高电压技术
高電壓技術
고전압기술
HIGH VOLTAGE ENGINEERING
2012年
3期
527-534
,共8页
唐炬%任晓龙%谭志红%裘吟君%孙才新
唐炬%任曉龍%譚誌紅%裘吟君%孫纔新
당거%임효룡%담지홍%구음군%손재신
SF6%针-板缺陷%放电量%分解组分%关联特性%气相色谱法
SF6%針-闆缺陷%放電量%分解組分%關聯特性%氣相色譜法
SF6%침-판결함%방전량%분해조분%관련특성%기상색보법
SF6%needle-plate defect%charge quantity%decomposition component%correlation character%gas chromatography
为了定量判断气体绝缘组合开关电器(GIS)内金属突出物缺陷所产生局部放电(PD)的严重程度,在自建的SF6放电分解实验平台上,用针-板缺陷模型产生PD使SF6发生放电分解形成特征组分,分别在不同电压等级下进行96h实验,采用气相色谱法对分解组分进行定量测定,同时用50Ω无感电阻检测PD量大小,深入研究了PD量与SF6气体分解组分之间的关联特性,结果表明,针-板缺陷PD下SF6分解可产生CF4、CO2、SO2F2、SOF2等组分,SO2F2和SOF2的体积分数及产气速率与每秒平均放电量Qsec关联性良好,SO2F2和SOF2的体积分数及产气均方速率随Qsec增大而增加,而(SOF2+SO2F2)与(CO2+CF4)的体积分数比值随Qsec近似呈线性增长,CF4与CO2以及SOF2与SO2F2的体积分数比值可作为较大Qsec的辅助判据,因此,可以通过SF6气体组分定量分析来判断GIS设备内部PD的程度。
為瞭定量判斷氣體絕緣組閤開關電器(GIS)內金屬突齣物缺陷所產生跼部放電(PD)的嚴重程度,在自建的SF6放電分解實驗平檯上,用針-闆缺陷模型產生PD使SF6髮生放電分解形成特徵組分,分彆在不同電壓等級下進行96h實驗,採用氣相色譜法對分解組分進行定量測定,同時用50Ω無感電阻檢測PD量大小,深入研究瞭PD量與SF6氣體分解組分之間的關聯特性,結果錶明,針-闆缺陷PD下SF6分解可產生CF4、CO2、SO2F2、SOF2等組分,SO2F2和SOF2的體積分數及產氣速率與每秒平均放電量Qsec關聯性良好,SO2F2和SOF2的體積分數及產氣均方速率隨Qsec增大而增加,而(SOF2+SO2F2)與(CO2+CF4)的體積分數比值隨Qsec近似呈線性增長,CF4與CO2以及SOF2與SO2F2的體積分數比值可作為較大Qsec的輔助判據,因此,可以通過SF6氣體組分定量分析來判斷GIS設備內部PD的程度。
위료정량판단기체절연조합개관전기(GIS)내금속돌출물결함소산생국부방전(PD)적엄중정도,재자건적SF6방전분해실험평태상,용침-판결함모형산생PD사SF6발생방전분해형성특정조분,분별재불동전압등급하진행96h실험,채용기상색보법대분해조분진행정량측정,동시용50Ω무감전조검측PD량대소,심입연구료PD량여SF6기체분해조분지간적관련특성,결과표명,침-판결함PD하SF6분해가산생CF4、CO2、SO2F2、SOF2등조분,SO2F2화SOF2적체적분수급산기속솔여매초평균방전량Qsec관련성량호,SO2F2화SOF2적체적분수급산기균방속솔수Qsec증대이증가,이(SOF2+SO2F2)여(CO2+CF4)적체적분수비치수Qsec근사정선성증장,CF4여CO2이급SOF2여SO2F2적체적분수비치가작위교대Qsec적보조판거,인차,가이통과SF6기체조분정량분석래판단GIS설비내부PD적정도。
In order to quantitatively estimate PD severity caused by metal protrusion defect in GIS,SF6 was decomposed by PD in needle-plate defect model to form characteristics components,and the experiment had been carried out for 96 h under different voltage levels.The decomposed components were detected by gas chromatography,and charge quantity was detected by 50 Ω resistance.The results show that the components such as CF4,CO2,SO2F2,and SOF2 are produced,the volume and production speed of SO2F2 and SOF2 correlate well with mean charge quantity per second(Qsec);within the same interval,the volume and production speed of SO2F2 and SOF2 increase with charge quantity.The ratio of(SOF2+ SO2F2)/(CO2+CF4) increases proximately linearly with charge quantity,while CF4/CO2 and SOF2/ SO2F2 can be used to be the auxiliary parameters to determine larger Qsec.Therefore it is suitable that SF6 decomposition components can be used to quantitatively determine the PD severity in GIS.