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Abstract
During the operation of power transformers, the insulating oil is actually in a moving state due to the effects of various cooling systems. Therefore, the investigation on insulation characters of moving transformer oil is necessary. In this paper, the influences of temperature on partial discharge (PD) and breakdown characteristics of moving transformer oil contaminated by metallic particles were experimentally studied at first. It was found that the PD magnitude and frequency first decreased and then became higher when the temperature increased from 40 °C to 80 °C, and a minimum point appeared between 70 °C and 80 °C. On the contrary, the dependence of breakdown voltage on temperature showed an opposite tendency. In order to explain the experimental results, a simulation model involving multiple forces was constructed to obtain the movement trajectory of particles. The increase of oil temperature leaded to the decrease of dynamic viscosity of transformer oil, so the forces acting on particles and their movement characters changed. As the temperature increased, the collision frequency between particles and electrodes first decreased and then became higher, and there was a minimum point between 70 °C and 80 °C. This changing tendency was in accordance with the dependence of PD parameters on the oil temperature. In terms of the above results, the effects of temperature on PD frequency and breakdown voltage were discussed.
Highlights
Power transformers, serve as an electrical energy transfer device, play an extremely important role in power system
PD CHARACTERISTICS The partial discharge inception voltage (PDIV) was firstly measured, and it was always below 13.5 kV when the oil temperature varied, so an AC voltage with a peak value of 15 kV and frequency of 50 Hz was applied to the high-voltage electrode to ensure the occurrence of PD
In order to clearly analyze the effect of temperature variation on PD parameters, the changing tendencies of PD magnitude, PD frequency with temperature are depicted according to PD patterns, as Fig. 4
Summary
Serve as an electrical energy transfer device, play an extremely important role in power system. The former serves as an electrical insulation and as a coolant It is often contaminated by gas bubbles [4], fibers [5], [6] and metallic particles [7] during the processes of manufacturing, installing, operation and maintaining. These particles may lead to the local electric field distortion and induce partial discharges (PDs), which deteriorate the insulation performance of the whole device and even cause transformer failures. It was found that the metallic particles had much more threat to transformer insulation in comparison with the others [8]
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