Oxidative coupling of methane (OCM)
is a promising single-step
route to convert natural gas to high-valued chemicals. It is generally
agreed that Mn–Na–W catalysts offer a balanced conversion–selectivity
trade-off. The present work outlines a novel SiC–SiO2 support synthesized by spray drying to extend the lifetime of the
catalyst. Incorporating SiC into the support enables the exothermic
reaction heat to be effectively dissipated, avoiding hotspots and
thermal shocks, and increasing the thermal resistance. The spray drying
technique yields particles with a consistent distribution of SiC inside
the particles, amplifying the thermal resistance of the catalyst.
Our kinetic results show that the spray dried catalyst with SiC has
significantly higher stability at high C2 selectivity compared
to the benchmark SiO2-supported catalyst prepared by wetness
impregnation. This result is due to (1) the more uniform distribution
of active phases and SiC provided by the spray drying methodology
and (2) the greater thermal resistance provided by SiC, which avoids
thermal shocking and stabilizes the Mn–Na–W phases during
the long-term (70 h) stability test for OCM.
The production of high-purity, pressurized hydrogen from ammonia decomposition in a membrane catalytic reactor is a feasible technology. However, because of the multiple coupled parameters involved in the design of...
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