Characterization of the hydrolysis of corn stover catalyzed by inorganic Fe salt for biogas production

机译：无机铁盐催化沼气水解生产沼气的表征

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Two inorganic salts,FeCl3 and Fe(NO3)3,were chosen as catalysts to determine their effects on the hydrolysis of corn stover,and the results indicated that Fe(NO3)3 was one of the most efficient catalyst for the hydrolysis of hemicelluloses.The kinetics of the hydrolysis reaction of corn stover catalyzed by Fe(NO3)3 were investigated at different temperatures.The results showed that two-fraction model fitted very well the hydrolysis reaction of hemicelluloses catalyzed by Fe(NO3)3,and the kinetic parameters for this model were obtained by nonlinear regression using the Newton’s method.The activation energies for the hydrolysis of hemicelluloses in corn stover was 91.79 kJ/mol calculated by the classic Arrhenius equation.Optimum pretreatment conditions were 0.05 mol/L Fe(NO3)3 at 150℃ for 16.5 min,which obtained the maximum xylose yields 91.3％ of initial xylan.

机译：选择了两种无机盐FeCl3和Fe（NO3）3作为催化剂，确定它们对玉米秸秆水解的影响，结果表明Fe（NO3）3是半纤维素水解最有效的催化剂之一。研究了Fe（NO3）3催化玉米秸秆在不同温度下的水解反应动力学。结果表明，两馏分模型很好地拟合了Fe（NO3）3催化的半纤维素水解反应，动力学参数该模型通过牛顿法通过非线性回归获得。玉米秸秆中半纤维素水解的活化能为91.79 kJ / mol，采用经典的Arrhenius方程计算。最佳预处理条件为：0.05 mol / L Fe（NO3）3在150℃下加热16.5min，木糖最大得率为起始木聚糖的91.3％。

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来源
《2013 International conference on materials for renewable energy amp; environment》|2013年|359-363|共5页
会议地点 Chengdu(CN)
作者
Xiaoyan Yu; Runjuan Wang; JunQi; Xuebin Lu;
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作者单位

School of Chemical Engineering and Technology Tianjin University Tianjin, China;

School of Environmental Science and Engineering Tianjin University Tianjin, China;

School of Environmental Science and Engineering Tianjin University Tianjin, China;

School of Environmental Science and Engineering Tianjin University Tianjin, China;

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原文格式 PDF
正文语种 eng
中图分类 TB346;
关键词
corn stover; Fe(NO3)3; hemicellulose hydrolysis; kinetics;

机译：玉米秸秆； Fe（NO3）3；半纤维素水解；动力学;
入库时间 2022-08-26 14:01:22

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1. Production of reducing sugar from corn stover by dilute acid hydrolysis co-catalyzed with metal salts under microwave radiation [J] . Zhao S., Li P., Zhang Q., Research on Chemical Intermediates . 2013,第8期

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2. Kinetic study for Fe(NO_3)_3 catalyzed hemicellulose hydrolysis of different corn stover silages [J] . Sun Y., Lu X., Zhang S., Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2011,第3期

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3. Physical and Chemical Characterizations of Corn Stover from Leading Pretreatment Methods and Effects on Enzymatic Hydrolysis [J] . Zhi-Hua Liu, Lei Qin, Bing-Zhi Li ACS Sustainable Chemistry & Engineering . 2015,第1期

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4. Characterization of the hydrolysis of corn stover catalyzed by inorganic Fe salt for biogas production [C] . Yu Xiaoyan, Wang Runjuan, Qi Jun, International Conference on Materials for Renewable Energy and Environment . 2013

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5. Thermophilic Anaerobic Co-digestion of Swine Manure with Corn Stover for Biogas Production [D] . Liu, Zhimin. 2017

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Characterization of the hydrolysis of corn stover catalyzed by inorganic Fe salt for biogas production

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