A new Ag/Al2O3 catalyst for removing NOx in diesel engine exhaust gas
was developed. The influence of SO2 on the reduction of lean NOx by et
hanol over the Ag/Al2O3 catalyst was evaluated in simulated diesel exh
aust and characterized using TPD, XRD, XPS, SEM and BET measurements.
The Ag/Al2O3 catalyst was highly active for the reduction of NOx with
ethanol in the presence of SO2 although the reduction of NOx is suppre
ssed at lower temperatures. The activity for NOx reduction is high eve
n on the Ag/Al2O3 catalyst exposed to a SO2 (200 ppm)/O-2 (10%)/H2O (1
0%) flow for 20 h at 723 K and comparable to that on the fresh Ag/Al2O
3 catalyst. No crystallized Ag metal and Ag compounds were formed by t
he SO2/O-2/H2O exposure. On the other hand, crystallized Ag2SO4 was ea
sily formed when the Ag/Al2O3 catalyst was exposed to a SO2 (200 ppm)/
O-2 (10%)/NO (800 ppm)/H2O (10%) Bow for 10 h at 723 K. XRD, SEM and X
PS studies showed that the formation of crystallized Ag2SO4 results in
growing of Ag particles in larger size and lowering the surface conte
nt of Ag particles. In addition, the specific surface area of the Ag/A
l2O3 catalyst decreases from 221 to 193 m(2)/g. Although the dispersio
n of Ag particles was decreased by the formation of Ag2SO4, the activi
ty for the reduction of lean NOx was, remarkably, not affected. This s
uggests that the Ag-alumina sites created by the Ag2SO4 formation are
still active for the lean catalytic reduction of NOx.