Investigation of the factors affecting the dielectric dissipation factor of synthetic and natural esters

2019 IEEE 20th International Conference on Dielectric Liquids (ICDL) Pub Date : 2019-06-01 DOI:10.1109/ICDL.2019.8796834

P. Livesey, M. Lashbrook, Russell Martin

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引用次数: 2

Abstract

Traditionally, mineral oil has been used as the insulating liquid in transformers due to its high electrical breakdown strength and cooling ability. More recently, natural and synthetic ester based dielectric liquids are increasingly adopted as alternatives, offering much improved fire safety and environmental protection. The dielectric dissipation factor (DDF), via tan delta measurement, has traditionally been used as one of the key metrics for quality evaluation of unused transformer mineral oils. Understanding the chemical differences between esters and mineral oil and which factors affect material properties such as ester DDF is rapidly becoming of greater importance. By monitoring the individual effects of increased ambient temperature and UV exposure on the DDF of synthetic and natural esters, this investigation aims to provide data which can be used to refine interpretation of dielectric dissipation factor for esters. The overall condition of high DDF esters, and the implications this could have for a transformer, are also evaluated to allow conclusions to be drawn on the relevance of a DDF limit in ester standards.

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影响合成酯和天然酯介电耗散系数的因素研究

传统上，矿物油由于具有较高的击穿强度和冷却能力而被用作变压器的绝缘液。近年来，越来越多地采用天然和合成酯基介电液体作为替代品，大大提高了消防安全和环境保护。传统上，介质耗散系数(DDF)是评价未使用变压器矿物油质量的关键指标之一。了解酯类和矿物油之间的化学差异以及影响酯类DDF等材料性能的因素正迅速变得越来越重要。通过监测环境温度升高和紫外线照射对合成酯和天然酯的DDF的个别影响，本研究旨在提供可用于改进酯的介电耗散因子解释的数据。还评估了高DDF酯的总体状况，以及这可能对变压器产生的影响，以便得出DDF限制在酯标准中的相关性的结论。

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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2019 IEEE 20th International Conference on Dielectric Liquids (ICDL)

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