Abstract :
Based on operating experience, analyses of the electric field distribution in the lower part of the bushing, and the design method used in the condenser body, it is found that for HV transformer bushings the flashover voltage in oil and the partial discharge inception voltage (PDIV) are usually lower. Two measures are suggested for improving the properties, namely, a new kind of design method and optimized shapes. The measures were shown to be successful by partial discharge (PD) measurements and flashover tests carried out on the real bushings. It is shown that the bushing´s flashover voltage in oil may be raised by modifying the shape of the lower porcelain housing, and the arrangement of electric foils in the condenser body by the new method. The experiments show that the change of lower porcelain housing shape leads to a remarkable improvement in flashover voltage in oil. The PDIV value may be raised by modifying the shape of the end shielding, which makes the maximum stress move to the bottom from the top of the end shielding, and arranging electric foils in the condenser body by the new method, which brings about an equal PD margin
Keywords :
bushings; flashover; high-voltage engineering; partial discharges; power transformers; transformer insulation; HV transformer bushing; condenser body; design method; electric field distribution; electric foils; end shielding; flashover voltage; oil; optimized shapes; partial discharge inception voltage; porcelain housing; Design methodology; Flashover; Insulators; Oil insulation; Partial discharge measurement; Partial discharges; Petroleum; Porcelain; Shape measurement; Voltage;
Conference_Titel :
Properties and Applications of Dielectric Materials, 1991., Proceedings of the 3rd International Conference on
