Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
677772 | Biomass and Bioenergy | 2011 | 7 Pages |
The whole cell of lipase-producing Rhizopus oryzae was employed as biocatalyst for transesterification of soybean oil containing oleic acid. The free fatty acid (FFA) intermediate, playing an important role in the kinetics of transesterification of soybean oil, was thoroughly investigated and characterized. The conversion was more than 97% at the initial FFA content of 5.5%. A high content of FFA could protect the lipase from denaturation. The 34.6 percent of FFA with the optimal 26-mg mL−1 methanol resulted in a specific reaction rate of 420 mg h−1g-dry cell−1. In addition, the methanol/FFA ratio at 0.83–1.7 provides a good indication of the fatty acid methyl esters conversions for different initial FFA contents. In the transesterification process, more FFA intermediate present would become beneficial to conversion of retrograde feedstock to biodiesel. The immediately generated and original FFA content become the major rate-determining factor in the FFA-mixed transesterification process.
► Rhizopus oryzae whole cell is used for biodiesel production from oil containing FFA. ► The conversion is more than 97% at the initial FFA content of 5.5%. ► A high FFA content protects the lipase, and then a rate of 420 mg/h/g achieved. ► The MeOH/FFA ratio at 0.83–1.7 provides a good indication of the FAME conversions. ► More FFA present in oils is beneficial to convert retrograde feedstock to biodiesel.