绝缘材料
絕緣材料
절연재료
INSULATING MATERIALS
2015年
2期
72-76
,共5页
任双赞%蒲路%黄国强%琚泽立%赵学风%刘洋%刘晶%曹晓珑
任雙讚%蒲路%黃國彊%琚澤立%趙學風%劉洋%劉晶%曹曉瓏
임쌍찬%포로%황국강%거택립%조학풍%류양%류정%조효롱
电力电容器%PDIV%浸渍剂%极对壳%曲率半径%频带
電力電容器%PDIV%浸漬劑%極對殼%麯率半徑%頻帶
전력전용기%PDIV%침지제%겁대각%곡솔반경%빈대
power capacitor%PDIV%impregnant%pole-to-case%curvature radius%frequency band
按照IEC/TR 61294—1993、GB/T 17648—1998标准,设计了绝缘液体局部放电起始电压(PDIV)测试用电极系统,提出针电极选取的新方法,研制了适合于电容器的局放测试系统,对几种常用的电容器浸渍剂及电容器极对壳的局部放电进行测量。结果表明:绝缘液体PDIV测量的关键技术是针电极(针尖曲率半径)的选取,苄基甲苯的PDIV要高于烷基苯和烷基乙苯基乙烷的PDIV;电容器在直立时的极对壳局放绝缘特性明显优于平卧和侧卧两种结构形式,对设计电容阵列时具有一定的参考价值。
按照IEC/TR 61294—1993、GB/T 17648—1998標準,設計瞭絕緣液體跼部放電起始電壓(PDIV)測試用電極繫統,提齣針電極選取的新方法,研製瞭適閤于電容器的跼放測試繫統,對幾種常用的電容器浸漬劑及電容器極對殼的跼部放電進行測量。結果錶明:絕緣液體PDIV測量的關鍵技術是針電極(針尖麯率半徑)的選取,芐基甲苯的PDIV要高于烷基苯和烷基乙苯基乙烷的PDIV;電容器在直立時的極對殼跼放絕緣特性明顯優于平臥和側臥兩種結構形式,對設計電容陣列時具有一定的參攷價值。
안조IEC/TR 61294—1993、GB/T 17648—1998표준,설계료절연액체국부방전기시전압(PDIV)측시용전겁계통,제출침전겁선취적신방법,연제료괄합우전용기적국방측시계통,대궤충상용적전용기침지제급전용기겁대각적국부방전진행측량。결과표명:절연액체PDIV측량적관건기술시침전겁(침첨곡솔반경)적선취,변기갑분적PDIV요고우완기분화완기을분기을완적PDIV;전용기재직립시적겁대각국방절연특성명현우우평와화측와량충결구형식,대설계전용진렬시구유일정적삼고개치。
We designed an electrode system for testing partial discharge inception voltage(PDIV) of insulating liquid according to IEC/TR 61294—1993 and GB/T 17648—1998. A new method to select needle electrode was proposed, and a partial discharge test system for capacitor were prepared. The partial discharge of several common impregnants and pole-to-case for capacitor was tested. The results indicate that the selection of needle electrode(curvature radius of needle tip) is the key technology to PDIV test for insulating liquid, and the PDIV of benzyltoluene(M/DBT) is better than that of alkylbenzene (AB) and PEPE. The partial discharge characteristics of pole-to-case for capacitor in vertical station is superior to that in supine and lateral structure obviously, which provides reference to design capacitor array.