Abstract
An AC-DC combined voltage is applied to the oil-pressboard insulation near the valve side during the operation of a converter transformer. To study the breakdown characteristics of an oil-pressboard insulation under such voltages, a typical plate electrode structure was employed in the laboratory to conduct a breakdown test on the oil-pressboard insulation. The electrical field distribution and the DC contents of the transformer oil and the pressboard in composite insulation under the AC-DC combined voltage were simulated by their dielectric parameters. The breakdown strength of the transformer oil decreases with the increase in the DC content of the applied voltage, whereas that of the pressboard increases. For the oil-pressboard insulation, the breakdown voltage increases first and then decreases. The electric field strength decreases in the transformer oil with the increase in the DC content, whereas it increases in the pressboard. And the DC contents of the transformer and the pressboard in composite insulation were different from that of the applied voltage. Finally, based on the above results, a mathematical model was proposed to describe the breakdown characteristics of the oil-pressboard insulation under the AC-DC combined voltage; the theoretical and experimental results were in good agreement.
Highlights
The converter transformer is one of the most important pieces of equipment in high-voltage direct current (HVDC) power transmission projects, as it is used for AC-DC voltage conversion
The results showed that the breakdown strength of the pressboard increased with the increase in the thickness under both DC voltage and AC-DC combined voltage, whereas it decreased under the AC voltage [14,15,16]
The results showed that the breakdown voltage of the oil-pressboard insulation increased first and decreased with the increase in the DC content, and the breakdown voltage decreased with the increase in the flow rate [20]
Summary
The converter transformer is one of the most important pieces of equipment in high-voltage direct current (HVDC) power transmission projects, as it is used for AC-DC voltage conversion. Compared to the conventional AC transformers, the converter transformer can withstand the AC voltage, lightning impulse voltage, and operating overvoltage, and AC-DC combined voltage, polarity reversal voltage, and other complex conditions [3,4,5]. The electric field distribution in the oil-pressboard insulation under an AC-DC combined electric field is more complicated than that under an AC electric field alone. The breakdown strengths of the oil and pressboard are affected by the DC content, complicating the insulation design of converter transformers [6,7,8]. The breakdown voltage of a composite dielectric is mainly affected by the electric field distribution and breakdown strength of the dielectric [9,10]. The electric field distribution in oil-pressboard insulations has been extensively studied, mostly based on the resistance-capacitance model, under
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