A. Basile et al., The partial oxidation of methane to syngas in a palladium membrane reactor: simulation and experimental studies, CATAL TODAY, 67(1-3), 2001, pp. 65-75
Among numerous potential applications of inorganic membrane reactors, the p
artial oxidation of methane (POM) may offer an alternative route, with resp
ect to steam reforming of methane, for producing synthesis gas. Inorganic m
embrane reactors art: considered to be multifunctional reactors because the
y are able to combine catalytic reactions with membrane separation properti
es. In particular, dense palladium membranes are characterised by the fact
that: (I)only hydrogen might permeate through them; (2) both Arrhenius and
Sievert laws are followed. In this investigation, a dense palladium membran
e reactor (PMR) concept is analysed referring both to experimental data and
to simulation study. The partial oxidation of methane (POM) reaction to pr
oduce synthesis gas was chosen as a model reaction to be investigated.
A membrane reactor model that includes the membrane, the gas phase and the
catalyst activity is proposed. The experimental results in terms of methane
conversion obtained by using a pin-hole free palladium membrane permeable
to hydrogen only were compared with model predictions. The effect of reacti
on temperature on methane conversion at different time factors and sweep ga
s how rates was considered. In particular, the effects of temperature profi
les on the methane conversion are taken into account in the kinetic model.
(C) 2001 Elsevier Science B.V. All rights reserved.