高电压技术
高電壓技術
고전압기술
HIGH VOLTAGE ENGINEERING
2009年
12期
2944-2952
,共9页
陈绍东%张义军%杨少杰%董万胜%王建国%吕伟涛%王孝波
陳紹東%張義軍%楊少傑%董萬勝%王建國%呂偉濤%王孝波
진소동%장의군%양소걸%동만성%왕건국%려위도%왕효파
触发闪电%自动气象站%电子设备%输电线路%回击%感应过电压%残压
觸髮閃電%自動氣象站%電子設備%輸電線路%迴擊%感應過電壓%殘壓
촉발섬전%자동기상참%전자설비%수전선로%회격%감응과전압%잔압
triggered lightning%AWS(automatic weather station)%electronic equipment%transmission line%return stroke%induced overvoltage%residue voltage
针对全国自动气象站采集器屡遭雷击致使不能正常业务运行的现象,开展了自动气象站电子设备电源系统雷电防护试验.利用人工触发闪电技术,对自动气象站采集器电源线路感应过电压进行了观测,对雷击造成的感应效应和采集器等电子设备的雷电防护关键技术进行了探讨.分析了多回击触发闪电引起输电线路的感应过电压特征、浪涌保护器(SPD)残压特征以及与触发闪电之间的关系.结果表明:近距离触发闪电的回击过程在架空线路上产生峰值达十几kV的双极性感应过电压,过电压可分为主峰值段和后续过电压两个阶段,其平均持续时间分别约100μs和4 ms,后续过电压持续时间与回击后连续电流的波动有关;在人工触发闪电的初始连续电流阶段也能感应>2 kV的过电压,且持续时间较长,过电压集中段时间约12 ms,平均电压332.5 V,其对输电线路造成的危害也不容忽视.SPD残压峰值与触发闪电电流峰值有较好的正相关关系,相关系数为0.86,SPD残压特性稳定,在一定程度上起到了限压泄流的作用.
針對全國自動氣象站採集器屢遭雷擊緻使不能正常業務運行的現象,開展瞭自動氣象站電子設備電源繫統雷電防護試驗.利用人工觸髮閃電技術,對自動氣象站採集器電源線路感應過電壓進行瞭觀測,對雷擊造成的感應效應和採集器等電子設備的雷電防護關鍵技術進行瞭探討.分析瞭多迴擊觸髮閃電引起輸電線路的感應過電壓特徵、浪湧保護器(SPD)殘壓特徵以及與觸髮閃電之間的關繫.結果錶明:近距離觸髮閃電的迴擊過程在架空線路上產生峰值達十幾kV的雙極性感應過電壓,過電壓可分為主峰值段和後續過電壓兩箇階段,其平均持續時間分彆約100μs和4 ms,後續過電壓持續時間與迴擊後連續電流的波動有關;在人工觸髮閃電的初始連續電流階段也能感應>2 kV的過電壓,且持續時間較長,過電壓集中段時間約12 ms,平均電壓332.5 V,其對輸電線路造成的危害也不容忽視.SPD殘壓峰值與觸髮閃電電流峰值有較好的正相關關繫,相關繫數為0.86,SPD殘壓特性穩定,在一定程度上起到瞭限壓洩流的作用.
침대전국자동기상참채집기루조뢰격치사불능정상업무운행적현상,개전료자동기상참전자설비전원계통뇌전방호시험.이용인공촉발섬전기술,대자동기상참채집기전원선로감응과전압진행료관측,대뢰격조성적감응효응화채집기등전자설비적뇌전방호관건기술진행료탐토.분석료다회격촉발섬전인기수전선로적감응과전압특정、랑용보호기(SPD)잔압특정이급여촉발섬전지간적관계.결과표명:근거리촉발섬전적회격과정재가공선로상산생봉치체십궤kV적쌍겁성감응과전압,과전압가분위주봉치단화후속과전압량개계단,기평균지속시간분별약100μs화4 ms,후속과전압지속시간여회격후련속전류적파동유관;재인공촉발섬전적초시련속전류계단야능감응>2 kV적과전압,차지속시간교장,과전압집중단시간약12 ms,평균전압332.5 V,기대수전선로조성적위해야불용홀시.SPD잔압봉치여촉발섬전전류봉치유교호적정상관관계,상관계수위0.86,SPD잔압특성은정,재일정정도상기도료한압설류적작용.
The lightning protection on the power system of electronic equipment was tested, as AWSs collectors nationwide have been frequently struck by lightning and failed to operate normally. Using the artificially triggered lightning techniques, the induced effects caused by the lightning and the key lightning protection techniques research were developed near the lightning channel. The induced overvoltage characteristics and SPD residue voltage characteristics caused by triggered lightning with multiple return strokes on the transmission line of an AWS, as well as the relationship with the triggered lightning, were analyzed. The results show that: (a) The return strokes of the near triggered lightning generate bipolar induced overvoltages on the overhead line, with peaks up to more than 10 kV. The overvoltages can be divided into the main peak phase and the subsequent overvoltage phase, which last about 100μs and 4ms respectively on average. The period of the subsequent overvoltages is related to the fluctuation of the continuous current behind return stroke of the triggered lightning; (b) Overvoltages of 2 kV or above can be induced at the initial continuous current phase. They last a long period of time and concentrate about 12ms, with the mean voltage being 332.5V. Its potential damage to the transmission line cannot be neglected. Residue voltages of SPD play an effect on limiting voltage and releasing current in a degree with stable performance, and there is positive correlation between its peak value and peak current of triggered lighting, the correlation coefficient is 0.86.
