Thermal behaviour of low voltage cables in smart grid — Related environments

IEEE PES Innovative Smart Grid Technologies, Europe Pub Date : 2014-10-01 DOI:10.1109/ISGTEUROPE.2014.7028736

N. Honing, E. D. de Jong, G. Bloemhof, H. la Poutré

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引用次数: 11

Abstract

Low voltage cables in distribution grids will operate under harmful conditions more often in the near future, due to the integration of renewable energy sources and the addition of powerful consumption appliances. It is crucial to evaluate smart solutions that can prolong cable lifetime. Because most knowledge about thermal behaviour of cables has been collected in the medium and high voltage grids, it is also important to study, in real-world circumstances, the precise thermal reaction of low voltage cables to novel types of usage spikes and to protection mechanisms. We emulated a low voltage cable of a Dutch neighbourhood in a laboratory and conducted several overheating experiments for multiple hours. One scenario involved the usage of a smart battery with a control algorithm for the protection of the cable from overheating. We report on results of systematically varying currents and cable insulation. We demonstrate the positive effect of regular interruptions of high currents on cable temperature and that even a small battery (e.g. a used EV battery) can make a significant contribution to the reduction of overheating.

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智能电网相关环境中低压电缆的热性能

由于可再生能源的整合和大功率消费电器的增加，在不久的将来，配电网中的低压电缆将更多地在有害条件下运行。评估能够延长电缆使用寿命的智能解决方案至关重要。由于大多数关于电缆热行为的知识都是在中高压电网中收集的，因此在现实环境中研究低压电缆对新型使用尖峰和保护机制的精确热反应也很重要。我们在实验室模拟了荷兰某小区的低压电缆，并进行了数小时的多次过热实验。其中一种方案是使用带有控制算法的智能电池，以保护电缆不过热。我们报告了系统变化电流和电缆绝缘的结果。我们展示了高电流定期中断对电缆温度的积极影响，即使是小电池(例如二手电动汽车电池)也可以为减少过热做出重大贡献。

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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IEEE PES Innovative Smart Grid Technologies, Europe

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