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Production of Acetaldehyde via Oxidative Dehydrogenation of Ethanol in a Chemical Looping Setup

Joseph C. Gebers, Abu Farhan Bin Abu Kasim, George J. Fulham, K.Y. Kwong, Ewa Marek

2023ACS Engineering Au24 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide A novel chemical looping (CL) process was demonstrated to produce acetaldehyde (AA) via oxidative dehydrogenation (ODH) of ethanol. Here, the ODH of ethanol takes place in the absence of a gaseous oxygen stream; instead, oxygen is supplied from a metal oxide, an active support for an ODH catalyst. The support material reduces as the reaction takes place and needs to be regenerated in air in a separate step, resulting in a CL process. Here, strontium ferrite perovskite (SrFeO 3−δ ) was used as the active support, with both silver and copper as the ODH catalysts. The performance of Ag/SrFeO 3−δ and Cu/SrFeO 3−δ was investigated in a packed bed reactor, operated at temperatures from 200 to 270 ° C and a gas hourly space velocity of 9600 h –1 . The CL capability to produce AA was then compared to the performance of bare SrFeO 3−δ (no catalysts) and materials comprising a catalyst on an inert support, Cu or Ag on Al 2 O 3 . The Ag/Al 2 O 3 catalyst was completely inactive in the absence of air, confirming that oxygen supplied from the support is required to oxidize ethanol to AA and water, while Cu/Al 2 O 3 gradually got covered in coke, indicating cracking of ethanol. The bare SrFeO 3−δ achieved a similar selectivity to AA as Ag/SrFeO 3−δ but at a greatly reduced activity. For the best performing catalyst, Ag/SrFeO 3−δ, the obtained selectivity to AA reached 92–98% at yields of up to 70%, comparable to the incumbent Veba-Chemie process for ethanol ODH, but at around 250 ° C lower temperature. The CL-ODH setup was operated at high effective production times (i.e., the time spent producing AA to the time spent regenerating SrFeO 3−δ ). In the investigated configuration with 2 g of the CLC catalyst and 200 mL/min feed flowrate ∼5.8 vol % ethanol, only three reactors would be required for the pseudo-continuous production of AA via CL-ODH.

Topics & Concepts

DehydrogenationCatalysisChemistryInorganic chemistryOxygenCokeChemical looping combustionAcetaldehydeOxideSelectivityEthanolOrganic chemistryCatalysis and Oxidation ReactionsCatalytic Processes in Materials ScienceChemical Looping and Thermochemical Processes
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