Gas generation characteristics of transformer oil under combined AC-DC voltages in the process of arcing

Y. Zhou, Y. Sha, X. X. Jiang, Q. Sun, Y. S. Wang, J. Tian
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引用次数: 5

Abstract

As an important equipment, convertor transformer plays a crucial role in ultra high voltage direct current (UHVDC). How to improve the safety running level of convertor transformers is a key problem to be solved imminently. Compared with AC power transformers, the valve side windings of convertor transformers will endure combined AC-DC voltage. In these conditions, the gas generation characteristics in oil for convertor transformers will be more complicated. In this paper, according to the operational principle of convertor transformers, the ratios between AC and DC voltage on valve side windings in the star connection and triangular connection were 77.1% and 83.7% respectively. Based on the above results, 65 kV peak voltages in 5 different AC and DC voltage forms were applied to the needle-plate electrode model for 2 hours. The discharge current and voltage waveforms were recorded and the arc current pulses had a short lasting time about 1.2 ms. Then the mean discharge energy was calculated at 0.1 to 0.3 J. At the same time, the gas generation characteristics under combined AC-DC voltage were obtained by using the gas chromatographic analysis method. The variations of amounts and generation rates of characteristic gases were measured with time during 2 hours, which provided fault judgment criterions and experimental experience. The experimental results showed that the amounts and generation rates of H2, C2H2 and total hydrocarbon under the pure DC voltage or combined AC-DC voltage were more than those under the pure AC voltage. It might illustrate the fact that effects of different voltage forms would lead to different gas generation characteristics could not be ignored.
交直流复合电压下变压器油电弧过程的产气特性
换流变压器作为一种重要的设备,在特高压直流输电系统中起着至关重要的作用。如何提高换流变压器的安全运行水平是一个亟待解决的关键问题。与交流电力变压器相比,换流变压器的阀侧绕组将承受交直流组合电压。在这种情况下,换流变压器油中的生气特性将更加复杂。本文根据换流变压器的工作原理,在星形接线和三角形接线中,阀侧绕组交直流电压之比分别为77.1%和83.7%。基于上述结果,在针板电极模型上施加5种不同交流和直流电压形式的65 kV峰值电压2小时。记录了放电电流和电压波形,电弧电流脉冲持续时间短,约为1.2 ms。然后计算0.1 ~ 0.3 j的平均放电能量,同时利用气相色谱分析方法获得交直流复合电压下的产气特性。在2小时内测量特征气体的量和产生速率随时间的变化,为故障判断提供依据和实验经验。实验结果表明,纯直流电压或交直流复合电压下H2、C2H2和总烃的生成量和生成速率均大于纯交流电压下。这可能说明不同电压形式的影响会导致不同的生气特性是不可忽视的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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