Conversion of ethanol to butadiene over mesoporous In2O3-promoted MgO-SiO2 catalysts

• Published in: Molecular catalysis Vol. 491; p. 110984
• Main Authors: Szabó, Blanka, Novodárszki, Gyula, May, Zoltán, Valyon, József, Hancsók, Jenő, Barthos, Róbert
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.08.2020
• Subjects: Acid-base properties; Butadiene; Ethanol; Indium oxide; MgO-SiO2 catalysts; Ethanol; Indium oxide; Butadiene; MgO-SiO2 catalysts; Acid-base properties
• ISSN: 2468-8231; 2468-8231
• DOI: 10.1016/j.mcat.2020.110984

[Display omitted] •Ethanol-to-butadiene (ETB) reaction over mesoporous MgO-SiO2 catalysts.•Preparation of MgO/SBA-15 catalysts by impregnation and wet kneading.•One-pot synthesis of MgO/SBA-15 using magnesium alkoxides as Mg source.•In2O3-promoted ETB activity of MgO/SBA-15 catalysts.•Catalyst texture, acidity/basicity, and activity in the ETB reaction. Mesoporous MgO-SiO2 mixed oxide catalysts were prepared for the conversion of ethanol to 1,3-butadiene. Mesoporosity was obtained by using SBA-15 material as support for magnesia or by applying one-pot synthesis method wherein magnesia precursor, such as, magnesium methoxide or ethoxide, was admixed to the synthesis gel of the SBA-15 material. The SBA-15 support was wet-impregnated by Mg(NO3)2 solution or wet-kneaded with Mg(OH)2 precipitate. The synthesized samples were mesoporous, however, the alkoxide in the synthesis gel hindered the formation of regular SBA-15 structure. In wet-kneaded and one-pot-synthesized samples the presence of MgOSi bonds was confirmed by X-ray diffractometry. The acid-base properties of the preparations were characterized by the room-temperature adsorption capacity for CO2 and NH3. Formation of MgOSi bonds were shown to be responsible for the increased acidity/basicity of the samples. The best catalysts were the wet-kneaded sample and the sample synthesized using methoxide as magnesium source. Over these catalysts the butadiene yield reached 15 % at 400−425 °C. To enhance the ethanol-to-butadiene activity the mixed oxides were promoted by In2O3. Additive In2O3 significantly improved dehydrogenation activity generating more acetaldehyde, and suppressed dehydration activity giving less ethylene and diethyl ether. Butadiene yields above 40% were achieved.