Alkali-peroxide treatment of sugar cane bagasse. Effect of chemical charges on the efficiency of xylan isolation and susceptibility of bagasse to saccharification

CABRERA, MARÍA NOEL; INALBON, MARÍA CRISTINA; CABRERA, MARÍA NOEL; INALBON, MARÍA CRISTINA; MOCCHIUTTI, PAULINA; SOLIER, YAMIL NAHÚN; ZANUTTINI, MIGUEL ÁNGEL; SAPARRAT, MARIO CARLOS NAZARENO; MOCCHIUTTI, PAULINA; SOLIER, YAMIL NAHÚN; ZANUTTINI, MIGUEL ÁNGEL; SAPARRAT, MARIO CARLOS NAZARENO

Biomass Conversion and Biorefinery

Springer

Año: 2020

2190-6815

Sugar cane is a promising raw material for the extraction of hemicelluloses. An alkali treatment of sugar cane bagasse under proper conditions followed by a precipitation using a reasonable quantity of ethanol can be an effective method to isolate these polysaccharides. In this work, bagasse is treated to obtain two products: (a) polymeric hemicellulose and (b) an enzymatic hydrolysate from the treated bagasse after hemicellulose extraction. The effects of charges of sodium hydroxide (10, 20, 40% w/w) and hydrogen peroxide (0, 10, 20% w/w) in the alkali treatment were evaluated. A 32 experimental design was considered under control of metal ions and inert atmosphere during alkaline treatment. An acceptable proportion of xylose plus arabinose could be extracted from bagasse (up to 18.4 g/100 g of bagasse). Both the alkali and peroxide showed strong effects on the yield of the extraction, as well as on the yield of the precipitation in ethanol-water solution. Besides, the susceptibility of bagasse for cellulolytic enzymatic hydrolysis is improved. The highest hemicellulose precipitation yield was 85% which corresponded to the treatment with the highest alkali charge without peroxide. The highest yield of enzymatic hydrolysis was obtained for the highest alkali and peroxide charges. [Figure not available: see fulltext.].