高电压技术
高電壓技術
고전압기술
HIGH VOLTAGE ENGINEERING
2011年
8期
1944-1951
,共8页
索南加乐%代玲%宋国兵%王增超%仝小虎
索南加樂%代玲%宋國兵%王增超%仝小虎
색남가악%대령%송국병%왕증초%동소호
输电线路%参数识别%“型等效模型%单相重合闸%过渡电阻%永久性故障%重合闸时问
輸電線路%參數識彆%“型等效模型%單相重閤閘%過渡電阻%永久性故障%重閤閘時問
수전선로%삼수식별%“형등효모형%단상중합갑%과도전조%영구성고장%중합갑시문
transmission lines%parameter identification%π type equivalent model%single-phase rec|osure%transitiork"resistance~ permanent fault%reclosing time
为了确定带并联电抗器输电线路单相接地故障后的熄弧时刻,提出了一种永久性故障确认方法。以单相接地故障断路器跳开后含过渡电阻支路的输电线路“型等效模型为参数辨识模型,在故障测距结果已知的情况下,通过计算过渡电阻值区分永久性故障和瞬时性故障。永久性故障情况下,所得过渡电阻值较小,瞬时性故障情况下,所得过渡电阻值很大。利用电力系统电磁暂态仿真计算(alternative transients program,ATP)软件建立线路仿真模型并进行各种故障情况下的仿真,然后通过MATLAB(matrix laboratory)编程对仿真结果进行处理,采用最小二乘法计算过渡电阻值并画出图形,分析图形可判别故障性质。与传统判据相比,该方法具有不受非周期分量和暂态谐波影响等优点,且可反映永久性故障的严重程度,并能准确判断故障点熄弧时间。大量ATP仿真验证表明,该判别方法能够快速识别故障性质,适用于单端、双端带并联电抗器输电线路的快速单相自适应重合闸。
為瞭確定帶併聯電抗器輸電線路單相接地故障後的熄弧時刻,提齣瞭一種永久性故障確認方法。以單相接地故障斷路器跳開後含過渡電阻支路的輸電線路“型等效模型為參數辨識模型,在故障測距結果已知的情況下,通過計算過渡電阻值區分永久性故障和瞬時性故障。永久性故障情況下,所得過渡電阻值較小,瞬時性故障情況下,所得過渡電阻值很大。利用電力繫統電磁暫態倣真計算(alternative transients program,ATP)軟件建立線路倣真模型併進行各種故障情況下的倣真,然後通過MATLAB(matrix laboratory)編程對倣真結果進行處理,採用最小二乘法計算過渡電阻值併畫齣圖形,分析圖形可判彆故障性質。與傳統判據相比,該方法具有不受非週期分量和暫態諧波影響等優點,且可反映永久性故障的嚴重程度,併能準確判斷故障點熄弧時間。大量ATP倣真驗證錶明,該判彆方法能夠快速識彆故障性質,適用于單耑、雙耑帶併聯電抗器輸電線路的快速單相自適應重閤閘。
위료학정대병련전항기수전선로단상접지고장후적식호시각,제출료일충영구성고장학인방법。이단상접지고장단로기도개후함과도전조지로적수전선로“형등효모형위삼수변식모형,재고장측거결과이지적정황하,통과계산과도전조치구분영구성고장화순시성고장。영구성고장정황하,소득과도전조치교소,순시성고장정황하,소득과도전조치흔대。이용전력계통전자잠태방진계산(alternative transients program,ATP)연건건립선로방진모형병진행각충고장정황하적방진,연후통과MATLAB(matrix laboratory)편정대방진결과진행처리,채용최소이승법계산과도전조치병화출도형,분석도형가판별고장성질。여전통판거상비,해방법구유불수비주기분량화잠태해파영향등우점,차가반영영구성고장적엄중정도,병능준학판단고장점식호시간。대량ATP방진험증표명,해판별방법능구쾌속식별고장성질,괄용우단단、쌍단대병련전항기수전선로적쾌속단상자괄응중합갑。
We propose a method to identify permanent faults for the transmission lines with shunt reactors. The method uses π type equivalent model (including the transition resistor branch) of single-phase fault that is switched off as the proto type, and di~tinguishes permanent fault from transient fault by calculating the value of transition re- sister. Furthermore, it {s supposed that the result of fault location is known. In the case of permanent fault, the cal- culated value of transition resistor is very low, but for the transient fault, the value ot" transition reslstdr is very high. An alternative transients program (ATPIsimulation software is used to make simu/ation models of transmis- sion lines to emulate transmission line faults in all situations. Then the simulation results are processed through edi- ting MATLAB(matrix laboratory) program, which uses least-square method to calculate the value of transition re- sistor and then draws figures of the results. Through analyzing the figures, we can distinguish permanent fault from transient fault. Compared with traditional criterions, this method is not influenced by non-periodic components and transitidn condition harmonics, etc. Moreover, the severity of the permanent fault can be reflected through calculat- ing the value of transition resistance and the extinction time of secondary arc can be assessed. ATP simulation re- sults show that the proposed method can effectively distinguish permanent fault from transient fault. This method can be applied to the single-phase adaptive reclosure in transmission lines with shunt reactors.
