초록
The present work investigated the effects of subcritical CO<SUB>2</SUB> pretreatment of sugarcane bagasse at different CO<SUB>2</SUB> pressure, pretreatment time, and temperature with relative high-solid concentration (15% w/v) to the composition of prehydrolyzate and the enzymatic hydrolysis. The results indicated that the maximum xylose yields in prehydrolyzate liquid were 15.78g (combined 3.16g xylose and 12.62g xylo-oligosaccharides per 100g raw material). Due to the effective removal of hemicellulose, the maximum glucose yield in enzyme hydrolyzate reached 37.99g per 100g raw material, representing 91.87% of glucose in the sugarcane bagasse. The maximal total sugars yield (combined xylose and glucose both in prehydrolyzate and enzymatic hydrolyzate) were 52.95g based on 100g raw material. These results indicated that subcritical CO<SUB>2</SUB> pretreatment can effectively improve the enzymatic hydrolysis, so it could be successfully applied to sugarcane bagasse.