Application of a Burkholderia cepacia lipase-immobilized silica monolith to the batch and continuous biodiesel production with a stoichiometric mixture of methanol and crude Jatropha oil

Background:
The enzymatic production of biodiesel through alcoholysis of triglycerides has become more attractive because it shows potential in overcoming the drawbacks of chemical processes. In this study, we investigate the production of biodiesel from crude, non-edible Jatropha oil and methanol to characterize Burkholderia cepacia lipase immobilized in an n-butyl-substituted hydrophobic silica monolith. We also evaluate the performance of a lipase-immobilized silica monolith bioreactor in the continuous production of biodiesel.
Results:
The Jatropha oil used contained 18% free fatty acid, which is problematic in a base-catalyzed process. In the lipase-catalyzed reaction, the presence of free fatty acid made the reaction mixture homogeneous and allowed bioconversion to proceed to 90% biodiesel yield after a 12 h reaction time. The optimal molar ratio of methanol to oil was 3.3-3.5:1 with water content of 0.6% (w/w). Further experiments revealed that B. cepacia lipase immobilized in hydrophobic silicates was sufficiently tolerant to methanol, and glycerol adsorbed on the support disturbed the reaction to some extent in the present reaction system. The continuous production of biodiesel was performed at steady state using a lipase-immobilized silica monolith bioreactor loaded with 1.67 g of lipase. The yield of 95% was reached at a flow rate of 0.6 mL h-1, although the performance of the continuous bioreactor was somewhat below that predicted from the batch reactor. The bioreactor was operated successfully for almost 50 days with 80% retention of the initial yield.
Conclusions:
The presence of free fatty acids originally contained in Jatropha oil improved the reaction efficiency of the biodiesel production. A combination of B. cepacia lipase and its immobilization support, n-butyl-substituted silica monolith, was effective in the production of biodiesel. This procedure is easily applicable to the design of a continuous flow-through bioreactor system.Source:
http://www.biotechnologyforbiofuels.com/rss/

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