离子液体
异戊二烯
工艺工程
UNIFAC公司
溶剂
过程(计算)
工艺设计
工作(物理)
化学
计算机科学
生化工程
环境科学
有机化学
化学工程
过程集成
热力学
活度系数
聚合物
工程类
催化作用
物理
共聚物
操作系统
水溶液
作者
Yuqiu Chen,Xinyan Liu,Georgios M. Kontogeorgis,John M. Woodley
标识
DOI:10.1021/acs.iecr.0c00146
摘要
Bioisoprene, which can be produced from renewable feedstocks through fermentation, is a promising alternative to petroleum-derived isoprene. However, challenges including the selection of feasible recovery techniques for bioisoprene should be addressed to achieve economic and technical competitiveness. In this work, ionic liquids (ILs) are first introduced as solvents for the recovery of bioisoprene. To describe the thermodynamic behavior, the UNIFAC-IL model is first extended to the bioisoprene systems as it combines gas–organic chemicals in IL-containing systems. Using a computer-aided IL design (CAILD) method, six out of 248 742 structurally constrained ILs are screened as optimal candidates for their further performance evaluation. Simulation results indicate that all six ILs have much better process performance than that of the alternative, isopropyl myrisate. Moreover, [N1,1,3,0][DMP] is identified as the best IL with the lowest solvent flow rate and the highest recovery ratio of isoprene. This work shows the potential of using ILs for the recovery of bioisoprene from fermentation off-gas.
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