结合在线记录的声信号分析,对电力油变压器表面热点区域进行热成像分析

IF 2.3 4区 物理与天体物理 Q2 OPTICS
A. Lisowska-Lis, F. Witos, G. Szerszeń
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引用次数: 1

摘要

本文介绍了典型油变压器的热成像和声学分析结果。拍摄了一系列的热像图。在不同的环境温度下,对变压器表面的高温区进行了区分。热像图显示了变压器顶部的热区,特别是在高环境温度下。在7.5 μm < λ< 13 μm的光谱中有3个区域发射出较强的红外辐射。这些区域位于变压器上部由冷却系统强制的强油循环区域。根据热像仪的研究,变压器和冷却系统的状态是正常的。在声学研究中,有两个区域的磁声信号源的频谱在15-65 kHz之间,活动增加。这些信号的来源是铁磁材料在磁化过程中发生的强烈现象。未检测到部分放电活动增加的声发射信号。热像分析的结果与声信号分析的结果相一致,两者的分析对所检测的现象给出了更广泛的共同描述。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thermographic analysis of power oil transformer surface hot spot areas combined with analysis of acoustic signals recorded on line
The paper presents the results of thermographic and acoustic analysis of exemplary oil power transformer. Series of thermograms were taken. The higher temperature areas were distinguished on the transformer surfaces under different ambient temperatures. The thermograms indicated hot areas at the top of the transformer, especially under high ambient temperature. There were three areas that emit intensive infrared radiation in the spectrum: 7.5 μm < λ< 13 μm. These areas are located in the upper part of the transformer in zones of intense oil circulation forced by the cooling system. According to thermographic research the state of the transformer and the cooling system was proper. Within acoustic research, two areas were located with sources of magnetoacoustic signals of increased activity with the spectrum 15-65 kHz. Sources of these signals were intense phenomena occurring during the magnetization of ferromagnetic materials. No acoustic emission signal with increased activity from partial discharges were detected. The result of thermographic analysis corresponds with the results of acoustic signals analysis and analyzed together give a broader common description of the examined phenomena.
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来源期刊
CiteScore
3.40
自引率
0.00%
发文量
4
审稿时长
>12 weeks
期刊介绍: Fiber and Integrated Optics , now incorporating the International Journal of Optoelectronics, is an international bimonthly journal that disseminates significant developments and in-depth surveys in the fields of fiber and integrated optics. The journal is unique in bridging the major disciplines relevant to optical fibers and electro-optical devices. This results in a balanced presentation of basic research, systems applications, and economics. For more than a decade, Fiber and Integrated Optics has been a valuable forum for scientists, engineers, manufacturers, and the business community to exchange and discuss techno-economic advances in the field.
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