Optimization Model Supply Chain Network Design Determine Location-Allocation the Terminal Cathode Factory

Proceedings of the 2021 International Conference on Engineering and Information Technology for Sustainable Industry Pub Date : 2020-09-28 DOI:10.1145/3429789.3429847

Suryati, W. Sutopo, M. Hisjam

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引用次数: 2

Abstract

Pati has a high certainty of raw material supply but Pati salt farmers experience quality and price problems. Currently, there is another potential high-value salt, namely as an energy source (Cathode battery). To solve this problem, the cathode terminal was built by considering the existing sand. Supply chain network design (SCND) is one of the most important strategic decisions in supply chain management. This paper presents novel research on the network design of a simplified single product multi farming and multi-terminal for salt raw material in cathode battery. The proposed optimization model minimized cost to determine the location of the cathode battery terminal by using Lingo Sofware. This paper will explain when the terminal opened and any farmer delivery salt raw material. This study develops a mathematic model for making a decision cathode battery terminal opened by mixed-integer linear programming (MILP). The result shows terminal 1 (Z1) receives a greater supply of raw materials and the least received supply from farming is terminal 3 (Z3).

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优化模型供应链网络设计决定终端阴极工厂选址

帕蒂的原料供应有很高的确定性，但帕蒂盐农面临质量和价格问题。目前，还有一种潜在的高价值盐，即作为能量源(阴极电池)。为了解决这一问题，考虑到现有的砂，构建了阴极端子。供应链网络设计是供应链管理中最重要的战略决策之一。本文对阴极电池中盐原料的简化单品多耕多端网络设计进行了新颖的研究。提出的优化模型利用Lingo软件将成本降至最低，以确定阴极电池终端的位置。本文将说明终端何时开通和任何农民交付盐原料。本文建立了用混合整数线性规划(MILP)决策阴极电池终端开断的数学模型。结果表明，终端1 (Z1)获得了更多的原材料供应，而终端3 (Z3)从农业中获得的供应最少。

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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Proceedings of the 2021 International Conference on Engineering and Information Technology for Sustainable Industry

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