Simulation-Based Management Method for Circular Manufacturing Using Response Surfaces

Masaki Imai , Shinichi Fukushige
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引用次数: 0

Abstract

To establish a circular manufacturing system, continuous management of the resource flow and the condition of individual items including products, components, and the materials in the system is indispensable. This study proposes a life cycle simulation (LCS) based management method to support optimal decision-making under conditions that include various uncertainties, such as consumer behavior and market trends. LCS is a simulation method that simulates dynamic material flow in the entire life cycle system and enables the evaluation of environmental and economic efficiencies. Since the simulation model consists of many parameters, exhaustive simulations with all parameter combinations are impossible in a practical timeframe. Therefore, the method extracts parameters that have a significant impact on eco-efficiency through sensitivity analysis using LCS. Then, a response surface of multi-level resolution is created in a multidimensional space composed of the parameters. The response surface is used to quickly identify optimal parameter values under uncertain conditions for effective management. As a case study, the proposed method is applied to the management of a circular manufacturing system for lithium-ion batteries of automotive to verify the effectiveness of the management on eco-efficiency.

使用响应曲面的基于仿真的圆形制造管理方法
要建立循环型制造系统,就必须对系统中的资源流和单个项目(包括产品、组件和材料)的状况进行持续管理。本研究提出了一种基于生命周期模拟(LCS)的管理方法,以支持在消费者行为和市场趋势等各种不确定因素条件下的优化决策。LCS 是一种模拟方法,可模拟整个生命周期系统中的动态物质流,并可评估环境和经济效益。由于模拟模型由许多参数组成,在实际时间内不可能对所有参数组合进行详尽模拟。因此,该方法通过使用 LCS 进行敏感性分析,提取对生态效益有重大影响的参数。然后,在由参数组成的多维空间中创建一个多级分辨率的响应面。响应面用于在不确定条件下快速确定最佳参数值,以实现有效管理。通过案例研究,将所提出的方法应用于汽车锂离子电池循环生产系统的管理,以验证管理对生态效益的有效性。
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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CiteScore
3.80
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