The CO2 reforming of methane is studied over a 20 wt % Ni/USY-zeolite, and more specifically,
a thermodynamic analysis of the formation of coke is used as a basis for the kinetic modeling of
coke phenomena that exist under dry reforming conditions. Two thermodynamic parameters, α
and β, are compared to the equilibrium constants for the CH4 decomposition and the CO
disproportionation reactions and defined to determine whether coke formation is favored. This
thermodynamic analysis elucidates the significance of the CO disproportionation reaction on
the amount of coke deposited over the catalyst under consideration. A kinetic model with negative
overall order of one, with respect to the partial pressure of carbon monoxide, is found as the
most accurate prediction of the rate of coke formation. This type of kinetics strongly suggests
the requirement of three adjacent free catalyst sites for the coking reaction to proceed under
allowable thermodynamic conditions.
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