中国电机工程学报
中國電機工程學報
중국전궤공정학보
ZHONGGUO DIANJI GONGCHENG XUEBAO
2011年
27期
8-13
,共6页
甄永赞%崔翔%卢铁兵%罗兆楠%周象贤%胡榕%向新宇
甄永讚%崔翔%盧鐵兵%囉兆楠%週象賢%鬍榕%嚮新宇
견영찬%최상%로철병%라조남%주상현%호용%향신우
高压直流输电%离子流场%充电导体%上流有限元法
高壓直流輸電%離子流場%充電導體%上流有限元法
고압직류수전%리자류장%충전도체%상류유한원법
high voltage direct-current (HVDC)%ionized field%charged conductor%upstream finite element method (FEM)
随着我国高压直流输电工程的快速建设,其电磁环境问题日益受到广泛关注,线下离子流场中导体充电问题是其中一项比较重要的问题。该文对上流有限元法进行改进,使其能够计算离子流场中经电阻接地导体的充电电位,计算结果与实验结果具有较好的一致性,证明了该算法的正确性。基于所提算法,讨论接地电阻变化时充电导体电位的变化规律。当接地电阻很大时,该方法计算结果为离子流场中悬浮导体的电位值;离子流场中悬浮导体充电电位绝对值比导体不存在时相同位置的电位值高。考察离子流场中悬浮导体的电位问题,需要进行离子流场数值计算。
隨著我國高壓直流輸電工程的快速建設,其電磁環境問題日益受到廣汎關註,線下離子流場中導體充電問題是其中一項比較重要的問題。該文對上流有限元法進行改進,使其能夠計算離子流場中經電阻接地導體的充電電位,計算結果與實驗結果具有較好的一緻性,證明瞭該算法的正確性。基于所提算法,討論接地電阻變化時充電導體電位的變化規律。噹接地電阻很大時,該方法計算結果為離子流場中懸浮導體的電位值;離子流場中懸浮導體充電電位絕對值比導體不存在時相同位置的電位值高。攷察離子流場中懸浮導體的電位問題,需要進行離子流場數值計算。
수착아국고압직류수전공정적쾌속건설,기전자배경문제일익수도엄범관주,선하리자류장중도체충전문제시기중일항비교중요적문제。해문대상류유한원법진행개진,사기능구계산리자류장중경전조접지도체적충전전위,계산결과여실험결과구유교호적일치성,증명료해산법적정학성。기우소제산법,토론접지전조변화시충전도체전위적변화규률。당접지전조흔대시,해방법계산결과위리자류장중현부도체적전위치;리자류장중현부도체충전전위절대치비도체불존재시상동위치적전위치고。고찰리자류장중현부도체적전위문제,수요진행리자류장수치계산。
With the rapid construction of high voltage direct-current (HVDC) transmission projects, its electromagnetic environment problems excite increasingly widespread attention, of which the conductor electrification in ionized field is an important problem. Upstream finite element method (FEM) was improved to calculate the potential of the conductor grounded via resistance in ionized field. The numerical results agreed with measured values well and the validity was verified. Based on the method, the potential varying characteristic of the charged conductor with the grounded resistance changing was considered. If the value of grounded resistance is tremendous, the numerical result is equal to the potential of floating conductor in ionized field. The potential absolute value of floating conductor in ionized field could be higher than the corresponding position without the conductor. To analyze the potential of floating conductor in ionized field, the ionized field numerical calculation is needed.
