Your search keyword '"Zhou, Songsong"' showing total 2 results

1. Influence of protrusions on the positive switching impulse breakdown voltage of sphere‐plane air gaps in high‐altitude areas

Author

Jianghai Geng, Zhou Songsong, Yujian Ding, Fangcheng Lv, Qin Yuchen, Xiuyuan Yao, and Ping Wang

Subjects

010302 applied physics, Materials science, Acoustics, 020208 electrical & electronic engineering, 02 engineering and technology, Valve hall, Impulse (physics), Effects of high altitude on humans, 01 natural sciences, Atomic and Molecular Physics, and Optics, Voltage sag, Shield, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Breakdown voltage, Electrical and Electronic Engineering, Air gap (plumbing), Voltage

Abstract

The construction of ultra-high-voltage direct-current power transmission projects in high-altitude areas calls for the research into the discharge characteristics of the air gaps in the valve hall of a power converter station in such areas. Tests on the switching impulse discharge characteristics of the sphere-plane air gap were conducted at Yangbajing test base (Tibet, China) at an altitude of 4300 m on conditions that there were burrs on the 1.3 m diameter shield balls. The discharge characteristics, under the influences of burrs with different lengths and locations, were obtained and compared with test data from low-altitude areas. The results indicate that the arrangements of burrs with different lengths and locations can significantly reduce the switching impulse discharge voltage of sphere-plane air gaps, while the voltage sag gradually decreased down with increasing burr length. Moreover, the larger the sphere-plane air gap is, the smaller the influence of such burrs have. High altitude also substantially decreased the switching impulse discharge voltage of the air gap. When the surface of shield balls was smooth, the U50 saturation of the air gap was more significant than at low altitude; however, if there were burrs on the shield balls, the saturation effect was less significant.

Published

2020

2. Study on Pollution Classification and External Insulation Configuration of ±1100kV DC Transmission Line1

Author

Huang Rui-ping, Liu Bo, Zhou Jun, Tian Liang, and Zhou Songsong

Subjects

Pollution, 020209 energy, media_common.quotation_subject, Insulator (electricity), 02 engineering and technology, Automotive engineering, Electric power transmission, Safe operation, Transmission line, Pollution flashover, 0202 electrical engineering, electronic engineering, information engineering, Environmental science, Engineering design process, Voltage, media_common

Abstract

Transmission line operating experience of China shows that the insulator pollution flashover seriously threatens safe operation of transmission line [1–3]. Appropriate determination of pollution levels along the proposed lines and the external insulation configuration applied in different pollution areas not only directly determine the result of the transmission line from engineering design perspective and affect the cost of the project, but also relate to the safety and reliability of transmission lines operation. A systematic and comprehensive research were carried out regarding the fouling and moisture characteristics of the Zhundong-Huadong DC line, AC and DC transmission lines operation in the nearby areas and the measurement results of site contamination degree over the years. By a comprehensive analysis and calculation, the paper proposed a method for prediction of the pollution classification of the Zhundong-Huadong lines. The external insulation configuration for different pollution areas are recommended based on the artificial pollution withstand voltage method.

Published

2018