在中试规模上通过同时糖化和发酵从高固形物玉米芯残渣中生产纤维素乙醇

Chang-Hui Hu, Xue Cai, Wei-Dong Xu, Jia-Xing Luo, Cui Lin, Wen-Hui Xiong, Xiao-Jian Zhang, Mian Li*, Zhi-Qiang Liu* and Yu-Guo Zheng, 
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引用次数: 0

摘要

利用富含纤维素的玉米芯开发生物燃料,在减少二氧化碳排放和生产可持续能源方面具有巨大潜力。本研究调查了玉米芯残渣从木糖生产到可再生能源纤维素乙醇的回收潜力。对三种不同规模(100 克、4 千克和 2 吨)的玉米芯残渣进行了酶消化研究,其中 25% 的干固体可持续释放葡萄糖(130 克/升),表明其具有工业潜力。从小规模摇瓶到大规模发酵罐,对高固体酶水解系统的研究都显示出巨大的乙醇生产潜力,Aspen Plus 的模拟结果与 4 千克和 2 吨系统的实验结果非常吻合。这些发现验证了利用玉米芯废料扩大乙醇生产规模的可靠性。这种综合方法强调了利用农业残留物生产可持续能源的前景广阔的方法,重点是改进乙醇生产过程。
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Cellulosic Ethanol Production from High-Solids Corncob Residues by Simultaneous Saccharification and Fermentation on a Pilot Scale

The development of biofuel from cellulose-rich corncobs holds great potential for reducing carbon dioxide emissions and producing energy that is sustainable. This study investigated the recycling potential of corncob residues from xylose production to renewable energy cellulosic ethanol. Enzymatic digestion studies were conducted at three different scales (100 g, 4 kg, and 2 t), with 25% dry solids yielding consistent glucose release (>130 g/L), indicating industrial potential. The glucose was then subjected to yeast fermentation, which produced a maximum ethanol concentration of 58.68 g/L after 48 h. Studies on high-solids enzymatic hydrolysis systems, ranging from small-scale shake flasks to large-scale fermentors, demonstrated significant ethanol production potential, supported by Aspen Plus simulations closely aligned with experimental results in both the 4 kg and 2 t systems. These findings validated the reliability of scaling up ethanol production from corncob waste. This comprehensive approach highlights a promising method for producing sustainable energy from agricultural residues, with a focus on improving the process of ethanol manufacturing.

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