论文信息 - Switching impulse breakdown characteristics of large sphere-plane air gaps compared with rod-plane air gap

Switching impulse breakdown characteristics of large sphere-plane air gaps compared with rod-plane air gap

With the increase of operation voltage to 800 kV-1100 kV, the sphere-plane gaps with radius of 0.5-1 meter are widely used in the converter station of UHVDC power transmission system. In order to ensure the safety of UHVDC system and reduce the investment, it is necessary to investigate the breakdown characteristic of large radius sphere-plane gap. This paper implemented experiments on three different gap configurations: rod-plane, sphere (R=0.55 m)-plane, and sphere (R=0.75 m)-plane. The 50% breakdown voltages and the current injected into the high voltage electrode were measured. Besides, the discharge process was observed by a high speed CCD camera. Three types of current waveforms related to different streamer progression characteristics were found. With the increase of sphere radius, it can be found that the streamer gradually becomes dominant in the discharge process, which leads to higher average breakdown field, longer streamer length and much more injected charge of first streamer.

[1] H. Singer,et al. A Charge Simulation Method for the Calculation of High Voltage Fields , 1974 .

[2] F.A.M. Rizk. Influence of rain on switching impulse sparkover voltage of large-electrode air gaps , 1976, IEEE Transactions on Power Apparatus and Systems.

[3] R. Zeng,et al. Electric field step in air gap streamer discharges , 2011 .

[4] Bo Wang,et al. Design and application of an integrated electro-optic sensor for intensive electric field measurement , 2011, IEEE Transactions on Dielectrics and Electrical Insulation.

[5] R. Morrow,et al. RAPID COMMUNICATION: The discharge current induced by the motion of charged particles in time-dependent electric fields; Sato's equation extended , 1999 .

[6] A. Pedersen. On the electrical breakdown of gaseous dielectrics-an engineering approach , 1989 .

[7] I. Gallimberti,et al. The mechanism of the long spark formation , 1979 .

[8] R C Klewe,et al. Impulse breakdown of large sphere-plane gaps , 1972 .

[9] Wang Bo. Pre-breakdown Current Measurements from High Voltage Electrode of Rod-plane Gap Under Lightning Impulse Voltage , 2011 .

[10] H.M. Schneider,et al. Switching-surge flashover characteristics of long sphere-plane gaps for UHV station design , 1975, IEEE Transactions on Power Apparatus and Systems.

[11] R C Klewe,et al. Spectroscopic investigation of impulse corona discharges , 1974 .