关于合成高产异丁醇的生物精炼厂:从生物质转化为酒精的实验到系统级分析†。

Arthur E. Pastore de Lima, Jason Coplien, Larry C. Anthony, Trey K. Sato, Yaoping Zhang, Steven D. Karlen, Chris Todd Hittinger and Christos T. Maravelias
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引用次数: 0

摘要

利用木质纤维素生产异丁醇因其良好的物理和化学特性而备受关注。使用木质纤维素生物质作为原料生产异丁醇具有巨大的可持续发展优势,但生物转化异丁醇面临着产量低和副产品形成等挑战。在这项工作中,我们展示了通过微生物发酵纸浆水解物来高产生产异丁醇的方法。我们使用基于 γ-戊内酯的预处理方法从杨树、高粱和开关草中生产出三种水解物。此外,我们还合成了一种生物质制异丁醇的生物精炼技术,并利用一种工程酵母菌株的实验结果对由此产生的三种工艺进行了技术经济学分析,这种酵母菌株可消耗水解物中的大部分葡萄糖,并以 89-94% 的理论产量生产异丁醇。相应的最低燃料销售价格(MFSP)为每汽油加仑当量 14.40 美元至 16.01 美元,其中以高粱为原料的生物精炼厂的价格最低。我们发现,预处理过程中的溶剂/生物质比率和水解过程中的酶负荷对 MFSP 的影响最大;改善这些参数可将 MFSP 降低 46%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

On the synthesis of biorefineries for high-yield isobutanol production: from biomass-to-alcohol experiments to system level analysis†

On the synthesis of biorefineries for high-yield isobutanol production: from biomass-to-alcohol experiments to system level analysis†

The production of isobutanol from lignocellulose has gained attention due to its favorable physical and chemical properties. The use of lignocellulosic biomass as a feedstock to produce isobutanol has substantial sustainability benefits, but the biological conversion to isobutanol faces challenges, such as low yields and by-product formation. In this work, we demonstrate the high-yield production of isobutanol through microbial fermentation of pulp hydrolysates. Three hydrolysates are produced from poplar, sorghum, and switchgrass using pretreatment based on γ-valerolactone. Furthermore, we synthesize a biomass-to-isobutanol biorefinery and perform technoeconomic analysis of three resulting processes using experimental results obtained from an engineered yeast strain which consumes most of the glucose available in the hydrolysate and produces isobutanol at 89–94% theoretical yields. The corresponding minimum fuel selling price (MFSP) is $14.40–$16.01 per gasoline gallon equivalent, with the sorghum-based biorefinery resulting in the lowest price. We identify that solvent/biomass ratio during pretreatment and enzyme loading during hydrolysis have the greatest impact on the MFSP; improvements in these parameters can reduce the MFSP by 46%.

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