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Characterization of space charge and DC field distribution in XLPE and EPR during voltage polarity reversal with thermal gradient

机译：XLPE和EPR在电压极性逆转期间的XLPE和EPR中的空间电荷和DC场分布的表征

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A comparative study of the space charge behavior under voltage polarity reversal in cross-linked polyethylene (XLPE) and ethylene propylene rubber (EPR) in the presence of thermal gradient was conducted. For power cable under load conditions, a temperature gradient is established across the cable insulation. Due to the resistive grading under high voltage direct current, such thermal gradient will result in the accumulation of space charge. A modified pulsed-electroacoustic system was developed so that the space charge behavior in thin films under thermal gradient can be investigated. Moreover, the role of degassing process on both XLPE and EPR was investigated. The study indicates a large amount of space charge accumulation in XLPE results in field enhancement during polarity reversal, while it is not observed in EPR.

机译：进行了在热梯度存在下交联聚乙烯（XLPE）和乙烯丙烯橡胶（EPR）中的电压极性反转下的空间电荷行为的对比研究。对于负载条件下的电力电缆，在电缆绝缘中建立温度梯度。由于高压直流电的电阻分级，这种热梯度将导致空间充电的累积。开发了改进的脉冲电声系统，使得可以研究热梯度下的薄膜中的空间电荷行为。此外，研究了脱气过程对XLPE和EPR的作用。该研究表明，XLPE中的大量空间电荷累积导致极性逆转期间的现场增强，而在EPR中未观察到。

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《IEEE Conference on Electrical Insulation and Dielectric Phenomenon 》|2017年|831p|共4页
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作者
Mattewos Tefferi; Zongze Li; Hiroaki Uehara; Qin Chen; Yang Cao;
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原文格式 PDF
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中图分类 TM21-53;
关键词
Anodes; Cathodes; Space charge; Cable insulation; HVDC transmission; Polyethylene;

机译：阳极;阴极;空间电荷;电缆绝缘;HVDC传输;聚乙烯;

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专利

1. Space charge formation and its modified electric field under applied voltage reversal and temperature gradient in XLPE cable [J] . Fu M., Dissado L.A., Chen G., IEEE Transactions on Dielectrics and Electrical Insulation . 2008 ,第3期

机译：交联电压反向和温度梯度作用下交联聚乙烯电缆中的空间电荷形成及其修饰电场
2. Dynamics of surface charge and electric field distributions on basin-type insulator in GIS/GIL due to voltage polarity reversal [J] . Luo Yi, Tang Ju, Pan Cheng, High Voltage . 2020 ,第2期

机译：由于电压极性反转，GIS / GIL盆型绝缘子表面电荷和电场分布的动态
3. DC Model Cable under Polarity Inversion and Thermal Gradient: Build-Up of Design-Related Space Charge [J] . Nugroho Adi, Thi Thu Nga Vu, Gilbert Teyssèdre, Technologies . 2017 ,第3期

机译：极性反转和热梯度下的DC模型电缆：与设计相关的空间电荷的建立
4. Characterization of space charge and DC field distribution in XLPE and EPR during voltage polarity reversal with thermal gradient [C] . Mattewos Tefferi, Zongze Li, Hiroaki Uehara, IEEE Conference on Electrical Insulation and Dielectric Phenomena . 2017

机译：具有热梯度的电压极性反转期间XLPE和EPR中的空间电荷和DC场分布的表征
5. Study of accelerated aging of 15 kV XLPE and EPR cable insulation by switching impulses and elevated ac voltage. [D] . Cao, Linfeng. 2010

机译：通过开关脉冲和升高的交流电压加速15 kV XLPE和EPR电缆绝缘加速老化的研究。
6. Investigation of the Space Charge and DC Breakdown Behavior of XLPE/α-Al2O3 Nanocomposites [O] . Xiangjin Guo, Zhaoliang Xing, Shiyi Zhao, 2020

机译：XLPE /α-Al2O3纳米复合材料的空间电荷和直流击穿行为的研究
7. Space Charge Formation and Its Modified Electric Field under Applied Voltage Reversal and Temperature Gradient in XLPE Cable [O] . Fu, Mingli, Dissado, Len A., Chen, George, 2008

机译：交联聚乙烯交联电缆中施加电压反向和温度梯度下的空间电荷形成及其修饰电场

Characterization of space charge and DC field distribution in XLPE and EPR during voltage polarity reversal with thermal gradient

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