植物油、矿物油及其相关油浸纸的温度介电谱研究

Pei Guo, R. Liao, J. Hao, Zhiqin Ma, Lijun Yang
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引用次数: 12

摘要

高闪点、高降解率和可重复性的特点使植物油成为一种新型的保温油,有望取代矿物油。温度对绝缘油和油浸纸的介电特性影响很大,因此随着植物油在变压器中的使用越来越多,有必要研究植物油-纸绝缘的温度介电谱(TDS)特性,以判断TDS是否可用来评价植物油-纸绝缘系统的状态。本文利用Concept80宽频介电光谱仪对植物油、矿物油及其相关油浸纸在50Hz下的TDS进行了测量和分析。结果表明:植物油和矿物油在50Hz时的相对介电常数ε随温度升高而减小。在50Hz时,随着温度的升高,油浸纸的ε值先升高后降低。植物油和植物油浸渍纸的ε值分别高于矿物油和矿物油浸渍纸,有利于变压器结构的小型化。两种油及其相关油浸纸在50Hz时的耗散系数(tanδ)随温度的升高而增大。植物油的tanδ的上升速度明显大于矿物油,而矿物油浸渍纸的tanδ略大于植物油浸渍纸,证明植物油可以减缓变压器绝缘的老化。ε和tanδ在50Hz时的TDS均可用三次函数表示。这为利用TDS评价变压器油纸绝缘系统的绝缘状态提供了一种新的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Research on the temperature dielectric spectrum of vegetable oil, mineral oil and their relevant oil-impregnated papers
Features of high flash point, high degradation rate and the reproducibility make vegetable oil possible to be a new kind of insulation oil, which is expected to replace mineral oil. Temperature has a great influence on the dielectric characteristics of insulation oil and the oil-impregnated papers, so with the increasing use of vegetable oil in transformers, it is necessary to study the temperature dielectric spectrum (TDS) characteristics of the vegetable oil-paper insulation to judge whether TDS can be used to evaluate the state of the vegetable oil-paper insulation system. In this paper, TDS of vegetable oil, mineral oil and their relevant oil-impregnated papers at 50Hz were measured and analyzed by using the Concept80 broadband dielectric spectrometer. It can be concluded that: relative permittivity (ε) of vegetable oil and mineral oil at 50Hz decreases when the temperature increases. However, ε of their relevant oil-impregnated papers at 50Hz increases firstly and then decreases with the increase of temperature. Besides, ε of vegetable oil and vegetable oil-impregnated papers is higher than that of mineral oil and mineral oil-impregnated papers respectively, which is helpful to miniaturize the transformer structure. Dissipation factor (tanδ) of both kinds of oil and their relevant oil-impregnated papers at 50Hz increases with the increase of temperature. The rising rate of tanδ of the vegetable oil is obviously greater than that of the mineral oil while tanδ of mineral oil-impregnated papers is slightly greater than that of vegetable oil-impregnated papers, which proves that vegetable oil can slow down the aging of transformer insulation. TDS of both ε and tanδ at 50Hz can be expressed by the cubic function. This provides a new method for using TDS to evaluate the insulation status of the transformer oil-paper insulation system.
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