Your search keyword '"switching impulse test"' showing total 2 results

1. Study on the optimisation of the end fittings of the DC disconnector

Author

Jindi Li, Yujian Ding, Fangcheng Lv, Xiuyuan Yao, and Yan Mao

Subjects

gas insulated switchgear, finite element analysis, impulse testing, lightning protection, air gaps, switching impulse test, optimised disconnector, end fittings, DC disconnector, key electrical equipment, indoor DC field, double-balanced ring structure, electric field simulation, maximum field strength, control field strength, DC project, switching impulse discharge voltage, impact discharge voltage, voltage 1100.0 kV, voltage 2400.0 kV, Engineering (General). Civil engineering (General), TA1-2040

Abstract

The disconnector is the key electrical equipment in DC field. In China, the ±1100 kV DC project uses the indoor DC field, where the switching impulse withstand voltage of the disconnector influences the clearance a lot. To improve the switching impulse withstand level of the ±1100 kV disconnector, first of all, the switching impulse test was carried out on the disconnector with traditional double-balanced ring structure and the 50% switching impulse discharge voltage was obtained. By analysing the discharge path, it is found that the grading ring did not effectively shield the upper part of the disconnector. Therefore, the structure of the end fittings of the disconnector was changed to the structure of the mushroom head. The electric field simulation was performed on the optimised shield，it is shown that the maximum field strength is lower than the control field strength. Then the switching impulse test was carried out on the optimised disconnector, it was found that the 50% impact discharge voltage was above 2400 kV which met the engineering requirements.

Published

2019

2. Study on the optimisation of the end fittings of the DC disconnector.

Author

Li, Jindi, Ding, Yujian, Lv, Fangcheng, Yao, Xiuyuan, and Mao, Yan

Subjects

DIRECT current circuits, GAS insulation in electric switchgears, ELECTRIC fields, FINITE element method, ELECTRIC potential

Abstract

The disconnector is the key electrical equipment in DC field. In China, the ±1100 kV DC project uses the indoor DC field, where the switching impulse withstand voltage of the disconnector influences the clearance a lot. To improve the switching impulse withstand level of the ±1100 kV disconnector, first of all, the switching impulse test was carried out on the disconnector with traditional double-balanced ring structure and the 50% switching impulse discharge voltage was obtained. By analysing the discharge path, it is found that the grading ring did not effectively shield the upper part of the disconnector. Therefore, the structure of the end fittings of the disconnector was changed to the structure of the mushroom head. The electric field simulation was performed on the optimised shield，it is shown that the maximum field strength is lower than the control field strength. Then the switching impulse test was carried out on the optimised disconnector, it was found that the 50% impact discharge voltage was above 2400 kV which met the engineering requirements. [ABSTRACT FROM AUTHOR]

Published

2019