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

Joseph C GebersAbu Farhan Bin Abu KasimGeorge J FulhamKien Yi KwongEwa J Marek
Published in: ACS engineering Au (2023)
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.
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