Abstract
Based on the existing acknowledgment that space charge modulates AC and DC breakdown of insulating materials, this investigation promotes the related investigation into the situations of more complex electrical stress, i.e., AC-DC combined voltages. Experimentally, the AC-DC breakdown characteristics of oil impregnated paper insulation were systematically investigated. The effects of pre-applied voltage waveform, AC component ratio, and sample thickness on AC-DC breakdown characteristics were analyzed. After that, based on an improved bipolar charge transport model, the space charge profiles and the space charge induced electric field distortion during AC-DC breakdown were numerically simulated to explain the differences in breakdown characteristics between the pre-applied AC and pre-applied DC methods under AC-DC combined voltages. It is concluded that large amounts of homo-charges are accumulated during AC-DC breakdown, which results in significantly distorted inner electric field, leading to variations of breakdown characteristics of oil impregnated paper insulation. Therefore, space charges under AC-DC combined voltages must be considered in the design of converter transformers. In addition, this investigation could provide supporting breakdown data for insulation design of converter transformers and could promote better understanding on the breakdown mechanism of insulating materials subjected to AC-DC combined voltages.
Highlights
The high voltage direct current (HVDC) technique is widely employed in long distance power transmission due to its advantages of low line loss and high operating stability [1]
Converter transformer is one of the key equipment in HVDC transmission system, which operates in long-term complex voltage conditions including DC, AC, polarity reversal, and AC-DC combined voltages
According to CIGRE, the failure rate of converter transformers is 10.3 per 100 units, which is far larger than extra high voltage (EHV) AC transformers
Summary
The high voltage direct current (HVDC) technique is widely employed in long distance power transmission due to its advantages of low line loss and high operating stability [1]. According to a statistical data by the end of 2016, 4 ± 800 kV HVDC transmission lines have already been put in operation and six HVDC lines are under construction in China [2]. Converter transformer is one of the key equipment in HVDC transmission system, which operates in long-term complex voltage conditions including DC, AC, polarity reversal, and AC-DC combined voltages. According to CIGRE, the failure rate of converter transformers is 10.3 per 100 units, which is far larger than extra high voltage (EHV) AC transformers. Oil impregnated paper (OIP) is a typical cellulose-liquid biphasic insulating material, and is the main insulating material in converter transformers. Due to the limitations in testing equipment, Energies 2018, 11, 1547; doi:10.3390/en11061547 www.mdpi.com/journal/energies
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