A Process-Based Model of End-of-Life Electronics Recycling Driving Eco-Efficiency-Informed Decisions

Proceedings of the 2006 IEEE International Symposium on Electronics and the Environment, 2006. Pub Date : 2006-05-08 DOI:10.1109/ISEE.2006.1650050

J. Gregory, J. Atlee, R. Kirchain

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引用次数: 13

Abstract

This paper describes a model of end-of-life electronics recycling that uses process-based cost modeling and value-based metrics to determine the economic and value-recovery effectiveness of a processing operation. The process-based cost models combine engineering process models, operational models, and an economic framework to map from details of product and process to operating costs. The value-weighted mass recovery assessments, when compared against simple mass recovered, provide a better estimate of both environmental impact and retained quality. The combination of these two aspects offers several advantages over existing modeling methodologies: they consider the variety of products a recycler processes, are driven by data that a recycler collects, and can respond to rapidly changing conditions. Background on these aspects is provided, followed by a description of the modeling framework. An example case involving cathode ray tubes is presented to depict the type of analyses possible using the model

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基于过程的报废电子产品回收模型驱动生态效率决策

本文描述了一个报废电子回收模型，该模型使用基于过程的成本建模和基于价值的度量来确定处理操作的经济和价值回收效率。基于过程的成本模型将工程过程模型、操作模型和经济框架结合起来，从产品和过程的细节映射到操作成本。与简单的质量回收相比，价值加权质量回收评估可以更好地估计环境影响和保留质量。与现有的建模方法相比，这两个方面的结合提供了几个优势:它们考虑了回收商处理的各种产品，由回收商收集的数据驱动，并且可以对快速变化的条件做出反应。本文提供了这些方面的背景知识，然后描述了建模框架。以阴极射线管为例，描述了使用该模型可能进行的分析类型

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Proceedings of the 2006 IEEE International Symposium on Electronics and the Environment, 2006.

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