Highly Selective Catalytic Propylene Glycol Synthesis from Alkyl Lactate over Copper on Silica: Performance and Mechanism
Статья (Full article),
Applied Catalysis B: Environmental
, E-ISSN: 1873-3883
||Alkyl lactate, Copper-silica, Hydrogenolysis, Propylene glycol
Simonov Mikhail N.
Zaikin Pavel A.
Simakova Irina L.
Boreskov Institute of Catalysis, Novosibirsk 630090, Russia
Novosibirsk Institute of Organic Chemistry, Novosibirsk 630090, Russia
Catalytic alkyl lactate hydrogenolysis over silica-supported copper at atmospheric hydrogen pressure and temperature range 433-493 K provides an eco-friendly green alternative to the petroleum-based process for propylene glycol synthesis. It was shown that catalytic activity strongly depends on copper loading and the most active catalyst contains ca. 45 wt.% Cu. General peculiarities of methyl and butyl lactate hydrogenolysis were studied demonstrating that an overall reaction rate increases with reaction temperature increase but a selectivity to propylene glycol decreases due to enhanced concurrent dehydrogenation of propylene glycol to a by-product hydroxyacetone. It was found that the amount of propylene glycol formed during the reaction is determined by thermodynamic equilibrium between propylene glycol and hydroxyacetone that results in propylene glycol selectivity of 96% at full butyl lactate conversion at 453 K. Overall mechanism of alkyl lactate transformation involving formation of intermediate hemiacetal over bifunctional Cu/SiO2 catalyst was proposed