Versissimo, L. A. A.Mol, P. C. G. [UNESP]Soares, W. C. L.Minim, V. P. R.Hespanhol, M. C.Minim, L. A.2019-10-042019-10-042018-04-01Revista Mexicana De Ingenieria Quimica. Mexico: Univ Autonoma Metropolitana-iztapalapa, v. 17, n. 1, p. 177-187, 2018.1665-2738http://hdl.handle.net/11449/184931In this work, it was developed a novel bioreactor consisting of Aspergillus niger lipase (ANL) entrapped in a supermacroporous polyactylarnide cryogel. Bioreactor performance in catalyzing the flavor ester butyl butyrate was optimized as a function of temperature (degrees C), substrate molar ratio (butyric acid: n-butanol) and added water (% (v/v)). The bioreactor was also applied to interesterification reactions. The maximum esterification yield (46%) for butyl butyrate synthesis was found at 40 degrees C, with a butyric acid:n-butanol molar ratio of 1:1.43 and added water of 65% (v/v). The bioreactor showed to be reusable with four consecutive reuses in the esterification reaction, with a volumetric activity of 31.6 mmol/mL-h. An interesterification yield of 17.35% was achieved when the substrate concentrations of ttipalmitin and triolein were both 15 mmol/L, 35% added water (v/v) and temperature of 40 degrees C. These results showed that the bioreactor is a promising biocatalyst for biotechnological applications.177-187engcryogellipaseentrapmentbutyl butyratetripalmitinArtigoWOS:000446943400015Acesso restrito