Biodiesel production from soybean oil using Pseudomonas cepacia lipase immobilized onto polystyrene bead

Abstract

The improvement of polystyrene bead support for immobilization of Pseudomonas cepacia lipase, which used as catalyst for biodiesel production, was studied. The surface of polystyrene bead support was modified by polyglutaraldehyde-styrene copolymer (PGlu-STY-polystyrene bead) and gave the important property, which had lower density than water and oil thus it can float on the top of the reactor. Moreover, the polystyrene crosslinked with polyglutaraldehyde support was synthesized (synthesized-PGlu-polystyrene copolymer), which has high density and sank on the bottom of the reactor. After that, lipase from Pseudomonas cepacia immobilized on two different supports and its activity and efficiency of catalyst were analyzed. Results that the activity of lipase immobilized onto PGlu-STY-polystyrene bead was 26.12 U/g-support whereas the activity of lipase immobilized onto synthesized-PGlu-polystyrene copolymer was 30.25 U/g-support. For biodiesel production was synthesized by transesterification reaction of soybean oil with absolute ethanol using immobilized lipase onto PGlu-STY-polystyrene bead as catalyst. The optimal conditions were 1:5 molar ratio of oil/absolute ethanol at 40 ˚C for 24 hours. It gave maximal conversion at 98.8% and enzymatic reusability can be repeating over 10 batches and more efficiency than catalyst of immobilized lipase onto synthesized- PGlu-polystyrene copolymer.