Systematic design of separation process for bioethanol production from corn stover

Suksun Amornraksa, Ittipat Subsaipin, Lida Simasatitkul, Suttichai Assabumrungrat
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引用次数: 7

Abstract

Separation process is very crucial in bioethanol production as it consumes the highest energy in the process. Unlike other works, this research systematically designed a suitable separation process for bioethanol production from corn stover by using thermodynamic insight. Two separation processes, i.e., extractive distillation (case 2) and pervaporation (case 3), were developed and compared with conventional molecular sieve (case 1). Process design and simulation were done by using Aspen Plus program. The process evaluation was done not only in terms of energy consumption and process economics but also in terms of environmental impacts. It was revealed that pervaporation is the best process in all aspects. Its energy consumption and carbon footprint are 60.8 and 68.34% lower than case 1, respectively. Its capital and production costs are also the lowest, 37.0 and 9.88% lower than case 1.

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玉米秸秆生产生物乙醇分离工艺的系统设计
分离过程是生物乙醇生产中耗能最大的一个环节。与其他研究不同的是,本研究系统地设计了一种适合于从玉米秸秆中提取生物乙醇的分离工艺。开发了萃取精馏(案例2)和渗透蒸发(案例3)两种分离工艺,并与传统分子筛(案例1)进行了比较,利用Aspen Plus程序进行了工艺设计和仿真。工艺评价不仅从能耗和工艺经济的角度进行,而且从环境影响的角度进行。结果表明,渗透蒸发工艺在各方面均为最佳工艺。其能耗和碳足迹分别比情形1低60.8%和68.34%。其资金成本和生产成本也最低,分别比案例1低37.0%和9.88%。
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