Abstract
Creeping flashover easily occurs at the interface between oil and pressboard in transformer and thus results in outage of power transmission system. Investigations have shown that creeping flashover characteristics at oil/pressboard interface can be improved by the addition of TiO2 nanoparticles, but the mechanism is still not thoroughly known. In this work, creeping flashover performance at nanofluid/pressboard interface modified by different sizes of nanoparticles were studied and the mechanism was presented as well. Nanofluids with the same concentration but with different sizes of TiO2 nanoparticles were prepared, and pressboards impregnated with them were prepared as well. After that, their creeping flashover characteristics were measured and compared. Nanoparticle’s size affected the creeping flashover performance along oil/pressboard greatly under both AC and lightning impulse voltages. The highest creeping flashover voltage can be enhanced by as high as 12.2% and 32.0% respectively. The underlying electric field distribution and charge transportation behaviors were analyzed to demonstrate the influence of nanoparticle’s size. By the addition of nanoparticles with a smaller size, the dielectric constant of nanofluid was increased closer to that of the pressboard, thus they were matched better. Moreover, charge was easier to dissipate from the oil/pressboard interface and electric field distortion at the interface was consequently reduced. Therefore, the electric field was more like a uniform field and the forward development of flashover was more difficult, leading to a better performance of creeping flashover of oil-impregnated pressboard.
Highlights
The safety and reliability of power transformer is related to the safe and stable operation of the whole power system
A large number of studies have shown that the oil/pressboard interface is the weakness of insulation, and creeping flashover on oil/pressboard interface can lead to insulation failure of transformers.[1,2,3]
The smaller the size is, the larger the dielectric constant is. This can reduce electric field strength on the oil side next to an oil/pressboard interface, which makes discharge more difficult to occur in the oil
Summary
The safety and reliability of power transformer is related to the safe and stable operation of the whole power system. With the continuous construction of ultra high voltage (UHV) AC and DC power transmission projects, transformer is forced to meet higher and higher requirements. A large number of studies have shown that the oil/pressboard interface is the weakness of insulation, and creeping flashover on oil/pressboard interface can lead to insulation failure of transformers.[1,2,3] it is urgent to explore a new method to improve the insulation performance of oil/pressboard composite system, especially for the new requirements of transformer with large capacity but small size. Domestic and foreign research have shown that the dielectric strength has been greatly improved by adding nanoparticles to the transformer oil-pressboard insulation system, and.
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