Klemen Rola, Sven Gruber, D. Goričanec, D. Urbancl
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引用次数: 0
摘要
在能源转型过程中,合成生物燃料在摒弃化石燃料方面发挥着至关重要的作用。生物燃料可以有效降低温室气体排放,改善空气质量。其中一种生物燃料是生物乙醇,它可以作为汽油的替代品。为此,使用模拟软件 Aspen Plus 对通过木质纤维素生物质发酵生产生物乙醇进行了模拟,重点是蒸馏。由于蒸馏法生产绝对乙醇受到乙醇-水共沸物的限制,因此采用变压蒸馏法(PSD)来获得燃料级乙醇(EtOH),其重量百分比为 99.60%。采用 NQ 分析法对流程图进行了优化,这是一种针对蒸馏塔的简单优化方法。我们发现,PSD 有可能将 EtOH 浓缩到所需的值,同时去除预处理和发酵过程中产生的其他不需要的杂质。
Waste Lignocellulosic Biomass as a Source for Bioethanol Production
Synthetically produced biofuels play a critical role in the energy transition away from fossil fuels. Biofuels could effectively lower greenhouse gas (GHG) emissions and contribute to better air quality. One of these biofuels is bioethanol, which could act as a gasoline replacement. For this purpose, a simulation of bioethanol production through lignocellulosic biomass fermentation, focused on distillation, was carried out in simulation software Aspen Plus. Since the possibility of absolute ethanol production through distillation is limited by the ethanol–water azeotrope, pressure swing distillation (PSD) was used to obtain fuel-grade ethanol (EtOH) with a fraction of 99.60 wt.%. The flowsheet was optimised with NQ analysis, which is a simple optimisation method for distillation columns. We found that the PSD has the potential to concentrate the EtOH to a desired value, while simultaneously removing other unwanted impurities whose presence is a consequence of pretreatment and fermentation processes.
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