电网技术
電網技術
전망기술
POWER SYSTEM TECHNOLOGY
2014年
5期
1373-1378
,共6页
谷裕%郝艳捧%张福增%薛艺为%闵剑峰%阳林%李立浧
穀裕%郝豔捧%張福增%薛藝為%閔劍峰%暘林%李立浧
곡유%학염봉%장복증%설예위%민검봉%양림%리립영
沿海地区%复合支柱绝缘子%等值盐密%等值灰密%直流污闪特性
沿海地區%複閤支柱絕緣子%等值鹽密%等值灰密%直流汙閃特性
연해지구%복합지주절연자%등치염밀%등치회밀%직류오섬특성
coastal areas%composite post insulators%ESDD%NSDD%DC pollution flashover performance
根据沿海地区绝缘子积污测量调研的结果,以不同盐灰比模拟沿海地区和内陆地区的复合支柱绝缘子积污特性,首先测量了两类试品在试验雾室内表面电阻随时间的变化趋势,然后在昆明特高压国家工程实验室进行直流人工污秽试验,试验过程中,用紫外放电仪对两类试品的局部放电现象进行观测,统计了紫外放电光子数,同时利用高速摄像机观察试品临闪电弧的发展情况。结果表明:灰密含量高的内陆地区试品表面电阻相对沿海地区试品低;在同盐密条件下,沿海地区试品的污闪电压高于内陆地区,且随着盐密的增加,两者差异越大;灰密大的内陆试品易产生局部电弧而出现干区,出现干区后,强吸水性使干区快速再次湿润,如此反复最后闪络,因此其污闪电压低;随着试验盐密的增加,不仅进一步降低试品表面电阻,还会使灰密高的内陆试品电弧桥接现象更明显,甚至出现电弧跨接现象,爬距利用率大幅降低,造成两者污闪电压值的差异更大。
根據沿海地區絕緣子積汙測量調研的結果,以不同鹽灰比模擬沿海地區和內陸地區的複閤支柱絕緣子積汙特性,首先測量瞭兩類試品在試驗霧室內錶麵電阻隨時間的變化趨勢,然後在昆明特高壓國傢工程實驗室進行直流人工汙穢試驗,試驗過程中,用紫外放電儀對兩類試品的跼部放電現象進行觀測,統計瞭紫外放電光子數,同時利用高速攝像機觀察試品臨閃電弧的髮展情況。結果錶明:灰密含量高的內陸地區試品錶麵電阻相對沿海地區試品低;在同鹽密條件下,沿海地區試品的汙閃電壓高于內陸地區,且隨著鹽密的增加,兩者差異越大;灰密大的內陸試品易產生跼部電弧而齣現榦區,齣現榦區後,彊吸水性使榦區快速再次濕潤,如此反複最後閃絡,因此其汙閃電壓低;隨著試驗鹽密的增加,不僅進一步降低試品錶麵電阻,還會使灰密高的內陸試品電弧橋接現象更明顯,甚至齣現電弧跨接現象,爬距利用率大幅降低,造成兩者汙閃電壓值的差異更大。
근거연해지구절연자적오측량조연적결과,이불동염회비모의연해지구화내륙지구적복합지주절연자적오특성,수선측량료량류시품재시험무실내표면전조수시간적변화추세,연후재곤명특고압국가공정실험실진행직류인공오예시험,시험과정중,용자외방전의대량류시품적국부방전현상진행관측,통계료자외방전광자수,동시이용고속섭상궤관찰시품림섬전호적발전정황。결과표명:회밀함량고적내륙지구시품표면전조상대연해지구시품저;재동염밀조건하,연해지구시품적오섬전압고우내륙지구,차수착염밀적증가,량자차이월대;회밀대적내륙시품역산생국부전호이출현간구,출현간구후,강흡수성사간구쾌속재차습윤,여차반복최후섬락,인차기오섬전압저;수착시험염밀적증가,불부진일보강저시품표면전조,환회사회밀고적내륙시품전호교접현상경명현,심지출현전호과접현상,파거이용솔대폭강저,조성량자오섬전압치적차이경대。
According to the survey results of natural pollution of insulators in coastal areas, different ratios of equivalent salt deposit density (ESDD) to non-soluble deposit density (NSDD) are used to represent the accumulated pollution characteristics of composite post insulators located in coastal areas and inland areas. Firstly, the changing tendency of the upside shed surface resistances of the two sorts of specimens were measured in the fog chamber; then the DC artificial pollution tests were performed in National Engineering Laboratory for Ultra High Voltage Engineering Technology (Kunming) and the pollution flashover voltage U50%was determined by the Up-and-Down method. During the tests the partial discharge of the two sorts of specimens was observed by ultra violet camera and the statistics of ultraviolet photons was carried out, meanwhile the high-speed camera Phantom 12.1 was used to observe the partial discharge and the development of partial arcs on the insulator surfaces of the two sorts of specimens, which were assumed to be located in coastal areas or inland areas. Test results show that the surface resistances of specimens in inland areas with higher NSDD is lower than that in coastal areas;under the same ESDD the U50%of composite post insulators in coastal areas is higher than that in inland areas, and with the increase of ESDD the difference of the U50% between them is greater; on the specimens with higher NSDD for inland areas the partial arc is easy to occur and it causes the dry-bands on the surfaces of insulators, when dry-band appears, its strong water absorbability makes the dry-band moist once again immediately, and the repeated reoccurrence of this phenomena makes the insulator surface flashover and the U50% is lower than that of composite post insulators in coastal areas; with the increase of test ESDD, not only the surface resistances of the specimens decrease further, but also the arcing-bridge of sheds on inland area specimens with higher NSDD becomes more obvious, it decreases the availability of creepage distance evidently and make the greater difference between the U50% of composite post insulators in the inland areas and that in the coastal areas.