从稻草中提取更多糖分的蒸汽爆破中试研究及质量平衡。

Pilot scale study on steam explosion and mass balance for higher sugar recovery from rice straw.

机构信息

DBT-IOC Centre for Advanced Bioenergy Research, Indian Oil Corporation Ltd., Research and Development Centre, Sector-13, Faridabad 121007, India.

出版信息

Bioresour Technol. 2015 Jan;175:350-7. doi: 10.1016/j.biortech.2014.10.112. Epub 2014 Oct 29.

DOI:10.1016/j.biortech.2014.10.112

PMID:25459842

Abstract

Pretreatment of rice straw on pilot scale steam explosion has been attempted to achieve maximum sugar recovery. Three different reaction media viz. water, sulfuric acid and phosphoric acid (0.5%, w/w) were explored for pretreatment by varying operating temperature (160, 180 and 200°C) and reaction time (5 and 10min). Using water and 0.5% SA showed almost similar sugar recovery (∼87%) at 200 and 180°C respectively. However, detailed studies showed that the former caused higher production of oligomeric sugars (13.56g/L) than the later (3.34g/L). Monomeric sugar, followed the reverse trend (7.83 and 11.62g/L respectively). Higher oligomers have a pronounced effect in reducing enzymatic sugar yield as observed in case of water. Mass balance studies for water and SA assisted SE gave total saccharification yield as 81.8% and 77.1% respectively. However, techno-economical viability will have a trade-off between these advantages and disadvantages offered by the pretreatment medium.

摘要

已尝试在中试规模下对稻草进行预处理蒸汽爆破，以实现最大的糖回收。研究了三种不同的反应介质，即水、硫酸和磷酸（0.5%，w/w），通过改变操作温度（160、180 和 200°C）和反应时间（5 和 10min）进行预处理。水和 0.5%的 SA 在 200 和 180°C 时分别显示出几乎相似的糖回收率（约 87%）。然而，详细研究表明，前者产生的低聚糖（13.56g/L）比后者（3.34g/L）多。单糖则相反（分别为 7.83 和 11.62g/L）。正如在水的情况下观察到的那样，较高的低聚物对降低酶解糖产率有显著影响。水和 SA 辅助 SE 的质量平衡研究分别给出了 81.8%和 77.1%的总糖化产率。然而，预处理介质提供的这些优缺点之间的技术经济可行性存在权衡。

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从稻草中提取更多糖分的蒸汽爆破中试研究及质量平衡。

Pilot scale study on steam explosion and mass balance for higher sugar recovery from rice straw.

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