ZrO2-SUPPORTED ALKALI METAL (Li, Na, K) CATALYSTS FOR BIODIESEL PRODUCTION

Aguila, Gonzalo; Salinas, Daniela; Jimenez, Romel; GUERRERO, SICHEM; ARAYA, PAULO

Abstract

We studied the effect of the alkali metal type (Li, Na, and K) and the calcination temperature (500, 600 and 700 degrees C) in the activity for biodiesel production of catalysts prepared by impregnation method, with constant metal content of 10% w/w using ZrO2 as support. The results of the catalytic activity allowed to find an activity sequence regarding the alkali tested metals: Na > Li > K, with this sequence remaining constant independent of the calcination temperature. The high activity of the Na/ZrO2 system, and slightly lower activity of Li/ZrO2, can be explained by the fact that higher calcination temperatures promote the formation of alkali-based zirconate species, M2ZrO3 (M = Na or Li). The presence of these species is correlated with the higher activity of these catalysts, specifically with the Na and Li-based catalyst calcined at high temperatures (600-700 degrees C). These M2ZrO3 species show higher basicity respect to other alkali metal oxide species, as was demonstrated with CO2-TPD results. The higher activity corresponded to 10% Na supported on ZrO2 and calcined at 700 degrees C, which reached full conversion within just 30 minutes of reaction, which makes this system a promising heterogeneous replacement for the regular homogeneous systems.

Más información

Título según WOS: ZrO2-SUPPORTED ALKALI METAL (Li, Na, K) CATALYSTS FOR BIODIESEL PRODUCTION
Título de la Revista: JOURNAL OF THE CHILEAN CHEMICAL SOCIETY
Volumen: 61
Número: 4
Editorial: 2013
Fecha de publicación: 2016
Página de inicio: 3233
Página final: 3238
DOI:

10.4067/S0717-97072016000400017

Notas: ISI