel Ce–Ta mixed oxide catalyst for the selective catalytic reduction of NOx with NH3

Contact Info

Product

Resources

About

Deactivation Mechanism of Potassium on the V₂O₅/CeO₂ Catalysts for SCR Reaction: Acidity, Reducibility and Adsorbed-NO_x