The catalytic behaviour and steady-state redox properties of the precipitated silica catalyst in methane to formaldehdye partial oxidation (MPO) are addressed and basic relationships between the activityselectivity pattern and operating conditions of the MPO process are outlined. A set of model equations, accounting for the influence of any experimental parameter (i.e., T, P, PCH4/PO2 ratio,tau) on the steady-state conditions of the catalyst surface and activityselectivity pattern, constitutes a theoretical background for catalyst optimization and engineering of the MPO reaction.
Partial Oxidation of methane to formaldehyde. A theoretic-experimental approach to process design and catalyst development
Frusteri F;
2002
Abstract
The catalytic behaviour and steady-state redox properties of the precipitated silica catalyst in methane to formaldehdye partial oxidation (MPO) are addressed and basic relationships between the activityselectivity pattern and operating conditions of the MPO process are outlined. A set of model equations, accounting for the influence of any experimental parameter (i.e., T, P, PCH4/PO2 ratio,tau) on the steady-state conditions of the catalyst surface and activityselectivity pattern, constitutes a theoretical background for catalyst optimization and engineering of the MPO reaction.File in questo prodotto:
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