机译:非典型电极气隙击穿电压的预测方法
School of Electrical Engineering, Wuhan University, China;
School of Electrical Engineering, Wuhan University, China;
School of Electrical Engineering, Wuhan University, China;
School of Electrical Engineering, Wuhan University, China;
School of Electrical Engineering, Wuhan University, China;
School of Electrical Engineering, Wuhan University, China;
Electric Power Research Institute, China Southern Power Grid, China;
Air gaps; Electric fields; Support vector machines; Discharges (electric); Electrodes; Atmospheric modeling; Predictive models;
机译:基于正交设计和支持向量机的短气隙工频击穿电压混合预测
机译:作者对以下问题的答复:湿度对球形间隙和均匀电场间隙的击穿电压的影响,附近接地物体的影响以及电压极性对水平球形间隙的直流电压击穿的影响,在均匀场中以及直径最大为25 cm的球之间的气隙的直流电压校准
机译:讨论湿度对球形间隙和均匀场间隙击穿电压的影响,附近的接地物体和电压极性对水平球形间隙的直流击穿的影响,温度的校准均匀场中和直径最大25厘米的球体之间的气隙
机译:环形结构短气隙工频击穿电压的预测研究
机译:跨气隙的静电击穿的3D全波模拟方法
机译:改良的氨电极法研究弯曲杆菌菌株对D-天冬酰胺的降解。
机译:气态间隙中球形导电粒子引发的电击穿(II):一种预测击穿电压的方法以及预测值和实验值的比较