Propriedades físicas, químicas e de barreira em filme formados por blenda de celulose bacteriana e fécula de batata

A associação da celulose bacteriana com outros polímeros pode ser um método efetivo para aumentar suas características e estrutura, proporcionando novas aplicações industriais. O objetivo do trabalho foi verificar a influência da celulose bacteriana nas propriedades físicas, químicas e de barreira em filmes a partir de blendas de celulose bacteriana e fécula de batata. Os filmes foram produzidos segundo planejamento de mistura ternária, tendo como variáveis independentes a celulose bacteriana, fécula de batata e glicerol. Blendas com maiores concentrações de celulose bacteriana apresentaram aumento na espessura, gramatura, taxa de permeabilidade ao vapor de água e permeabilidade ao vapor de água e, redução da densidade, solubilidade, opacidade, índice de intumescimento em pH 1,8 e 8,0 (1, 10, 30 e 60 minuto). A microscopia eletrônica de varredura mostrou filmes com matriz coesa, porém irregular com presença de partículas insolúveis de celulose bacteriana. O filme de celulose bacteriana pura apresentou aumento na gramatura, opacidade, taxa de permeabilidade ao vapor de água e no intumescimento em pH 1,8 1 minuto e pH 8,0 1, 10, 30 e 60 minutos. A celulose bacteriana promoveu elevada capacidade de retenção, absorção e baixa dessorção a água, proporcionando biofilmes com características de barreira à luz e manutenção da umidade

Second Generation Ethanol Production from Brewers’ Spent Grain

Ethanol production from lignocellulosic biomasses raises a global interest because it represents a good alternative to petroleum-derived energies and reduces the food versus fuel conflict generated by first generation ethanol. In this study, alkaline-acid pretreated brewers' spent grain (BSG) was evaluated for ethanol production after enzymatic hydrolysis with commercial enzymes. The obtained hydrolysate containing a glucose concentration of 75 g/L was adopted, after dilution up to 50 g/L, for fermentation by the strain Saccharomyces cerevisiae NRRL YB 2293 selected as the best producer among five ethanologenic microorganims. When the hydrolysate was supplemented with yeast extract, 12.79 g/L of ethanol, corresponding to 0.28 g of ethanol per grams of glucose consumed (55% efficiency), was obtained within 24 h, while in the non-supplemented hydrolysate, a similar concentration was reached within 48 h. The volumetric productivity increased from 0.25 g/L·h in the un-supplemented hydrolysate to 0.53 g/L h in the yeast extract supplemented hydrolysate. In conclusion, the strain S. cerevisiae NRRL YB 2293 was shown able to produce ethanol from BSG. Although an equal amount of ethanol was reached in both BSG hydrolysate media, the nitrogen source supplementation reduced the ethanol fermentation time and promoted glucose uptake and cell growth. © 2015 by the authors

Citric acid production by solid-state fermentation on a semi-pilot scale using different percentages of treated cassava bagasse

Citric acid is commercailly important product used in several industrial processes. Solid-state fermentation (SSF) has become an alternative method for citric acid production using agro-industrial residues such as cassava bagasse (CB). Use of CB as substrate can avoid the environmental problems caused by its disposal in the environment. The aim of this work was to verify the effect of different percentages of gelatinized starch in CB on production of citric acid by SSF in horizontal drum and tray-type bioreactors. Gelatinization was used in order to make the starch structure more susceptible to consumption by the fungus. The best results (26.9 g/100g of dry CB) were obtained in horizontal drum bioreactor using 100% gelatinized CB, although the tray-type bioreactor offers advantages and shows promise for large-scale citric acid production in terms of processing costs

Analysis and glycosyl composition of the exopolysaccharide isolated from submerged fermentation of Ganoderma lucidum CG144

The evaluation of glycosyl composition is an essential step to guide future research designs applied in bioactivity. In the same way, the unexplored potential bioactivity of exopolysaccharide from Ganoderma lucidum is huge. Therefore, this study investigated the glycosyl composition of the exopolysaccharide isolated from submerged fermentation of G. lucidum to serve as guide for future studies on bioactivity. Glycosyl content and composition were evaluated by combined GC/MS of the TMS derivatives of the monosaccharide methyl glycosides produced from the sample by acidic methanolysis. Glycosyl composition analysis showed that the dominant carbohydrate component in all samples of exopolysaccharide isolated from submerged fermentation of G. lucidum CG 144 was glucose (58.1%), mannose (26.6%) and galactose (12.5%) which can be referred to as heteroglycan. These results suggest that this Ganoderma exopolysaccharide may be a new immunomodulatory agent