电测与仪表
電測與儀錶
전측여의표
ELECTRICAL MEASUREMENT & INSTRUMENTATION
2014年
22期
115-118
,共4页
张雷%胡飞%王珊丹%常忠
張雷%鬍飛%王珊丹%常忠
장뢰%호비%왕산단%상충
SVC%TSC型晶闸管阀%局部放电%空气间隙%悬浮电位
SVC%TSC型晶閘管閥%跼部放電%空氣間隙%懸浮電位
SVC%TSC형정갑관벌%국부방전%공기간극%현부전위
Static Var Compensator%thyristor valve%partial discharge%air clearance%floating potential
晶闸管阀作为SVC装置中的核心部件,根据相关IEC标准和电力行业标准规定,在出厂前必须进行一系列的高压绝缘试验,来验证其耐受电压能力和局部放电的起止电压是否满足要求。由于35 kV电压等级的晶闸管阀工作电压等级高,结构形式和绝缘材料的多样性,导致晶闸管阀在规定试验电压下局放值超过规定允许值的问题时常发生。如果局部放电问题未能得到有效处理,对产品的运行使用将带来严重的绝缘隐患。针对上述情况,通过研究新型35 kV SVC用TSC型晶闸管阀在高压试验中遇到的典型局部放电问题,提出了相应的分析方法和解决方案:通过试验判断局部放电超标部位,理论分析局放起因主要由于电气结构不合理,导致空气间隙小或存在悬浮电位。通过改进电气结构和等电位处理,局部放电值满足试验要求。介绍的方法快速有效,对大功率电力电子器件应用的相关试验有一定的借鉴作用。
晶閘管閥作為SVC裝置中的覈心部件,根據相關IEC標準和電力行業標準規定,在齣廠前必鬚進行一繫列的高壓絕緣試驗,來驗證其耐受電壓能力和跼部放電的起止電壓是否滿足要求。由于35 kV電壓等級的晶閘管閥工作電壓等級高,結構形式和絕緣材料的多樣性,導緻晶閘管閥在規定試驗電壓下跼放值超過規定允許值的問題時常髮生。如果跼部放電問題未能得到有效處理,對產品的運行使用將帶來嚴重的絕緣隱患。針對上述情況,通過研究新型35 kV SVC用TSC型晶閘管閥在高壓試驗中遇到的典型跼部放電問題,提齣瞭相應的分析方法和解決方案:通過試驗判斷跼部放電超標部位,理論分析跼放起因主要由于電氣結構不閤理,導緻空氣間隙小或存在懸浮電位。通過改進電氣結構和等電位處理,跼部放電值滿足試驗要求。介紹的方法快速有效,對大功率電力電子器件應用的相關試驗有一定的藉鑒作用。
정갑관벌작위SVC장치중적핵심부건,근거상관IEC표준화전역행업표준규정,재출엄전필수진행일계렬적고압절연시험,래험증기내수전압능력화국부방전적기지전압시부만족요구。유우35 kV전압등급적정갑관벌공작전압등급고,결구형식화절연재료적다양성,도치정갑관벌재규정시험전압하국방치초과규정윤허치적문제시상발생。여과국부방전문제미능득도유효처리,대산품적운행사용장대래엄중적절연은환。침대상술정황,통과연구신형35 kV SVC용TSC형정갑관벌재고압시험중우도적전형국부방전문제,제출료상응적분석방법화해결방안:통과시험판단국부방전초표부위,이론분석국방기인주요유우전기결구불합리,도치공기간극소혹존재현부전위。통과개진전기결구화등전위처리,국부방전치만족시험요구。개소적방법쾌속유효,대대공솔전력전자기건응용적상관시험유일정적차감작용。
The thyristor valve is used As the core component of Static Var Compensator( SVC ),the thyristor valve should be carried through a series of insulation tests to verify if the withstand voltage and partial discharge start voltage will meet the requirements according to the relevant IEC standards and the standards of the power industry regulation and the need of the project. Because of the high voltage grade of 35kV thyristor valve,the various structures and insu-lating materials will cause the problem always happen that the partial discharge of thyristor valve in regular test voltage exceeds the permitted value. If the partial discharge problems are not handled effectively,the product operation will bring severe hidden trouble of insulation. In view of the above situation,the typical partial discharge problems in high voltage test with a new TSC thyristor valve with 35 kV SVC device are studied in this paper. The corresponding analysis method and solution strategy are proposed,which indicate that the unreasonable electrical structure is the main reason for partial discharge by judging the exceed part through experiments,and it will also cause the small air gap or the ex-istence of the floating potential. With the electrical structure improvement and the equipotential treatment,the partial discharge values satisfy the test requirements. The proposed method is fast and effective,and relevant test on the appli-cation of power electronic devices is of certain reference function.