ABSTRACT
Eucalyptus hemicellulose was hydrolyzed by treating eucalyptus wood chips with sulfuric acid. The hydrolyzate was used as the substrate to produce single-cell protein by growing Paecilomyces variotii IOC-3764 for 72 or 96 h. The influences of rice bran, ammonium sulfate and fermentation time were verified by a 23 full-factorial central composite design. At the optimum process conditions, the cell concentration was 12.06 g/l, which was obtained when the microorganisms were cultivated for 89 h in a medium composed of 10 g/l rice bran, 2.0 g/l nitrogen and 1.1 g/l sodium phosphate. The mathematical model Y = 10.65 + 2.40X2 + 2.36X3 + 1.16X2X3 - 2.10X2(2) - 1.06X3(2) describes biomass production by P. variotii in eucalyptus hemicellulosic hydrolyzate with a determination coefficient of R2 = 0.9561, where X2 and X3 are ammonium sulfate and fermentation time, respectively.
Subject(s)
Models, Theoretical , Paecilomyces/growth & development , Polysaccharides/pharmacology , Ammonium Sulfate/pharmacology , Biomass , Eucalyptus , Fermentation , Hydrolysis , WoodABSTRACT
Xylose reductase activity of Candida guilliermondii FTI 20037 was evaluated during xylitol production by fed-batch fermentation of sugarcane bagasse hydrolysate. A 2(4-1) fractional factorial design was used to select process variables. The xylose concentrations in the feeding solution (S(F)) and in the fermentor (S0), the pH, and the aeration rate were selected for optimization of this process, which will be undertaken in the near future. The best experimental result was achieved at S(F) = 45 g/L, S0 = 40 g/L, pH controlled at 6.0, and aeration rate of 1.2 vvm. Under these conditions, the xylose reductase activity was 0.81 U/mg of protein and xylitol production was 26.3 g/L, corresponding to a volumetric productivity of 0.55 g/(L x h) and a xylose xylitol yield factor of 0.68 g/g.
Subject(s)
Aldehyde Reductase/metabolism , Candida/enzymology , Xylitol/metabolism , Candida/growth & development , Culture Media , Factor Analysis, Statistical , Fermentation , Kinetics , Mycology/methodsABSTRACT
This study deals with the bioconversion of xylose into xylitol by Candida guilliermondii FTI 20037 using eucalyptus hemicellulosic hydrolysate obtained by acid hydrolysis. The influence of various parameters (ammonium sulfate, rice bran, pH, and xylose concentration) on the production of xylitol was evaluated. The experiments were based on multivariate statistical concepts, with the application of factorial design techniques to identify the most important variables in the process. The levels of these variables were quantified by the response surface methodology, which permitted the establishment of a significant mathematical model with a coefficient determination of R2 = 0.92. The best results (xylitol = 10.0 g/L, yield factor = 0.2 g/g, and productivity = 0.1 g/[L x h]) were attained with hydrolysate containing ammonium sulfate (1.1 g/L), rice bran (5.0 g/L), and xylose (initial concentration of 60.0 g/L), after 72 h of fermentation. The pH of fermentation was adjusted to 8.0 and the inoculum level utilized was 3 g/L.