1,3-Butadiene production from aqueous ethanol over ZnO/MgO-SiO2 catalysts: Insight into H2O effect on catalytic performance

[Display omitted] •Effect of MgO:SiO2 ratio in ZnO/MgO-SiO2 catalysts on 1,3-butadiene production from aqueous ethanol have been investigated.•The hydrophilicity of ZnO/MgO-SiO2 is determined by MgO:SiO2 ratio, and H2O chemisorption occurs preferably on Mg sites.•The presence of H2O in the initial r...

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Published in:Applied catalysis. A, General General, 2021-04, Vol.616, p.118081, Article 118081
Main Authors: Kyriienko, Pavlo I., Larina, Olga V., Balakin, Dmytro Yu, Stetsuk, Anatolii O., Nychiporuk, Yurii M., Soloviev, Sergiy O., Orlyk, Svitlana M.
Format: Article
Language:English
Subjects:
1,3-Butadiene
Ammonia
Aqueous ethanol
Butadiene
Carbon dioxide
Catalysts
Catalytic converters
Chemisorption
Conversion
Coupling
Ethanol
H2O effect
Isopropanol
Magnesium oxide
Selectivity
Silicon dioxide
Surface reactions
Zinc oxide
ZnO/MgO-SiO2
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Summary:[Display omitted] •Effect of MgO:SiO2 ratio in ZnO/MgO-SiO2 catalysts on 1,3-butadiene production from aqueous ethanol have been investigated.•The hydrophilicity of ZnO/MgO-SiO2 is determined by MgO:SiO2 ratio, and H2O chemisorption occurs preferably on Mg sites.•The presence of H2O in the initial reaction mixture leads to a decrease in formation of C–C coupling products.•The hydrated sites formed in the interface of MgO and SiO2 remain active in C–C coupling reaction even in presence of H2O.•1,3-Butadiene selectivity >60 % can be achieved in the conversion of aqueous ethanol (80 vol%) over ZnO/MgO-SiO2 catalysts. A series of ZnO/MgO-SiO2 systems have been prepared and characterized by one-pass temperature-programmed desorption of CO2, NH3 and H2O, FTIR spectroscopy with adsorbed pyridine and CO2, temperature programmed surface reaction of ethanol and isopropanol, and reaction of isopropanol conversion. Effect of MgO:SiO2 ratio in the catalysts on catalytic performance in 1,3-butadiene production from aqueous ethanol have been investigated. The results indicate that hydrophilicity of ZnO/MgO-SiO2 are determined by MgO:SiO2 ratio, and chemisorption of water occurs preferably on Mg-containing sites. The presence of water in the initial ethanol leads to a decrease in formation of the CC coupling products. The hydrated sites formed in the interface of magnesia and silica remain active in the CC coupling reaction even in the presence of water. 1,3-Butadiene selectivity >60 % in the conversion of aqueous ethanol (80 vol%) is achieved in the presence of ZnO/MgO-SiO2 catalysts with the ratio of MgO:SiO2 = (1:1) and (3:1).
ISSN:0926-860X
1873-3875
DOI:10.1016/j.apcata.2021.118081