Md. Amiridis et al., REACTIVITY OF V2O5 CATALYSTS FOR THE SELECTIVE CATALYTIC REDUCTION OFNO BY NH3 - INFLUENCE OF VANADIA LOADING, H2O, AND SO2, Journal of catalysis, 161(1), 1996, pp. 247-253
A systematic investigation of the selective catalytic reduction (SCR)
of NO by NH3 over V2O5/TiO2 catalysts of variable vanadia loading has
been carried out at 623 K. Kinetic studies were conducted both in the
presence and in the absence of H2O and SO2, The structure of the vario
us catalysts, as well as adsorbed species present on their surface, wa
s characterized by in situ Raman and infrared spectroscopies, Under dr
y and SO2-free conditions, the turnover frequency of the SCR reaction
was found to go through a maximum with vanadia surface coverage at app
roximately half a monolayer, The observed decrease in the SCR turnover
frequency at vanadia surface coverages exceeding half a monolayer can
be attributed to the loss of strong acid sites which are associated w
ith the TiO2 support. Addition of H2O to the reacting gas mixture resu
lts in a decrease in the SCR turnover frequency of approximately 40-50
%, which is independent of the vanadia surface coverage. In situ Raman
results suggest that such a decrease can be attributed to the competi
tive adsorption of H2O on the active vanadia sites, The presence of SO
2 in the gas phase during the SCR reaction results in a significant in
crease of the turnover frequency at low vanadia surface coverages, whi
le it has no effect at vanadia surface coverages above half a monolaye
r, Raman and infrared results suggest that the effect of SO2 can be at
tributed to the formation of surface sulfate species, which are only p
resent on the titania surface below half a monolayer coverage due to r
epulsive interactions between the surface vanadia and sulfate species.
(C) 1996 Academic Press, Inc.