A barium-containing three-way automotive emission catalyst was submitted to
a NOx storage step in flowing lean gas mixture containing 340 ppm NO and 8
vol% O-2 in helium. NOx release was carried out in the 250-550 degrees C t
emperature range, either in pure helium or in the presence of a 10 vol% CO2
in helium mixture. It was shown that at 450-550 degrees C all of the store
d NOx on the barium trap can be released fastly in the CO2-containing gas m
ixture or, after a longer time, in pure helium: these data show that NOx re
lease can occur in the absence of a reducing agent. The NOx release was not
complete at 350 degrees C and did not occur at 250 degrees C. The assistin
g effect of CO2 as regards to NOx release was interpreted in terms of the e
xistence of the CO2,gas + *NO2,stored \rightleftharpoons*CO2,stored +NO2,ga
s equilibrium, suggesting the competitive storage of CO2 and NO2 for a uniq
ue type of barium storage sites (*).