通过基于模拟的优化提高钢化玻璃的节能生产

2017 22nd IEEE International Conference on Emerging Technologies and Factory Automation (ETFA) Pub Date : 2017-09-01 DOI:10.1109/ETFA.2017.8247750

Stephan Seidel, M. Franke, F. Baumann, H. Wilson, Ulrike Gromnitza

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引用次数: 3

摘要

在许多工业制造过程中，能源使用是最重要的成本因素之一。特别是在钢铁生产或玻璃加工等能源密集型行业，最大限度地减少能源使用是节约资源和降低制造成本的关键措施。研究项目OptPlanEnergie专注于钢化玻璃的生产。在这个项目中，我们应用模拟和优化技术来识别和减少制造过程中发生的能量损失。该项目的目标是提供一个工具链，用于创建关键生产步骤的高性能仿真模型，并将这些模型集成到调度框架中，以促进装载顺序和容量分配的优化，从而减少能源消耗。在OptPlanEnergie中，我们对钢化玻璃的生产进行了原型研究，但我们的方法可以简单地适应各种行业。

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Enhancing the energy-efficient production of tempered glass by using simulation-based optimisation

In many industrial manufacturing processes energy use is one of the most important cost factors. Especially in energy-intensive industries like steel production or glass processing minimizing energy use is a key measure to save resources and reduce manufacturing costs. The research project OptPlanEnergie concentrates on the production of tempered glass. In this project we apply simulation and optimization techniques to identify and reduce energetic losses that occur during the fabrication process. The aim of the project is to supply a toolchain for creating high-performance simulation models of crucial production steps and integrating these models in scheduling frameworks to facilitate the optimization of loading sequences and capacity allocation to reduce energy consumption. In OptPlanEnergie we prototypically study the production of tempered glass, but our approach allows a simple adaptation to a wide range of industries.

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2017 22nd IEEE International Conference on Emerging Technologies and Factory Automation (ETFA)

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