先进塑料废物循环解决方案分析

Kevin D. Nixon, Zoé O. G. Schyns, Yuqing Luo, Marianthi G. Ierapetritou, Dionisios G. Vlachos, LaShanda T. J. Korley, Thomas H. Epps, III
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引用次数: 0

摘要

循环塑料经济可以利用高分子材料轻质、坚固和耐用的特点,同时减少与聚合物废弃物相关的负面环境影响。先进的回收技术提供了一个机会,可以通过将废弃物转化为新的单体、聚合物或特种化学品,实现塑料废弃物的价值化,并延长这些材料的使用寿命。尽管许多先进技术看起来很有前景,但对经济和环境可持续性的评估往往没有以标准化的方式进行,而且忽略了塑料废物的运输、分类和预处理等因素。这些缺陷会导致不准确或误导性的预测,减少优化机会并限制工业相关性。在本综述中,我们将重点介绍一些工业案例研究,以强调低估现实生活中消费塑料废物的复杂性所带来的显著后果。此外,我们还探讨了当前在评估实验室规模工艺的工业可行性方面所面临的挑战。通过讨论相关的分析框架和系统界限,以及潜在的分析误区,未来的研究将超越化学考虑因素,转向有影响力的循环解决方案。先进的回收利用是塑料废弃物在生命末期生产高价值产品的一种选择。本综述强调了对候选回收技术进行整体分析的重要性,重点关注工业陷阱、关键评估参数、回收基础设施的复杂性、扩大规模的考虑因素以及环境和经济权衡。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Analyses of circular solutions for advanced plastics waste recycling

Analyses of circular solutions for advanced plastics waste recycling
A circular plastics economy can leverage the lightweight, strong and durable characteristics of macromolecular materials, while simultaneously reducing the negative environmental impacts associated with polymer waste. Advanced recycling technologies provide an opportunity to valorize plastics waste and extend the lifespan of these materials by converting waste into new monomers, polymers or specialty chemicals. Although many advanced technologies appear promising, assessments of economic and environmental sustainability are often not conducted in a standardized fashion and neglect factors such as plastics waste transportation, sorting and pretreatment. These shortcomings can lead to inaccurate or misleading predictions, reduce opportunities for optimization and limit industrial relevance. In this Review, we highlight select industrial case studies to underscore the notable consequences of underestimating the complexity of real-life consumer plastics waste. In addition, the current challenges associated with the assessment of the industrial viability of laboratory-scale processes are explored. By discussing relevant analysis frameworks and system boundaries, along with potential analytical pitfalls, future research will be guided beyond chemical considerations and toward impactful circular solutions. Advanced recycling is an end-of-life option for plastics waste toward the generation of high-value products. This Review highlights the importance of developing holistic analyses of candidate recycling technologies, with a focus on industrial pitfalls, key assessment parameters, complexities of recycling infrastructure, scale-up considerations, and environmental and economic trade-offs.
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