Sw. Ham et al., Activity and durability of iron-exchanged mordenite-type zeolite catalyst for the reduction of NO by NH3, KOR J CHEM, 17(3), 2000, pp. 318-324
NO removal activity and the durability of iron-exchanged mordenite type zeo
lite catalyst (FeHM) have been examined in a continuous fixed bed flow reac
tor. The catalytic activity for NO reduction by NH3 in the presence of oxyg
en was much higher than that in the absence of oxygen, and it was fully rev
ersible with respect to the presence of oxygen in the feed gas stream. The
oxidation ability of SCR catalysts including FeHM was critical for both rea
ctions of NH3 and SO2 oxidation, thus for the NO removal activity and its s
ulfur tolerance. The maximum conversion of NO for FeHM catalyst with respec
t to the reaction temperature shifted to the higher temperature due to its
mild oxidation ability. The deactivation behaviors such as the changes of t
he physicochemical properties of the catalyst and the loss of NO removal ac
tivity induced by SO2 could not be distinguished, regardless of the metals
exchanged in zeolite. However, the amount of deactivating agents deposited
on the catalyst surface depended on the species of metals exchanged on the
mordenite type zeolite, which was mainly attributed to the oxidation abilit
y of metals for SO2 conversion to SO3.