Título Catalytic Processing of Lactic Acid over Pt/Nb2O5
Autores SERRANO RUIZ, JUAN CARLOS, Dumesic, James A.
Publicación externa Si
Medio ChemSusChem
Alcance Article
Naturaleza Científica
Cuartil JCR 1
Cuartil SJR 1
Impacto JCR 4.76700
Impacto SJR 0.97900
Fecha de publicacion 01/01/2009
ISI 000267729400013
DOI 10.1002/cssc.200900004
Abstract Dilute aqueous solutions of lactic acid (30%wt.) can be catalytically processed at 573 K and 57 bar over a low-metal-content Pt(0.1%)/Nb2O5 catalyst in a spontaneously separating organic phase rich in valuable products such as C-4-C-7 ketones. An increase in the lactic acid concentration to 60 wt% allows conversion of approximately 50% of the carbon feed in this organic layer, while maintaining good stability of the catalyst. Experiments at low conversion showed that lactic acid reacts first over Pt(0.1%)/Nb2O5 to produce acetaldehyde and propanoic acid (along with CO and CO2 in the gas phase). These compounds (less oxygenated than lactic acid but still reactive) are the key intermediates in the overall process, and they react differently depending on the nature of the catalyst support. In particular, reaction kinetics studies with propanoic acid as feed showed that Pt(0.1%)/Nb2O5 favored the formation of pentanones by ketonization reactions, whereas a monofunctional Pt-(0.1%)/carbon catalyst produced ethane and COx by decomposition reactions. In the same manner, acetalclehyde was preferentially hydrogenated to ethanol over Pt(0.1%)/carbon, whereas the presence of niobia allowed this intermediate to react (by successive aldol condensations) to form C-4-C-7 condensation products stored in the organic phase. Finally, reaction pathways are proposed to explain the catalytic processing of lactic acid over bifunctional Pt(0.1%)/Nb2O5. In this scheme, metal sites catalyze hydrogenation reactions and niobia promotes C-C coupling processes (ketonization and aldol condensation), in contrast to C-C cleavage reactions which take place preferentially over Pt(0.1%)/carbon and lead to loss of carbon in the gas effluent as CO, CO2, and methane.
Palabras clave aldol reaction; catalytic upgrading; ketones; lactic acid; niobium
Miembros de la Universidad Loyola

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