The Green Engineering Implications of the Replacement and Recovery of Dipolar Aprotic Solvents in Industrial Manufacturing

M. Savelski, C. Slater, Christian M. Wisniewski
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引用次数: 1

Abstract

A case study has been conducted on the use of solvent substitutes and/or solvent recovery in a resin precursor manufacturing process. The current process uses the dipolar aprotic solvent N-methyl-2-pyrrolidone (NMP) as a synthesis reaction medium. NMP is associated with harmful environmental a health effects. Dimethylsulfoxide (DMSO) and sulfolane are also dipolar aprotic solvents with similar physical properties of NMP but are less harmful. With the substitution of NMP for DMSO or sulfolane in the resin precursor process, total life cycle emissions were reduced by 52% and 61%, respectively. Distillation processes were designed to evaluate the environmental impacts of recovering solvent from the waste. Total life cycle emissions were reduced by 63% when comparing the current operation using NMP with the case of the current operation with solvent recovery. There was no additional significant reduction on life cycle emissions for the cases with solvent recovery for DMSO or sulfolane. Thus, the importance of evaluating all green engineering options through a life cycle assessment is important to fully understand the environmental impact reduction each option possesses.
工业制造中偶极非质子溶剂替代与回收的绿色工程意义
对树脂前驱体制造过程中溶剂替代品和/或溶剂回收的使用进行了案例研究。本工艺采用双极性非质子溶剂n -甲基-2-吡咯烷酮(NMP)作为合成反应介质。NMP与有害的环境和健康影响有关。二甲基亚砜(DMSO)和亚砜也是双极性非质子溶剂,具有与NMP相似的物理性质,但危害较小。在树脂前驱体过程中,用NMP代替DMSO或亚砜,总生命周期排放量分别减少52%和61%。设计了蒸馏工艺,以评估从废物中回收溶剂对环境的影响。与目前使用NMP的操作相比,目前使用溶剂回收的操作减少了63%的总生命周期排放量。使用溶剂回收二甲基亚砜或亚砜的情况下,生命周期排放量没有进一步显著减少。因此,通过生命周期评估来评估所有绿色工程方案的重要性对于充分了解每个方案所具有的环境影响减少是非常重要的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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