Minimization of energy needs in the industry of electric drives manufacturing considering process-related temperature curves

2014 4th International Electric Drives Production Conference (EDPC) Pub Date : 2014-12-15 DOI:10.1109/EDPC.2014.6984430

Johannes Kohl, S. Spreng, B. Hofmann, J. Franke

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引用次数: 5

Abstract

The energy consumption within electric drives manufacturing is dominated by heating and cooling processes. As the optimization of these processes is often only based on the product quality, in practice a lot of consecutive heating up and cooling down phases can be observed leading to strongly varying temperature curves. Thus, high energy needs as well as long throughput times have to be approved. In order to overcome these obstacles and to optimize the products' temperature curves the Institute for Factory Automation and Production Systems developed a simulative approach on the basis of the program Tecnomatix Plant Simulation. The implemented Temperature Module is hereby not only able to track a product's temperature through the whole simulated production chain. It as well communicates with the energy module presented in [6] and [7]. This enables the possibility to calculate energy needs on the basis of the actual product temperature. For that purpose an example located in the field of electric stator manufacturing is investigated.

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考虑到与工艺相关的温度曲线，使电力驱动制造行业的能源需求最小化

电力驱动制造中的能源消耗主要是加热和冷却过程。由于这些工艺的优化往往只是基于产品质量，在实践中可以观察到许多连续的加热和冷却阶段，导致强烈的温度曲线变化。因此，必须批准高能量需求和长吞吐时间。为了克服这些障碍并优化产品的温度曲线，工厂自动化和生产系统研究所在Tecnomatix工厂模拟程序的基础上开发了一种模拟方法。因此，所实现的温度模块不仅能够通过整个模拟生产链跟踪产品的温度。它还可以与[6]和[7]中的能量模块通信。这使得在实际产品温度的基础上计算能量需求成为可能。为此，本文以定子制造领域为例进行了研究。

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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2014 4th International Electric Drives Production Conference (EDPC)

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