Olga V. Larina, Karina V. Valihura, Pavlo I. Kyriienko, Nina V. Vlasenko, Dmytro Yu. Balakin, Ivan Khalakhan, Katerina Veltruská, Tomaž Čendak, Sergiy O. Soloviev, Svitlana M. Orlyk. Catalytic performance of ternary Mg-Al-Ce oxides for ethanol conversion into 1-butanol in a flow reactor[J]. Journal of Fuel Chemistry and Technology, 2021, 49(3): 346-357. DOI: 10.1016/S1872-5813(21)60028-2
Citation: Olga V. Larina, Karina V. Valihura, Pavlo I. Kyriienko, Nina V. Vlasenko, Dmytro Yu. Balakin, Ivan Khalakhan, Katerina Veltruská, Tomaž Čendak, Sergiy O. Soloviev, Svitlana M. Orlyk. Catalytic performance of ternary Mg-Al-Ce oxides for ethanol conversion into 1-butanol in a flow reactor[J]. Journal of Fuel Chemistry and Technology, 2021, 49(3): 346-357. DOI: 10.1016/S1872-5813(21)60028-2
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Catalytic performance of ternary Mg-Al-Ce oxides for ethanol conversion into 1-butanol in a flow reactor

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    • Abstract
  • An investigation of hydrotalcite-derived ternary Mg-Al-Ce oxides as catalysts for vapour phase condensation of ethanol to 1-butanol in a flow reactor under atmospheric pressure was carried out. The Mg-Al-Ce oxide systems with Mg/(Al + Ce) ratio from 1 to 4 were synthesized and characterized by XRD, SEM, NMR, and XPS. The study of acid-base characteristics of the systems with different Mg/(Al+Ce) ratio by NH3/CO2 quasi-equilibrium thermal desorption techniques shows that the ratio of the catalyst oxide components (Mg, Al, Ce) can provide acid/base capacity ratio close to 3 for the effectivity of the target process. The highest selectivity 68% is reached over Mg-Al-Ce oxide catalyst with the ratio of Mg/(Al+Ce) = 2.
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