A feasibility assessment of an integrated plastic waste system adopting mechanical and thermochemical conversion processes

Q1 Economics, Econometrics and Finance
Maria Laura Mastellone
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引用次数: 24

Abstract

The large variety and amounts of plastic waste produced worldwide requires to better organize the industrial network devoted to the exploitation of this material by including different processes that allow to recover the “material” as main target. This paper presents the results of the feasibility study developed for an integrated system for plastic waste management designed in such a way to deal with the real market and provide for reliable targets in term of material recovery yields, energy efficiency and waste minimization. The system under study is a combination of mechanical sorting, thermochemical processes and conversion into materials and energy. The quantified block diagrams are used to represent the mass and feedstock energy balances by allowing the calculation of yields of given products. The equipment list for each sub-system is provided together with the installed power for the main component and/or auxiliary; these data allowed to perform the energy balance and to obtain the net energy production by the integrated system. The energy balance demonstrated that the integrated system is feasible while, on the contrary, the single processes are not energetic self-sustainable.

Abstract Image

采用机械和热化学转化工艺的综合塑料废物处理系统的可行性评估
世界范围内产生的塑料废物种类繁多,数量众多,需要通过包括允许回收“材料”作为主要目标的不同过程,更好地组织专门用于开发这种材料的工业网络。本文介绍了为塑料废物管理综合系统开发的可行性研究结果,该系统以这种方式设计,以应对实际市场,并在材料回收率,能源效率和废物最小化方面提供可靠的目标。正在研究的系统是机械分选、热化学过程和转化为材料和能量的组合。量化方框图用于表示质量和原料能量平衡,允许计算给定产品的产量。各分系统的设备清单连同主部件和/或辅助部件的安装功率一起提供;这些数据可以进行能量平衡,并获得综合系统的净发电量。能量平衡表明综合系统是可行的,而相反,单一过程不是能量自我持续的。
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来源期刊
Resources, Conservation and Recycling: X
Resources, Conservation and Recycling: X Economics, Econometrics and Finance-Economics and Econometrics
CiteScore
14.50
自引率
0.00%
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0
审稿时长
17 weeks
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