浙江电力2024,Vol.43Issue(7):20-28,9.DOI:10.19585/j.zjdl.202407003
新能源电源送出线路不同类型距离保护动作性能比较
A comparison of the operational performance of different types of distance protec-tion in new energy power transmission lines
摘要
Abstract
Following a fault on an AC transmission line for new energy,the fault response of the new energy power supply can influence the operation of distance protection.Therefore,leveraging the control strategy of the new en-ergy power supply,this study delves into alternations in impedance,system power angle,and faulty electrical quan-tity prior to and post-fault.It also contrasts the performance of three distance protection mechanisms:phase polariza-tion voltage,positive-sequence polarization voltage,and sudden magnitude variation.Given that the phase voltage drops to zero when faults occur at the line outlet,a non-responsive zone is inherent in the action area of phase polar-ization voltage distance protection mechanism.After a fault,the phase of the positive sequence voltage is influenced by control and shifts.This presents risks of refusal to trip during an internal fault and false tripping during an exter-nal fault for positive-sequence polarization voltage phase-sequence distance protection mechanism.Regarding the sudden magnitude variation distance protection mechanism,a fault can compel a shift in the compensated voltage phase due to control influences,which could result in protection refusal or false tripping.Using the real-time digital simulator(RTDS),a system model demonstrating the transmission of new energy via AC lines is established.A simulation analysis of the performance of the three mechanisms is performed.The findings from the simulation align seamlessly with the theoretical scrutiny.关键词
新能源控制响应/输电线路/距离保护/电源等值阻抗/系统功角/极化电压Key words
new energy control response/transmission line/distance protection/equivalent impedance of power supply/system power angle/polarization voltage引用本文复制引用
王兴国,于溯..新能源电源送出线路不同类型距离保护动作性能比较[J].浙江电力,2024,43(7):20-28,9.基金项目
国家自然科学基金资助项目(U2166205) (U2166205)
