Seleção de suportes e protocolos de imobilização de lipases para a síntese enzimática de biodiesel

The objective of this thesis was to prepare and select immobilized lipase derivatives with high catalytic activity and thermal stability to mediate the biodiesel synthesis from palm and babassu oils by ethanolic route. The experimental work was carried out in two steps. In the first, different lipases sources, including lipases from Thermomyces lanuginosus (TLL), Candida antarctica type B (CALB), porcine pancreas (PPL), Bacillus thermocatenulatus (BTL2), Pseudomonas fluorescens (LPF) and Lipex® 100L were immobilized on different supports activated by several protocols using two immobilization methods, such as physical adsorption and multipoint covalent attachment. The following matrixes were used: agarose, Toyopearl, chitosan, alginate-chitosan, octyl-agarose, hexyltoyopearl and PHB and activating agents were: glutaraldehyde, epichlorohydrin and glycidol. As expected the immobilization procedure, support and lipase source affected the catalytic properties of the immobilized derivatives and their suitability for the proposed reaction. With an exception of PPL, all lipase preparations (TLL, PFL, Lipex® 100L and CALB) showed high alkaline stability under the immobilization conditions (72 h at pH 10.05) resulting in immobilized derivatives having high hydrolytic activities. The highest hydrolytic activities were obtained by TLL immobilized on glyoxyl-agarose, glyoxyl-chitosan-alginate-TNBS, epoxy-chitosan-alginate and Lipex® 100L immobilized on epoxy-chitosan-alginate and glyoxyl-agarose. Under non-aqueous media using butyl butyrate synthesis as a model system, TLL and PFL immobilized on glyoxyl-agarose and glyoxyl-amine-toyopearl showed similar conversions. The highest thermal stability were obtained for non-aminated BTL2 immobilized on glyoxyl-agarose 10BCL (Stability Factor- SF =2648) and chemically aminated (SF=4360), followed by aminated CALB immobilized on glyoxyl-agarose BCL (SF=290) and TLL immobilized on glyoxyl-agarose BCL (SF~300). Using chitosan-alginate, the highest thermal stability was obtained for ...