(237e) Reaction Network and Mechanistic Assessment of Acrolein Oxidation on an Industrial Oxide Catalyst
AIChE Annual Meeting
2017
2017 Annual Meeting
Catalysis and Reaction Engineering Division
Reaction Path Analysis II
Monday, October 30, 2017 - 4:31pm to 4:50pm
- Production of formaldehyde, acetaldehyde, methyl vinyl ketone, furan, furfural, and benzaldehyde from acrylic acid
- Distinct mechanistic routes for CO and CO2 production
- Participation of both acrolein and acrylic acid in carbon-carbon bond formation and carbon-carbon bond scission reactions
These and other side product co-processing experiments have allowed for the formulation of a network connectivity scheme explaining formation of all side products with selectivity exceeding 0.01C%. A power law kinetic model quantitatively describes product evolution over time and reveals connectivity of side products in the reaction network. 13C isotopic labeled co-processing experiments confirm the presence and role of of C1, C2, C3, and C4 reactive surface intermediates on the catalyst surface. A detailed network of reactions involving hypothesized surface intermediates explaining production of acrolein oxidation side products on the catalyst surface will also be presented.
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