中国电机工程学报
中國電機工程學報
중국전궤공정학보
ZHONGGUO DIANJI GONGCHENG XUEBAO
2011年
28期
136-143
,共8页
廖瑞金%周天春%刘玲%周湶
廖瑞金%週天春%劉玲%週湶
료서금%주천춘%류령%주천
交联聚乙烯电缆%电树枝化%局部放电%特征提取
交聯聚乙烯電纜%電樹枝化%跼部放電%特徵提取
교련취을희전람%전수지화%국부방전%특정제취
cross-linked polyethylene (XLPE) power cables%electrical treeing%partial discharge%feature extraction
电树枝化是影响交联聚乙烯(cross—linked polyethylene,XLPE)绝缘电力电缆长期安全运行的瓶颈,需要深入研究XLPE电缆绝缘的老化机制,尤其是电树枝化的规律,为XLPE电缆的设计制造和现场的运行管理,特别是在线诊断提供理论支撑。设计了交联聚乙烯电缆样品和相应的试验电极装置,并搭建基于实际XLPE电缆的电树枝化试验平台进行试验。结果表明该试验系统能满足XLPE电缆电树枝化试验研究的要求。以15kV的XLPE电缆作为试验样品,开展常温下工频12~21kV和50~90℃下的电树枝化试验,分析了电压和温度对电树枝形态的影响,得到电树枝局部放电的统计图谱,并将电树枝的生长发展分成4个阶段,分析了电树枝在不同生长阶段局部放电的最大放电量相位和平均放电量相位的分布,提取了其偏斜度等统计特征量,结果表明电压和温度对实际XLPE电缆中电树枝形态的影响与针一板电极得到的结果趋势相同,但是电树枝生长过程存在着一定的差异,同时最大放电量相位分布和平均放电量相位分布的3阶矩随着电树枝的生长发展而减小,可作为诊断电树枝生长发展阶段的参考量。
電樹枝化是影響交聯聚乙烯(cross—linked polyethylene,XLPE)絕緣電力電纜長期安全運行的瓶頸,需要深入研究XLPE電纜絕緣的老化機製,尤其是電樹枝化的規律,為XLPE電纜的設計製造和現場的運行管理,特彆是在線診斷提供理論支撐。設計瞭交聯聚乙烯電纜樣品和相應的試驗電極裝置,併搭建基于實際XLPE電纜的電樹枝化試驗平檯進行試驗。結果錶明該試驗繫統能滿足XLPE電纜電樹枝化試驗研究的要求。以15kV的XLPE電纜作為試驗樣品,開展常溫下工頻12~21kV和50~90℃下的電樹枝化試驗,分析瞭電壓和溫度對電樹枝形態的影響,得到電樹枝跼部放電的統計圖譜,併將電樹枝的生長髮展分成4箇階段,分析瞭電樹枝在不同生長階段跼部放電的最大放電量相位和平均放電量相位的分佈,提取瞭其偏斜度等統計特徵量,結果錶明電壓和溫度對實際XLPE電纜中電樹枝形態的影響與針一闆電極得到的結果趨勢相同,但是電樹枝生長過程存在著一定的差異,同時最大放電量相位分佈和平均放電量相位分佈的3階矩隨著電樹枝的生長髮展而減小,可作為診斷電樹枝生長髮展階段的參攷量。
전수지화시영향교련취을희(cross—linked polyethylene,XLPE)절연전력전람장기안전운행적병경,수요심입연구XLPE전람절연적노화궤제,우기시전수지화적규률,위XLPE전람적설계제조화현장적운행관리,특별시재선진단제공이론지탱。설계료교련취을희전람양품화상응적시험전겁장치,병탑건기우실제XLPE전람적전수지화시험평태진행시험。결과표명해시험계통능만족XLPE전람전수지화시험연구적요구。이15kV적XLPE전람작위시험양품,개전상온하공빈12~21kV화50~90℃하적전수지화시험,분석료전압화온도대전수지형태적영향,득도전수지국부방전적통계도보,병장전수지적생장발전분성4개계단,분석료전수지재불동생장계단국부방전적최대방전량상위화평균방전량상위적분포,제취료기편사도등통계특정량,결과표명전압화온도대실제XLPE전람중전수지형태적영향여침일판전겁득도적결과추세상동,단시전수지생장과정존재착일정적차이,동시최대방전량상위분포화평균방전량상위분포적3계구수착전수지적생장발전이감소,가작위진단전수지생장발전계단적삼고량。
The bottleneck affecting the long-term operation safety of cross-linked polyethylene (XLPE) power cables is electrical treeing, and it is necessary to study on the insulated aging mechanism of XLPE power cables, especially on the law of treeing, to provide theory support for the manufacture, operation management and on-line diagnosis. XLPE power cable sample and electrode test system was designed and built to simulate electrical treeing in actual XLPE cables. Results show that the testing system can meet research requirements on electrical treeing. Electrical treeing tests on samples of 15 kV XLPE power cables were carried out at power frequency of voltages from 12-21 kV and temperature from 50-90 ~C, and the influence of voltage and temperature on morphology of electrical trees was analyzed, In addition, partial discharge (PD) patterns of electrical trees during tree growth were also studied. It has been found that propagation process of electrical trees can be divided into four stages. The maximal discharging-phase distributions, average discharging-phase distributions and statistical parameters derived from PD distributions were presented. The results show that in actual XLPE power cable, the effect of voltage is similar to needle-plate electrode system on morphology of electrical trees, however, there are some differences in propagation process of electrical trees, and the skewness of the maximal and mean discharging-phase distributions decreases with the propagation of electrical trees, which may potentially be considered as a parameter to diagnose electrical tree propagation stages.
