Extração e caracterização da lignina proveniente do pré-tratamento de biomassa para produção de etanol de 2a geração / Extraction and characterization of lignin from the pre-treatment of biomass for 2 nd generation ethanol production

RESUMO A biomassa destaca-se como um dos poucos recursos disponíveis com potencial de desenvolvimento de biorrefinarias para a inclusão de rotas alternativas sustentáveis na produção de energia e produtos químicos. A lignina é um subproduto do pré-tratamento da biomassa na produção de etanol de segunda geração, basicamente composta de cadeias de carbono e que pode ter alto valor agregado. Contudo, tem sido tradicionalmente utilizada para geração de energia por queima direta. Sendo assim, o objetivo do presente estudo foi investigar a influência do pH na precipitação do licor negro, variando o pH de 1 a 7, bem como caracterizar os componentes da sua estrutura química para possíveis usos futuros. Após a obtenção da massa precipitada, procedeu-se às análises espectrofotométricas no infravermelho e no ultravioleta, além da quantificação de fenóis totais, nas frações sólidas e líquidas das ligninas provenientes dos diferentes pH. Os resultados demonstram que as maiores concentrações de lignina foram obtidas nos menores valores de pH. As análises instrumentais indicaram diferenças nos componentes de cada lignina, sugerindo que sua composição química é influenciada pela alteração do pH. Ainda, a concentração total de fenóis no sobrenadante das amostras foi menor em pH mais baixos, confirmando que há maiores concentrações desses na fração sólida das ligninas.

ABSTRACT Biomass appears to be one of the few resources available with the potential of developing bio refineries for the inclusion of sustainable alternative routes in the production of energy and chemicals. Lignin is a 2nd generation by-product of biomass pre-treatment on ethanol production, and consists of carbon chains, which can have a high added value. However, lignin is being considered just for energy generation. Therefore, the aim of this study was to investigate the influence of pH in the precipitation of black liquor through its acidification of in different pH values (1-7), and to characterize the components of its chemical structure for possible future use. After determining the precipitated mass, a spectrophotometric analysis was carried out on infrared and ultraviolet, along with the quantification of total phenolic compounds in the solid and liquid fractions of lignin derived from different pH ranges. The results showed that the higher lignin concentrations were obtained at lower pH values. The instrumental analysis indicated significant differences in each lignin's components, suggesting that its chemical composition is influenced by pH change. To conclude, the total concentration of phenolic compounds in the supernatant of the samples was lower at lower pH ranges, indicating that there are higher concentrations of these in lignin's solid fraction.

Optimization of RT-PCR reactions in studies with genes of lignin biosynthetic route in Saccharum spontaneum

ABSTRACT Saccharum spontaneum has been used for the development of energy cane a crop aimed to be used for the production of second-generation ethanol, or lignocellulosic ethanol. Lignin is a main challenge in the conversion of cell wall sugars into ethanol. In our studies to isolate the genes the lignin biosynthesis in S. spontaneum we have had great difficulty in RT-PCR reactions. Thus, we evaluated the effectiveness of different additives in the amplification of these genes. While COMT and CCoAOMT genes did not need any additives for other genes there was no amplification (HCT, F5H, 4CL and CCR) or the yield was very low (CAD and C4H). The application of supplementary cDNA was enough to overcome the non-specificity and low yield for C4H and C3H, while the addition of 0.04% BSA + 2% formamide was effective to amplify 4CL, CCR, F5H and CCR. HCT was amplified only by addition of 0.04% BSA + 2% formamide + 0.1 M trehalose and amplification of PAL was possible with addition of 2% of DMSO. Besides optimization of expression assays, the results show that additives can act independently or synergistically.

Evaluación del pretratamiento con ácido sulfúrico diluido del pasto maralfalfa (Pennisetum glaucum x Pennisetum purpureum) para la producción de etanol / Dilute sulfuric acid pretreatment of goliath grass (Pennisetum glaucum x Pennisetum purpureum) for ethanol cellulosic

Evaluar la producción de etanol a partir de cultivos lignocelulósicos, específicamente pastos de rápido crecimiento en la región, constituye una alternativa a la demanda de biocombustibles. En la presente investigación se seleccionó el pasto Maralfalfa (Pennisetum glaucum x Pennisetum purpureum) utilizando el pretratamiento con ácido sulfúrico diluido a diferentes temperaturas (110, 130, 150, 170 y 190 °C) y concentraciones de ácido (0.8, 1.2 y 2.0% (p/p)), seguido de un proceso de hidrólisis enzimática utilizando celulasas y celobiosas comerciales y un proceso de hidrólisis y fermentación simultanea. La máxima producción de etanol obtenido fue 117 mg etanol/ g biomasa pretratada a 190 °C y 1,2 %(p/p) de ácido sulfúrico. El líquido hidrolizado fue caracterizado calculando el porcentaje de glucosa, xilosa y lignina solubilizadas y degradadas durante el pretratamiento.

The goliath grass (Pennisetum glaucum x Pennisetum purpureum) was pretreated with different sulfuric acid concentrations (0.8, 1.2 y 2.0% (w/w)) from low to high temperatures (110, 130, 150, 170 y 190 °C) followed by enzymatic hydrolysis and SSF of remaining solids. The maximum yield was 117 mg of ethanol/g biomass to 190 °C and 1.2 % (w/w) of sulfuric acid.