Design of disassembly-to-order system for reused components and recycled materials using linear physical programming

Q2 Social Sciences International Journal of Sustainable Manufacturing Pub Date : 2020-04-23 DOI:10.1504/ijsm.2020.10028824

Y. Kinoshita, Tetsuo Yamada, S. Gupta

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Abstract

To reduce the consumption of natural resources, a disassembly-toorder (DTO) system is required, where end-of-life (EOL) products are purchased and disassembled for component reuse and material recycling. A DTO system involves multiple uncertainties due to different qualities of EOL products. These uncertainties make it difficult to determine the number of take-back EOL products from suppliers to reuse, recycle, or send to disposal facilities, in order to satisfy multiple goals. To solve the multi-criteria DTO problem, linear physical programming (LPP) is used. LPP can seek a solution to satisfy preferences of a decision maker with respect to each criterion. This study attempts to achieve higher aspiration levels for multiple goals simultaneously in a DTO system by using LPP. A numerical example is conducted with three different EOL products composed of eight different components. It is found that only three components need to be procured from an outside components supplier to satisfy the demands by determining the number of purchased EOL products from the suppliers in the numerical experiment.

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使用线性物理规划设计可重复使用部件和可回收材料的按顺序拆卸系统

为了减少对自然资源的消耗，需要一个按订单拆卸(DTO)系统，在该系统中，购买寿命终止(EOL)产品并拆卸，以进行组件再利用和材料回收。由于EOL产品质量的不同，DTO系统存在多重不确定性。这些不确定性使得很难确定从供应商处回收EOL产品的数量，以便重新使用，再循环或发送到处理设施，以满足多个目标。为了解决多准则DTO问题，采用了线性物理规划(LPP)。LPP可以根据每个标准寻求满足决策者偏好的解决方案。本研究试图利用LPP在DTO系统中同时实现多个目标的更高期望水平。对由8种不同组分组成的3种不同EOL产品进行了数值算例。在数值实验中，通过确定从供应商处采购EOL产品的数量，发现只需从外部组件供应商处采购三个组件即可满足需求。

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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来源期刊

International Journal of Sustainable Manufacturing Social Sciences-Social Sciences (miscellaneous)

CiteScore

1.90

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0.00%

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