Production Model Integrating TOC and Lean for Lead Time Reduction in Chemical Manufacturing: An Empirical Research in Peru

Proceedings of the 2022 9th International Conference on Industrial Engineering and Applications (Europe) Pub Date : 2022-01-12 DOI:10.1145/3523132.3523140

Adrian Tetsuo Lopez-Osorio, Nancy Francesca Vila-Moretti, A. Flores-Perez, J. Quiroz-Flores, Martin Collao-Diaz

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引用次数: 2

Abstract

The chemical industry allows the creation of a wide range of products such as polymers, emulsions, among others. In the world, this sector generates $5.7 billion of the world's Gross Domestic Product (GDP), and in Peru it represents 1% of the national GDP. This article describes the implementation of an integrated system containing the Theory of Constraints (TOC) and Lean Manufacturing (5s and Single Minute Exchange of Die) for the reduction of the lead time in the production process of the RA-401 resin in a chemical SME in Peru. The general problem is analyzed through the Value Stream Mapping tool, where the root causes, the time of each activity, and the incidence of the worker are evidenced. The validation of the developed model was carried out in the stage of filling and labeling of 200 kg resin cylinders through Arena Simulator. The results showed that the processing lead time was reduced by 7.88%, cycle time by 7.94% and productivity was increased by 8.48%.

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整合TOC和Lean的化工生产模式减少交货时间:秘鲁的实证研究

化学工业允许创造各种各样的产品，如聚合物、乳液等。在世界范围内，该部门创造了57亿美元的世界国内生产总值(GDP)，在秘鲁，它占全国GDP的1%。本文介绍了秘鲁一家化工中小企业为减少RA-401树脂生产过程中的交货时间，采用约束理论(TOC)和精益生产(5s和单分钟换模)集成系统的实施情况。通过价值流映射工具分析一般问题，其中证明了根本原因，每个活动的时间和工人的发生率。通过Arena Simulator对所开发的模型进行了200 kg树脂瓶灌装和贴标阶段的验证。结果表明，加工提前期缩短7.88%，周期缩短7.94%，生产率提高8.48%。

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 2022 9th International Conference on Industrial Engineering and Applications (Europe)

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