Effect of the structural and morphological properties of Cu/ZnO catalysts prepared by citrate method on their activity toward methanol synthesis from CO 2 and H 2 under mild reaction conditions

Karelovic A.; Bargibant A.; Fernandez, C.; Ruiz, P

Abstract

Methanol synthesis from CO 2 + H 2 was studied at mild reaction conditions (140-250°C and 7 bar) over Cu/ZnO catalysts prepared by citrate method. The copper content and calcination temperatures were varied so as to obtain a wide range in copper particle size (2-12 nm). Methanol formation rates vary between 0.84 and 2.98 × 10 -3 s -1 at 180°C. Methanol selectivity can attain 100% at temperatures lower than 160°C. At higher temperatures, CO formation by reverse water gas shift reaction is highly favored. The apparent activation energy for methanol formation is in the range 8-10 kcal/mol, whereas that of CO formation is much higher (29-32 kcal/mol). The methanol formation rates depend linearly on the amount of exposed copper atoms, whereas for CO formation there is no clear correlation, showing that special surface sites are responsible for CO formation. The size of copper particles greatly influences the selectivity to methanol at constant CO 2 conversion. Larger particles (10-12 nm) are much more selective than smaller ones (2-3 nm), this effect is enhanced when CO 2 conversion is low. Catalysts prepared by citrate method are much more active than a reference catalyst prepared by coprecipitation. The activity of CuO + ZnO catalysts prepared by mechanically mixing of CuO and ZnO present activity comparable with that of Cu/ZnO catalysts prepared by citrate method, whereas pure copper and ZnO are not active at these conditions. That strongly suggests that activity is defined by a good contact between Cu 0 and ZnO, whereas the selectivity depends on the morphology of copper nanoparticles. © 2012 Elsevier B.V.

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Título según SCOPUS: Effect of the structural and morphological properties of Cu/ZnO catalysts prepared by citrate method on their activity toward methanol synthesis from CO 2 and H 2 under mild reaction conditions
Título de la Revista: CATALYSIS TODAY
Volumen: 197
Número: 1
Editorial: Elsevier
Fecha de publicación: 2012
Página de inicio: 109
Página final: 118
Idioma: English
DOI:

10.1016/j.cattod.2012.07.029

Notas: SCOPUS