Lightning impulse voltage breakdown tests were made in needle/plane, needle/sphere and U-type electrode systems and compared between ester fluids and mineral oil. Results show that the geometry of electrode has significant impact on both breakdown voltage and the velocity of streamer. The more divergent the electric field, the lower the breakdown voltage. The lowest breakdown voltage was found in needle/plane geometry having the most divergent field. In needle/sphere geometry the breakdown voltage was twice as high. In the U-type geometry the breakdown voltage was further increased. At breakdown voltage, streamer propagation velocity in needle/plane geometry was about 2 km/s and in the U-type geometry, the streamer velocity was about 10 km/s. Less difference was found between ester fluids and mineral oil in the U-type geometry for both streamer velocity and the values of breakdown voltage at an oil gap length of 35 mm, which is closer to the field distribution in a real transformer. The impact of electrode geometry dominated over the difference between liquids, which made the ester fluids and mineral oil more similar in the more homogeneous electric field of the U-type electrode system.
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机译:雷电冲击电压击穿测试是在针头/飞机,针头/球体和U型电极系统中进行的,并在酯油和矿物油之间进行了比较。结果表明,电极的几何形状对击穿电压和拖缆速度都具有显着影响。电场越发散,击穿电压越低。在具有最大发散场的针/平面几何结构中发现最低的击穿电压。在针头/球体几何形状中,击穿电压高两倍。在U型几何结构中,击穿电压进一步增加。在击穿电压下,针/平面几何形状的拖缆传播速度约为2 km / s,而在U型几何形状中,拖缆速度约为10 km / s。在U型几何结构中,对于酯油和矿物油,在拖缆速度和油隙长度为35 mm时击穿电压的值之间的差异较小,这更接近真实变压器中的磁场分布。电极几何形状的影响主要取决于液体之间的差异,这使得酯类流体和矿物油在U型电极系统的更均匀电场中更加相似。
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