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稀碱-Fenton试剂预处理对云南苦竹酶水解得率的影响 被引量:5

Influence of Alkaline-Fenton Pretreatment on the Enzymatic Hydrolysis Yield of Yunnan Bamboo
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摘要 利用响应面法对稀碱-Fenton反应预处理竹粉的条件进行优化,确定最佳的Fenton预处理条件为:1 g稀碱预处理后竹粉底物加入质量分数30%的H2O2溶液3.4 m L,Fe2+浓度15.8 mmol/L,反应时间12 h,获得的72 h酶水解得率为49.98%。与原料和经2%Na OH预处理后的样品相比,经2%Na OH-Fenton预处理后的样品中纤维素含量升高,半纤维素和木质素含量降低,72 h酶水解得率为48.24%,分别提高了47.79和37.44个百分点。当纤维素酶和β-葡萄糖苷酶的用量分别为32 FPIU/g和16 IU/g(以纤维素质量计)时,72 h酶水解得率为76.64%,比单独使用纤维素酶时的酶水解得率提高了22.80%。 The optimum reaction conditions of alkaline-Fenton pretreatment of bamboo were obtained through the response surface methodology. The results showed that the optimum conditions of Fenton reaction were alkaline treated bamboo 1 g, 30% H2O2 3.4 mL, concentration of Fe^2+ 15.8 mmol/L, and reaction time 12 h. The 72 h enzymatic hydrolysis yield was 49.98%. The sample pretreated by 2% NaOH-Fenton had higher cellulose content and lower hemicellulose and lignin content compared with the materials and sample pretreated by 2% NaOH. The 72 h enzymatic hydrolysis yield was 48.24% and increased by 47.79% and 37.44%, respectively. The 72 h enzymatic hydrolysis yield was 76.64% when the dosage of the cellulase and the β-glucosidase were 32 FPIU/g and 16 IU/g, respectively. This was 22.80% higher than that with the single use of the cellulase 32 FPIU/g.
作者 王燕云 杨静
机构地区 西南林业大学云南省木材胶黏剂及胶合制品重点实验室 西南林业大学材料工程学院
出处 《生物质化学工程》 CAS 北大核心 2015年第5期17-22,共6页 Biomass Chemical Engineering
基金 国家自然科学基金资助项目(31260162)
关键词 响应面法 FENTON反应 酶水解得率 response surface methodology Fenton reaction enzymatic hydrolysis yield
分类号 TQ223.122 [化学工程—有机化工] TQ353.1
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参考文献11

  • 1蒋剑春.生物质能源转化技术与应用(Ⅰ)[J].生物质化学工程,2007,41(3):59-65. 被引量:83
  • 2MAIS U,ESTEGHLALIAN A R,SADDLER J N,et al. Enhancing the enzymatic hydrolysis of cellulosic materials using simultaneous ball milling[J].Applied Biochemistry and Biotechnology,2002,98:815-832. 被引量:1
  • 3马斌,储秋露,朱均均,欧阳嘉,余世袁,勇强.4种木质纤维素预处理方法的比较[J].林产化学与工业,2013,33(2):25-30. 被引量:15
  • 4BANERJEE S,SEN R,GIRI B,et al.Commercializing lignocellulosic bioethanol:Technology bottlenecks and possible remedies[J].Biofuels Bioproducts and Biorefining,2010,4(1):77-93. 被引量:1
  • 5YANG B,WYMAN C E. Pretreatment:The key to unlocking low-costcellulosic ethanol[J].Biofuels Bioproducts and Biorefining,2008,2(1):26-40. 被引量:1
  • 6BALLESTEROS I,OLIVA J M,NEGRO M J,et al.Enzymatic hydrolysis of steam exploded herbaceous agricultural waste (Brassica carinata) at different particule sizes[J].Process Biochemistry,2002,38(2):187-192. 被引量:1
  • 7CHEN Ming,ZHAO Jing,XIA Li-ming.Enzymatic hydrolysis of maize straw polysaccharides for the production of reducing sugars[J]. Carbohydrate Polymers,2008,71(3):411-415. 被引量:1
  • 8吴有炜著..试验设计与数据处理[M].苏州:苏州大学出版社,2002:418.
  • 9SLUITER A,HAMES B,SCARLATA C,et al.DE-AC3608GO28308-2008,Determination of structural carbohydrates and lignin in biomass[S].United States:National Renewable Energy Laboratory Golden,CO,2008. 被引量:1
  • 10朱均均,朱圆圆,程婷,徐勇,勇强,余世袁.玉米秸秆乙酰基水解产物对乙醇发酵的影响及去除策略[J].林产化学与工业,2014,34(1):1-7. 被引量:5

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生物质化学工程
2015年 第5期

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