Abstract
Transition metal oxide formulations for the partial oxidation<LF>
(POX) reforming of isooctane were investigated for an onboard gasoline
fuel processor. Ni/M/MgO/Al2O3 systems are more active than a commercial
ICI catalyst. These catalysts showed better sulfur tolerance over
the commercial ICI catalyst in the POX reforming of isooctane containing
sulfur (Cs=100 ppm). There was no apparent deactivation or modi.
cation of structure during 770 h onstream. It was found that Ni/(Fe,Co)/MgO/Al2O3
catalyst is a promising candidate as POX reforming catalyst for gasoline
fuel processor applications.
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