Abstract
MgCo2O4 spinel catalysts were prepared via the solution combustion synthesis (SCS) and coprecipitation (CP) methods. The produced powder catalysts were characterized by XRD, BET, FESEM, TPD, and XPS. The performance of these catalysts toward the decomposition of N2O to N2 and O2 was evaluated in a temperature programmed reaction (TPRe) apparatus in the absence and in the presence of oxygen (W/F = 0.03 g·s/cm3). The catalyst prepared by the CP method has been found to provide the best activity; the half conversion temperature (T50) of nitrous oxide was 380 and 415 °C in the absence and in the presence of oxygen, respectively. The MgCo2O4 spinel catalysts were directly deposited, by in situ SCS and CP, over ceramic honeycomb monoliths and tested in a lab-scale test rig. Again in this case, a prevalent activity of the catalytic monolith prepared by CP has been observed. The higher activity of the catalyst prepared by CP could be correlated with its higher surface area and its higher capacity of enriching the...
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