G. Centi et al., Removal of N2O from industrial gaseous streams by selective adsorption over metal-exchanged zeolites, IND ENG RES, 39(1), 2000, pp. 131-137
The behavior of ZSM5 zeolites in the acid, sodium form or ion-exchanged wit
h various metal ions (Cs, Sr, Pa, Mg, Fe, Co, Cu, Ag, Ph, Ga, In, La, and C
e) and that of Y and X zeolites ion-exchanged with Ba ions are discussed wi
th reference to their behavior in the adsorption of N2O from gaseous indust
rial streams containing low (<0.1-0.2%) concentrations of N2O, to produce a
concentrated (>5%) stream of N2O for either autothermic operation of the d
ecomposition of N2O or use of N2O as a selective oxidant. Ba-ZSM5 show sign
ificantly better performances than other metal-exchanged zeolites in the ad
sorption of N2O, although water competes with N2O for adsorption. However,
the adsorption of N2O is faster than that of water, and thus it is possible
to adsorb N2O even in the presence of larger (40 times higher) amounts of
water in the feed. It is also shown that it is possible to have a dual-bed
selective adsorption, where first water adsorbs selectively on an alumina b
ed and then N2O is adsorbed on a Ba-ZSM5 bed. It is suggested that the enha
nced adsorption properties of Ba-ZSM5 are related to the presence of naked
Ba2+ ions that creates a strong electrostatic field within the zeolite cavi
ties which allows the orienting of the N2O molecule and its trapping inside
the zeolite.