中国电机工程学报
中國電機工程學報
중국전궤공정학보
ZHONGGUO DIANJI GONGCHENG XUEBAO
2014年
31期
5685-5692
,共8页
李小鹏%林圣%何正友%武骁
李小鵬%林聖%何正友%武驍
리소붕%림골%하정우%무효
高压输电线路%工频量%极性比较%方向元件%超高速
高壓輸電線路%工頻量%極性比較%方嚮元件%超高速
고압수전선로%공빈량%겁성비교%방향원건%초고속
HV transmission line%power frequency components%polarity comparison%directional element%ultra high speed
为解决现有方向元件动作速度和可靠性之间矛盾,提出一种基于工频量极性比较的方向元件。该元件通过小波变换提取故障前电压和故障电流的工频成分,利用两者之间的夹角表征极性关系,进而确定故障方向。该方向元件选用故障前的电压量判断故障方向,有效避免了电容式电压互感器(capacitor volatge transformer,CVT)暂态特性和小故障初始角对方向元件的影响。基于PSCAD/EMTDC的仿真结果表明,该元件能够快速可靠地确定故障方向,其性能不受故障初始角、过渡电阻、故障位置、故障类型、噪声、CVT 传变特性和负荷状态的影响。
為解決現有方嚮元件動作速度和可靠性之間矛盾,提齣一種基于工頻量極性比較的方嚮元件。該元件通過小波變換提取故障前電壓和故障電流的工頻成分,利用兩者之間的夾角錶徵極性關繫,進而確定故障方嚮。該方嚮元件選用故障前的電壓量判斷故障方嚮,有效避免瞭電容式電壓互感器(capacitor volatge transformer,CVT)暫態特性和小故障初始角對方嚮元件的影響。基于PSCAD/EMTDC的倣真結果錶明,該元件能夠快速可靠地確定故障方嚮,其性能不受故障初始角、過渡電阻、故障位置、故障類型、譟聲、CVT 傳變特性和負荷狀態的影響。
위해결현유방향원건동작속도화가고성지간모순,제출일충기우공빈량겁성비교적방향원건。해원건통과소파변환제취고장전전압화고장전류적공빈성분,이용량자지간적협각표정겁성관계,진이학정고장방향。해방향원건선용고장전적전압량판단고장방향,유효피면료전용식전압호감기(capacitor volatge transformer,CVT)잠태특성화소고장초시각대방향원건적영향。기우PSCAD/EMTDC적방진결과표명,해원건능구쾌속가고지학정고장방향,기성능불수고장초시각、과도전조、고장위치、고장류형、조성、CVT 전변특성화부하상태적영향。
To solve the contradiction of operation speed and reliability of the directional element of present protections, a novel directional element was proposed based on polarity comparison of power frequency components in this paper. The power frequency components of the pre-fault voltage and the fault current were extracted based on wavelet transform. Then the polarity relationship between power frequency components of the pre-fault voltage and the fault current was described by the angle between them. Thus, the fault direction can be determined. Since the proposed directional element utilizes the pre-fault voltage to determine the fault direction, it avoids the influences of the transient characteristic of capacitor voltage transformers (CVTs) and small fault inception angles on direction elements. The simulation results based on PSCAD/EMTDC indicate that the proposed directional element is able to determine the fault direction rapidly and reliably and its performance is insensitive to fault inception angles, fault resistances, fault positions, fault types, noise, CVT transfer characteristic and load conditions.