变压器设备纸绝缘状态监测的谱方法

IF 0.3 Q4 ENERGY & FUELS
V. Kozlov, O. Kurakina, A.H. Sabitov, G. F. Nigmatullina, R. A. Salyakhutdinov
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引用次数: 0

摘要

充油变压器的绝缘是基于有机来源的材料——油和木浆。绝缘状态是电力设备可靠运行的关键因素,研究人员对绝缘状态的评估十分关注。为了评估纤维素的绝缘状态,测定了聚合度和纸张水分等指标。现有的用于确定纸绝缘材料的水分含量和聚合度的方法具有缺点,因为它们需要对绝缘材料进行复杂的采样过程,这是一项耗时的操作。本工作的目的是开发新的方法来测定电力变压器纸绝缘的含水量和聚合度。这一目标是通过获得纸绝缘样品的反射光谱并构建两条相关线来确定聚合度和湿度来实现的。文章最重要的结果是建立了纸的反射系数对超过4%的水浓度的依赖性,以及纸绝缘反射光谱中最小值的位置对聚合度的依赖性。所获得的结果的意义在于,使用所构建的相关线来确定纸绝缘的水分含量和聚合度的光学方法是高度准确的,并且不需要使用额外的试剂和复杂的计算。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Spectral Methods for Monitoring Transformer Equipment State of Paper Insulation
The insulation of an oil-filled transformer is based on materials of organic origin - oil and wood pulp. The state of insulation is a key factor in the reliable operation of a power equipment, and much attention is paid to the insulation state assessment by researchers. To assess the cellulose insulation state, indicators such as the degree of polymerization and paper moisture are determined. The existing methods for determining the moisture content and the degree of polymerization of a paper insulation have disadvantages, as they require a complex process of sampling the insulation, which is a time-consuming operation. The purpose of the work is to develop new methods for determining the moisture content and the degree of polymerization of the paper insulation of a power transformer. This goal is achieved by obtaining the reflection spectra of the paper insulation samples and constructing two correlation lines to determine the degree of polymerization and humidity. The most significant result of the article is the establishment of the dependence of the reflection coefficient of the paper on the concentration of water exceeding 4% and the position of the minimum in the reflection spectrum of paper insulation on the degree of polymerization. The significance of the obtained results lies in the fact that the optical method for determining the moisture content and the degree of polymerization of paper insulation using the constructed correlation lines is highly accurate and does not require the use of additional reagents and complex calculations.
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来源期刊
CiteScore
0.70
自引率
33.30%
发文量
38
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