Breakdown characteristics of typical model in transformer oil under AC and DC mixed voltage

In the HVDC transmission system, the valve side insulation of the converter transformer endures the AC and DC voltage simultaneously, and that could cause insulation failures in the converter transformer. Unfortunately, there is no method to simulate its working condition, so AC and DC test voltage...

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Hauptverfasser:	Guan Lan, Li Bo, Cheng Huanchao, Li Jinzhong, Li Guangfan
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Breakdown voltage Electric breakdown Electrodes HVDC transmission Oil insulation Power transformer insulation
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creator	Guan Lan Li Bo Cheng Huanchao Li Jinzhong Li Guangfan
description	In the HVDC transmission system, the valve side insulation of the converter transformer endures the AC and DC voltage simultaneously, and that could cause insulation failures in the converter transformer. Unfortunately, there is no method to simulate its working condition, so AC and DC test voltage are respectively imposed on the transformer during the factory test. There is a lack of research on the influences of AC and DC mixed voltage on the oil-pressboard insulation characteristics. In this paper a needle-plate electrode model is designed, and different values of AC and DC mixed voltage are imposed on the oil surrounded needle-plate electrode model to study the differences of breakdown characteristics. The test reveals different effects of AC and DC voltage component on the insulation model breakdown characteristics. The results indicate that, the AC breakdown voltage value decreases linearly as the DC pre-voltage value increases and vice versa. In addition, different pre-applied voltages affect the test results remarkably, that is, the breakdown voltage value under AC pre-voltage is higher than that under DC pre-voltage.
doi_str_mv	10.1109/CEIDP.2012.6378805
format	Conference Proceeding
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Unfortunately, there is no method to simulate its working condition, so AC and DC test voltage are respectively imposed on the transformer during the factory test. There is a lack of research on the influences of AC and DC mixed voltage on the oil-pressboard insulation characteristics. In this paper a needle-plate electrode model is designed, and different values of AC and DC mixed voltage are imposed on the oil surrounded needle-plate electrode model to study the differences of breakdown characteristics. The test reveals different effects of AC and DC voltage component on the insulation model breakdown characteristics. The results indicate that, the AC breakdown voltage value decreases linearly as the DC pre-voltage value increases and vice versa. 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Unfortunately, there is no method to simulate its working condition, so AC and DC test voltage are respectively imposed on the transformer during the factory test. There is a lack of research on the influences of AC and DC mixed voltage on the oil-pressboard insulation characteristics. In this paper a needle-plate electrode model is designed, and different values of AC and DC mixed voltage are imposed on the oil surrounded needle-plate electrode model to study the differences of breakdown characteristics. The test reveals different effects of AC and DC voltage component on the insulation model breakdown characteristics. The results indicate that, the AC breakdown voltage value decreases linearly as the DC pre-voltage value increases and vice versa. 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Unfortunately, there is no method to simulate its working condition, so AC and DC test voltage are respectively imposed on the transformer during the factory test. There is a lack of research on the influences of AC and DC mixed voltage on the oil-pressboard insulation characteristics. In this paper a needle-plate electrode model is designed, and different values of AC and DC mixed voltage are imposed on the oil surrounded needle-plate electrode model to study the differences of breakdown characteristics. The test reveals different effects of AC and DC voltage component on the insulation model breakdown characteristics. The results indicate that, the AC breakdown voltage value decreases linearly as the DC pre-voltage value increases and vice versa. 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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Breakdown voltage Electric breakdown Electrodes HVDC transmission Oil insulation Power transformer insulation
title	Breakdown characteristics of typical model in transformer oil under AC and DC mixed voltage
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