Your search keyword '"Yuande Peng"' showing total 2 results

1. Co-fermentation of succinic acid and ethanol from sugarcane bagasse based on full hexose and pentose utilization and carbon dioxide reduction

Author

Shushi Huang, Gong Wenbing, Md. Asraful Alam, Wei Zhuang, Chao Xu, Chunliang Xie, Qi Yang, Zhongming Wang, Yuande Peng, and Jingliang Xu

Subjects

Co-fermentation, Environmental Engineering, Pentoses, Succinic Acid, Lignocellulosic biomass, Pentose, Bioengineering, Saccharomyces cerevisiae, Xylose, chemistry.chemical_compound, Biorefining, Cellulose, Waste Management and Disposal, chemistry.chemical_classification, Ethanol, Renewable Energy, Sustainability and the Environment, General Medicine, Carbon Dioxide, Biorefinery, Pulp and paper industry, Saccharum, Glucose, chemistry, Succinic acid, Fermentation, Bagasse

Abstract

The full utilization of carbohydrates in lignocellulosic biomass is essential for an efficient biorefining process. In this study, co-fermentation was performed for processing ethanol and succinic from sugarcane bagasse. By optimizing the co-fermentation conditions, nutrition and feeding strategies, a novel process was developed to make full utilization of the glucose and xylose in the hydrolysate of sugarcane bagasse. The achieved concentrations of succinic acid and ethanol reached to 22.1 and 22.0 g/L, respectively, and could realize the conversion of 100 g SCB raw material into 8.6 g ethanol and 8.7 g succinic acid. It is worth mentioning that the CO2 released from S. cerevisiae in co-fermentation system was recycled by A. succinogenes to synthesize succinic acid, realized CO2 emission reduction in the process of lignocellulosic biomass biorefinery. This study provided a clue for efficient biorefinery of lignocellulosic biomass and reduction greenhouse gas emissions.

Published

2021

2. White-rot fungi pretreatment combined with alkaline/oxidative pretreatment to improve enzymatic saccharification of industrial hemp

Author

Chunliang Xie, Yuande Peng, Qi Yang, Hu Zhenxiu, Yan Li, Gong Wenbing, and Zhu Zuohua

Subjects

0106 biological sciences, Environmental Engineering, Carbohydrates, Bioengineering, Cellulase, 010501 environmental sciences, 01 natural sciences, Hydrolysis, 010608 biotechnology, Enzymatic hydrolysis, Botany, Pleurotus eryngii, Food science, Waste Management and Disposal, 0105 earth and related environmental sciences, Cannabis, chemistry.chemical_classification, biology, Filter paper, Renewable Energy, Sustainability and the Environment, General Medicine, Hydrogen Peroxide, biology.organism_classification, Reducing sugar, Enzyme, chemistry, Yield (chemistry), biology.protein

Abstract

White-rot fungi combined with alkaline/oxidative (A/O) pretreatments of industrial hemp woody core were proposed to improve enzymatic saccharification. In this study, hemp woody core were treated with only white rot fungi, only A/O and combined with the two methods. The results showed that Pleurotus eryngii (P. eryngii) was the most effective fungus for pretreatment. Reducing sugars yield was 329 mg/g with 30 Filter Paper Unit (FPU)/g cellulase loading when treated 21 day. In the A/O groups, the results showed that when treated with 3% NaOH and 3% H2O2, the yield of reducing sugars was 288 mg/g with 30FPU/g cellulase loading. After combination pretreatment with P. eryngii and A/O pretreatment, the reducing sugar yield from enzymatic hydrolysis of combined sample increased 1.10–1.29-fold than that of bio-treated or A/O pretreatment sample at the same conditions, suggesting that P. eryngii combined with A/O pretreatment was an effective method to improve enzyme hydrolysis.

Published

2017