机械细化预处理硬木木质纤维素提高酶水解效率。

Enhancement in enzymatic hydrolysis by mechanical refining for pretreated hardwood lignocellulosics.

机构信息

North Carolina State University, Department of Forest Biomaterials, Biltmore Hall, 2820 Faucette Drive, Raleigh, NC 27695, United States.

出版信息

Bioresour Technol. 2013 Nov;147:353-360. doi: 10.1016/j.biortech.2013.08.030. Epub 2013 Aug 13.

DOI:10.1016/j.biortech.2013.08.030

PMID:24001562

Abstract

This study investigated the effectiveness of mechanical refining to overcome the biomass recalcitrance barrier. Laboratory scale refining was conducted via PFI mill and valley beater refiners using green liquor and Kraft hardwood pulps. A strong positive correlation was determined between sugar recovery and water retention value. Refining produced significant improvements in enzymatic hydrolysis yield relative to unrefined substrates (e.g., sugar recovery increase from 67% to 90%, for 15% lignin Kraft pulp). A maximum absolute enzymatic hydrolysis improvement with refining was observed at enzymatic hydrolysis conditions that produced intermediate conversion levels. For a 91% target sugar conversion, PFI refining at 4000 revolutions allowed for a 32% reduction in enzyme charge for 15% lignin content hardwood Kraft pulp and 96 h hydrolysis time, compared to the unrefined material.

摘要

本研究旨在探讨机械精炼克服生物质抗降解性障碍的效果。通过 PFI 磨机和 valley 打浆机，利用绿液和硫酸盐阔叶木浆进行实验室规模的精炼。结果表明，糖回收率与保水值之间存在很强的正相关关系。与未精炼的底物相比，精炼显著提高了酶解产率（例如，对于 15%木质素硫酸盐浆，糖回收率从 67%增加到 90%）。在产生中等转化水平的酶解条件下，精炼对酶解的绝对改善最大。对于 91%的目标糖转化率，与未精炼材料相比，在 4000 转的 PFI 精炼条件下，对于 15%木质素含量的硬木硫酸盐浆，酶用量减少了 32%，酶解时间为 96 小时。

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机械细化预处理硬木木质纤维素提高酶水解效率。

Enhancement in enzymatic hydrolysis by mechanical refining for pretreated hardwood lignocellulosics.

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