Your search keyword '"Alkaline peroxide"' showing total 2 results

1. Impact of double alkaline peroxide pretreatment on enzymatic hydrolysis of palm fibre

Author

Wangliang Li, Yuming Zhang, and Shengqiang Chang

Subjects

0106 biological sciences, 020209 energy, Materials Science (miscellaneous), Biomass, Alkaline peroxide, 02 engineering and technology, Cellulase, lcsh:Chemical technology, 01 natural sciences, Catalysis, chemistry.chemical_compound, Hydrolysis, 010608 biotechnology, Enzymatic hydrolysis, 0202 electrical engineering, electronic engineering, information engineering, Lignin, lcsh:TP1-1185, chemistry.chemical_classification, biology, Process Chemistry and Technology, Reducing sugar, Fuel Technology, chemistry, Yield (chemistry), biology.protein, Nuclear chemistry

Abstract

A double pretreatment was developed to improve the efficiency of enzymatic hydrolysis and to increase the sugars production from palm fibre in batch and fed-batch systems. After alkaline peroxide pretreatment using NaOH-H2O2 solution, rigid structure of palm fibre was broken and partial of the hemicelluloses and lignin were removed. Compared with cellulase Accellerase® 1500, when using the conjunction of Accellerase® 1500 and Optimash BG, the conversion ratio increased from 35.9% to 45.0% and the reducing sugar yield increased from 245 mg/g substrate to 307 mg/g substrate. To further increase the hydrolysis efficiency, double pretreatment with NaOH-H2O2 solution was used to treat the hydrolysized residues. Then, the hydrolysis ratio reached 93% and reducing sugar yield was 752 mg/g substrate. Fed-batch enzymatic hydrolysis was carried out with 7% (w/v) solids loading and 0.3 mL/g substrate. Then, 7% solids were fed consecutively at 12 h, 24 h, 36 h and 48 h. After 144 h, the final concentration of reducing sugar reached 214.0 g/L and total biomass conversion ratio was 75.23%. Keywords: Cellulase, Palm fibre, Reducing sugar, Lignin, Alkaline peroxide pretreatment

Published

2018

2. Utilization of pineapple stem juice to enhance enzyme-hydrolytic efficiency for sugarcane bagasse after an optimized pre-treatment with alkaline peroxide

Author

Monte, J.R., Brienzo, M., and Milagres, A.M.F.

Subjects

*HYDROLYSIS, *PINEAPPLE juice, *ENZYMES, *SUGARCANE, *BAGASSE, *PEROXIDES, *CELLULASE, *XYLANASES, *ESTERASES

Abstract

Abstract: The enzymatic hydrolysis of sugarcane bagasse was investigated by treating a peroxide–alkaline bagasse with a pineapple stem juice, xylanase and cellulase. Pre-treatment procedures of sugarcane bagasse with alkaline hydrogen peroxide were evaluated and compared. Analyses were performed using 24 factorial designs, with pre-treatment time, temperature, magnesium sulfate and hydrogen peroxide concentration as factors. The responses evaluated were the yield of cellobiose and glucose released from pretreated bagasse after enzymatic hydrolysis. The results show that the highest enzymatic conversion was obtained for bagasse using 2% hydrogen peroxide at 60°C for 16h in the presence of 0.5% magnesium sulfate. Bagasse (5%) was treated with pineapple stem extract, which contains mixtures of protease and esterase, in combination with xylanase and cellulase. It was observed that the amount of glucose and cellobiose released from bagasse increased with the mixture of enzymes. It is believed that the enzymes present in pineapple extracts are capable of hydrolyze specific linkages that would facilitate the action of digesting plant cell walls enzymes. This increases the amount of glucose and other hexoses that are released during the enzymatic treatment and also reduces the amount of cellulase necessary in a typical hydrolysis. [ABSTRACT FROM AUTHOR]

Published

2011