SELECTIVE HYDROGENOLYSIS OF GLYCEROL TO PROPYLENE GLYCOL IN A CONTINUOUS FLOW TRICKLE BED REACTOR USING COPPER CHROMITE AND Cu/Al2O3 CATALYSTS
Data
2017
Autores
Sepulveda, Jorge
Manuale, Debora
Santiago, Lucia
Carrara, Nicolas
Torres, Gerardo
Vera, Carlos
Goncalves, Maraisa [UNIFESP]
Carvalho, Wagner
Mandelli, Dalmo
Orientadores
Tipo
Artigo
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Título de Volume
Resumo
The glycerol hydrogenolysis reaction was performed in a continuous flow trickle bed reactor using a water glycerol feed and both copper chromite and Cu/Al2O3 catalysts. The commercial copper chromite had a higher activity than the laboratory prepared Cu/Al2O3 and was used for most of the tests. Propylene glycol was the main product with both catalysts, acetol being the main by-product. It was found that temperature is the main variable influencing the conversion of glycerol. When the state of the glycerol-water reactant mixture was completely liquid, at temperatures lower than 190 degrees C, conversion was low and deactivation was observed. At reaction temperatures of 210-230 degrees C the conversion of glycerol was complete and the selectivity to propylene glycol was stable at about 60-80% all throughout the reaction time span of 10 h, regardless of the hydrogen pressure level (1 to 20 atm). These optimal values could not be improved significantly by using other different reaction conditions or increasing the catalyst acidity. At higher temperatures (245-250 degrees C) the conversion was also 100%. Under reaction conditions at which copper chromite suffered deactivation, light by-products and surface deposits were formed. The deposits could be completely burned at 250 degrees C and the catalyst activity fully recovered.
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Citação
Quimica Nova. Sao Paulo, v. 40, n. 4, p. 371-377, 2017.