Flashover and Charging Characteristics of a Long Solid Insulator Exposed to ac Voltage in Vacuum

2006 International Symposium on Discharges and Electrical Insulation in Vacuum Pub Date : 2006-09-01 DOI:10.1109/DEIV.2006.357243

O. Yamamoto, H. Hayashi, T. Satoh, S. Hamada, T. Kobayashi, H. Omura, H. Morii

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引用次数: 1

Abstract

In our previous studies, with a comparatively short cylindrical insulator of 10 mm length, we have found that the charging process due to ac voltage excitation in vacuum is characterized by three different states; initiation, quasi-stable state and stable state. In all of the states, the insulator surface acquires positive charge irrespective of applied voltage amplitude or phase. Also, we have reported that the magnitude of the charge decreases with the roughness of insulator, and that this results in the improvement of surface insulation strength. To apply the above results for practical insulators used for vacuum valves of VCBs, we have investigated the characteristics for a longer insulator up to 50 mm made of borosilicate (Pyrexreg). As a result, we have confirmed that the charging process is basically the same as that observed in the previous studies. We have also confirmed the effectiveness of roughening the surface on reducing the charge magnitude and increasing the flashover voltage

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真空中接触交流电压的长固体绝缘子的闪络和充电特性

在我们之前的研究中，对于一个长度为10mm的圆柱绝缘子，我们发现在真空中交流电压激励下的充电过程有三种不同的状态;起始，准稳态和稳态。在所有的状态下，无论施加电压的幅度或相位如何，绝缘体表面都获得正电荷。此外，我们还报道了电荷的大小随着绝缘子粗糙度的减小而减小，这导致表面绝缘强度的提高。为了将上述结果应用于vcb真空阀的实际绝缘子，我们研究了由硼硅酸盐(Pyrexreg)制成的长达50毫米的绝缘子的特性。因此，我们确认了充电过程与之前研究中观察到的基本相同。我们还证实了表面粗化对降低电荷量和提高闪络电压的有效性

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2006 International Symposium on Discharges and Electrical Insulation in Vacuum

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