摘要
The total electric field(TEF) at ground level induced by high-voltage direct current(HVDC) overhead transmission lines is one of the important indexes for evaluating the lines' electromagnetic environment.Based on analyzing the existing TEF sensors and the measurement principle of ion-current density,the influence from ions on TEF measurements is quantitively studied.The results show that the ions generated by the corona from a HVDC transmission line in operation cause errors in the measurement of TEF.This error is determined through analyzing the component of total measuring current on the filed mill's sensing electrode: if no appropriate approach taken,the maximum measurement error reaches up to 4.3%.Furthermore,a method that can eliminate such error,and hence improve the accuracy of TEF sensors is designed.
The total electric field(TEF) at ground level induced by high-voltage direct current (I-IVDC) overhead transmission lines is one of the important indexes for evaluating the lines' electromagnetic environment. Based on analyzing the existing TEF sensors and the mea- sttrement principle of ion-current density, the influence from ions on TEF measurements is quantitively studied. The results show that the ions generated by the corona from a HVDC transmission line in operation cause errors in the measurement of TEF. This error is determined through analyzing the component of total measuring current on the fled mill's sensing electrode: if no appropriate approach taken, the maximum measurement error reaches up to 4.3%. Furthermore, a method that can eliminate such error, and hence improve the accuracy of TEF sensors is designed.
出处
《高电压技术》
EI
CAS
CSCD
北大核心
2013年第10期2459-2464,共6页
High Voltage Engineering
基金
Project supported by National Natural Science Foundation of China (61273165 51207005).
