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Composition and enzymatic digestibility of sugarcane bagasse pretreated with dilute sulfuric acid in static reactor

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Author(s):
Victor Tabosa de Oliveira Santos
Total Authors: 1
Document type: Master's Dissertation
Press: Lorena.
Institution: Universidade de São Paulo (USP). Escola de Engenharia de Lorena (EEL/ASDI)
Defense date:
Examining board members:
Walter de Carvalho; Célia Maria Araújo Galvão; Silvio Silverio da Silva
Advisor: Walter de Carvalho
Abstract

This study aimed to correlate the chemical composition of a sugarcane bagasse pretreated with dilute H2SO4 with the efficiency of cellulose enzymatic saccharification of this material. First, the sugarcane bagasse was extracted with water, ethanol or water followed by ethanol, and its chemical composition was determined. Subsequently, the sugarcane bagasse was pretreated with dilute H2SO4 in 200 mL stainless steel containers, using 15% of solids loading (w/v). The temperature (112.5-157.5°C), time of residence (5-35 min) and acid concentration (0-3.0% w/v) varied according to a 23 full factorial design. After the pretreatments, the chemical compositions of the pretreated bagasses were determined. Then, two commercial enzymatic extracts were characterized regarding the activities of hydrolytic enzymes and phenoloxidases, and protein contents. The enzymatic saccharification conditions for the bagasse sample pretreated with dilute H2SO4 (15% solids, 2% acid, 150°C for 30 min) were determined through 23 full factorial designs, varying the solids loading (1,19-4.81% w/v), enzyme loading (1.91-38.09 FPU/g of bagasse) and surfactant loading (0-0.1 g/g of bagasse) for the two enzymatic extracts. The bagasse samples pretreated under the different conditions of temperature, time of residence and H2SO4 concentration (first factorial design) were subjected to enzymatic saccharification using one of the extracts. Finally, selected samples were analyzed for morphological changes caused by pretreatment and enzymatic hydrolysis, by scanning electron microscopy. The results showed that water followed by ethanol extracted the highest amount of extractives. The extractives showed light absorption only in the ultraviolet region. The percentage of lignin in the bagasse samples extracted with water, ethanol and water followed by ethanol was lower than that found in the raw material. According to the pretreatment conditions, the amount of cellulose, hemicellulose and lignin in the pretreated bagasse differed substantially. The greatest variation was observed for the hemicellulose content (3.67-27.27%). All the three factors evaluated in the pretreatment affected the chemical composition of the pretreated bagasse. In turn, the two enzymatic extracts showed complete cellulolytic complexes and considerable activities of xylanases, without activities of phenoloxidases. The extract II showed higher protein content (152.45±10.0 mg/mL) when compared with the extract I (105.2±6.6 mg/mL). For 24 hours of enzymatic hydrolysis using the extract I, all the three independent variables influenced the saccharification of pretreated bagasse. Only the enzyme and surfactant loadings were significant, when using the extract II. Later, it was possible to increase the initial solids content without hindering the saccharification yield, using the extract II. It was not possible to correlate the cellulose conversion with the pretreatment severity. On other hand, it was possible to observe a negative correlation between the hemicellulose content and the efficiency of enzymatic conversion, emphasizing the influence of the sugarcane bagasse chemical composition in the enzymatic hydrolysis of cellulose. Morphological differences were observed between the raw material and sugarcane bagasse samples pretreated under high or low severity, as well as after their corresponding enzymatic hydrolysis. (AU)

FAPESP's process: 08/08864-6 - Study of the composition and enzymatic digestibility of sugarcane bagasse cellulignin obtained after pre-treatment with dilute sulfuric acid
Grantee:Victor Tabosa de Oliveira Santos
Support Opportunities: Scholarships in Brazil - Master