L. Luo et al., Comparison of reaction pathways for the partial oxidation of propane over vanadyl ion-exchanged zeolite beta and Mo1V0.3Te0.23Nb0.12Ox, J CATALYSIS, 200(2), 2001, pp. 222-231
The reaction pathways for the oxidation of propane over VO-H-beta and Mo1V0
.3Te0.23Nb0.12Ox. are investigated. Two methods are used in this study: (i)
overall product selectivities are recorded as a function of conversion, an
d (ii) those species observed or speculated to exist are reacted individual
ly over the catalysts. With VO-H-beta, propene is the primary product of pr
opane oxidation and acetic acid is a sequential oxidation product of the pr
opene, possibly forming through an acetone intermediate. Mo1V0.3Te0.23Nb0.1
2Ox also gives propene as the primary product of propane oxidation, and the
propene thus formed oxidizes further to acrylic acid and acetone. Reaction
s of individual oxygenated compounds, e.g., propanal, acrolein, etc., confi
rm the superior oxidation features of the mixed metal oxide catalyst relati
ve to the zeolite-based catalyst. (C) 2001 Academic Press.