In situ visualization and effect of glycerol in lipase-catalyzed ethanolysis of rapeseed oil

Immobilized lipases can be used in biodiesel production to overcome many disadvantages of the conventional base-catalyzed process. However, the glycerol by-product poses a potential problem for the biocatalytic process as it is known to inhibit immobilized lipases, most likely by clogging of the catalyst particles. In this paper, this negative effect was further investigated and confirmed in ethanolysis of rapeseed oil. A dyeing method was developed for in situ visualization of glycerol in order to study its partitioning and accumulation during the ethanolysis reaction. The method was used to illustrate the interaction of glycerol with immobilized lipases and thus provided an aid for screening supports for lipase immobilization according to their interaction with glycerol. Glycerol was found to have great affinity for silica, less for polystyrene and no affinity for supports made from polymethylmethacrylate and polypropylene. It was also found that the immobilization of enzyme on the support influenced the adsorption of glycerol to the surface of the enzyme carrier.

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► Effects of glycerol in enzyme-catalyzed biodiesel synthesis.
► Dyeing method for in situ visualization of glycerol interactions with catalyst.
► Immobilized lipase benefit from hydrophobic supports in glycerol-forming reactions.
► Catalyst hydrophobicity is affected by both support and enzyme.