New insight into the role of Mo–Sb addition towards VMoSbTi catalysts with enhanced activity for selective catalytic reduction with NH3

[Display omitted] •V2MoO8 species exhibits improved catalytic activity than vanadium oxide.•The addition of Mo-Sb inhibits the reaction between the terminal V = O and SO2(g).•Sulfur resistance depends on the decrease in the amount of SO2 adsorption. The effect of adding Mo and/or Sb to a VTi catalys...

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Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2022-01, Vol.428, p.132078, Article 132078
Main Authors: Kwon, Dong Wook, Choi, Jeongeun, Nam, Ki Bok, Ha, Heon Phil
Format: Article
Language:English
Subjects:
Antimony
Molybdenum
NH3-SCR
SO2 resistance
V2MoO8
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Summary:[Display omitted] •V2MoO8 species exhibits improved catalytic activity than vanadium oxide.•The addition of Mo-Sb inhibits the reaction between the terminal V = O and SO2(g).•Sulfur resistance depends on the decrease in the amount of SO2 adsorption. The effect of adding Mo and/or Sb to a VTi catalyst on its activity and durability in the selective catalytic reduction (SCR) of nitrogen oxide by NH3 was investigated. The addition of an appropriate amount of Mo–Sb significantly improved the catalyst specific surface area, enhanced the number of Brønsted acid sites, and adjusted the surface species composition. The catalytic activity improved as the Vn+ (n = 4, 3) fraction increased due to the formation of functional groups on the catalyst surface. The redox properties, amount of active labile oxygen, and number of surface oxygen vacancies were improved by the presence of V2MoO8. This species also played an important role in improving the SCR performance and water/sulfur durability of the catalysts due to its sufficient acidity enhancement and reduction of SO2 adsorption. The addition of Mo–Sb likely enhanced catalyst SO2 durability because it reduced SO2 adsorption by inhibiting the reaction between terminal oxygen (V = O) and SO2(g).
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2021.132078