Dielectric Heating of Polymers as a Consequence of High Harmonic Voltage Distortion

T. Linde, K. Backhaus, Rolf Terzan, Stephan Schlegel
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引用次数: 1

Abstract

Harmonic distorted voltage waveforms can lead to excessive heat in the insulation of electrical equipment. The prospectively increasing number of power electronic devices in electrical grids requires the careful examination of the consequences of harmonics, which are introduced due to the operating principle of the semiconductor switches. Investigations of the thermal breakdown of solid dielectrics that may occur as a consequence of harmonic distortion on the voltage waveform of electrical grids are presented in this contribution. A thermo-electrical multi-frequency model allows the calculation of the overtemperature in the material. The calculations are confirmed by breakdown experiments of phenolic paper and epoxy resin. Generally, the additional dielectric losses due to the harmonic voltage distortion increase the possibility of exceeding the thermal equilibrium. However, modern insulation materials like the investigated epoxy resin have very low loss factors which is favourable for good thermal performance even with severely distorted voltages.
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高谐波电压畸变引起的聚合物的介电加热
谐波畸变电压波形会导致电气设备绝缘过热。由于半导体开关的工作原理,电网中电力电子设备的数量不断增加,因此需要仔细检查谐波的后果。固体介质的热击穿的研究,可能发生的结果谐波失真的电压波形上的电网提出了这一贡献。热电多频模型允许计算材料中的过温。通过对酚醛纸和环氧树脂的击穿实验,验证了计算结果。通常,由于谐波电压畸变引起的额外介电损耗增加了超过热平衡的可能性。然而,像所研究的环氧树脂这样的现代绝缘材料具有非常低的损耗因子,即使在严重扭曲的电压下也有利于良好的热性能。
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