Scenario-based Simulation for Energy Optimization in Learning Factory Environments

Atacan Ketenci, Matthias Eder, M. Ritter, C. Ramsauer
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引用次数: 2

Abstract

Caused by the constantly rising energy prices and the demand for green products, the manufacturing industry has to increasingly deal with the topic of energy optimization. Thus, the focus is shifting to the improvement of production facilities in order to minimize resource consumption. When planning a more energy efficient production, it is advisable to set up a continuous monitoring system on the existing equipment to get an insight into the prevailing energy consumption. Based on this, optimization potentials can be identified. Different possibilities for increasing energy efficiency already exist, including e.g. the use of more efficient equipment or the optimal use of the facility. However, realistic assessments of saving potentials are a big challenge. In this paper, a virtual model of a learning factory is created to assess a realistic energy consumption profile. Using currently measured energy data and possible investment activities, scenarios for energy optimization in the assembly line are generated. By evaluating the scenarios using the virtual model, realistic saving potentials can be determined and evaluated, enabling investment planning to be strategically improved through the consideration of energy efficiency.
学习型工厂环境中基于场景的能源优化仿真
由于能源价格的不断上涨和对绿色产品的需求,制造业越来越多地涉及到能源优化的话题。因此,重点转向改善生产设施,以尽量减少资源消耗。在规划更节能的生产时,建议在现有设备上建立一个持续监测系统,以了解当前的能源消耗情况。在此基础上,可以识别出优化潜力。提高能源效率的各种可能性已经存在,包括例如使用更高效的设备或优化使用设施。然而,对储蓄潜力的现实评估是一个巨大的挑战。在本文中,创建了一个学习型工厂的虚拟模型来评估一个现实的能源消耗概况。使用当前测量的能源数据和可能的投资活动,生成装配线中的能源优化方案。通过使用虚拟模型评估情景,可以确定和评估现实的节约潜力,从而通过考虑能源效率来战略性地改进投资计划。
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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