膨化预处理玉米秸秆提高还原糖酶解产率的效果

    Corn straw expansion pretreatment to improve enzymolysis reducing sugar yield

    • 摘要: 为了提高玉米秸秆的可发酵还原糖转化率,采用膨化技术对玉米秸秆木质纤维素进行预处理。扫描电镜观察,玉米秸秆的纤维束受到破坏,木质素包裹作用减弱,纤维素酶的空间作用面积提高。红外光谱分析表明有部分半纤维素和少量木质素水解;X射线衍射测定纤维素结晶度降低了12.68%。通过进一步纤维素酶解试验,与未处理的相比膨化处理后原料酶解时间可缩短16 h,未经膨化处理原料还原糖的酶解产率为13.48%,膨化处理后原料还原糖的酶解产率可达24.91%。结果表明,膨化预处理技术可明显提高玉米秸秆木质纤维素的能源化利用效率。该试验为膨化玉米秸秆酶解工艺的进一步研究提供依据。

       

      Abstract: In order to improve fermentable reducing sugar yield of corn straw, corn straw lignocellulose was pretreated by expansion technology. Scanning electron microscope pictures showed that the corn straw fibre bundle was destroyed and the wrapped function of lignin was weaken, so that to improve space effect of cellulase. Infrared spectrum analysis showed that some hemicellulose and small amounts of lignin were hydrolysed. X-ray diffraction showed the crystalline degree of cellulose decreased by 12.68%, respectively. By means of further cellulose enzyme solution experiment, expansion treatment of raw material’s enzymolysis time could be reduced 16 h. Without expansion material’s reducing sugar productivity was 13.48%, and expanded material’s reducing sugar productivity was 24.91%. The results show that the expansion pretreatment technology can obviously increase the corn straw lignocellulose energy-oriented utilization efficiency. The experiment provided a basis for further research on expanded corn straw enzymolysis.

       

    /

    返回文章
    返回