高电压技术
高電壓技術
고전압기술
HIGH VOLTAGE ENGINEERING
2012年
4期
838-846
,共9页
贺子鸣%陈维江%陈秀娟%颜湘莲
賀子鳴%陳維江%陳秀娟%顏湘蓮
하자명%진유강%진수연%안상련
可控金属氧化物避雷器%操作过电压%动作特性%可控比%动作阈值%晶闸管导通时延
可控金屬氧化物避雷器%操作過電壓%動作特性%可控比%動作閾值%晶閘管導通時延
가공금속양화물피뢰기%조작과전압%동작특성%가공비%동작역치%정갑관도통시연
controllable metal oxide surge arrester%switching overvoltage%response properties%controllable rate%response voltage threshold%thyristor self-trigger delay
可控金属氧化物避雷器(简称可控避雷器)是一种可以深度降低特高压交流输电系统操作过电压的新型设备,现有的避雷器试验方法无法检验其在操作冲击下的动作特性。为此,分析了可控避雷器在操作冲击下的动作特性,设计了检验可控开关动作时延和可控开关动作前后避雷器残压这两个动作特性的试验方法,采用操作冲击电流和操作冲击电压分别进行了试验。通过在现有残压试验回路中并联调波电容实现了冲击电流试验方法。采用冲击电压发生器及其调节和测试回路实现了冲击电压试验方法。研制了一种110kV电压等级的可控避雷器模型,利用该模型开展了试验研究;结果表明,可控避雷器在操作冲击电压下能够可靠动作。与常规避雷器相比,在相同电流下,可控避雷器模型的残压降低幅度与设计可控比(25%)接近,所设计的可控避雷器模型具有预期的限压效果。验证了提出的可控避雷器动作特性试验方法的有效性。
可控金屬氧化物避雷器(簡稱可控避雷器)是一種可以深度降低特高壓交流輸電繫統操作過電壓的新型設備,現有的避雷器試驗方法無法檢驗其在操作遲擊下的動作特性。為此,分析瞭可控避雷器在操作遲擊下的動作特性,設計瞭檢驗可控開關動作時延和可控開關動作前後避雷器殘壓這兩箇動作特性的試驗方法,採用操作遲擊電流和操作遲擊電壓分彆進行瞭試驗。通過在現有殘壓試驗迴路中併聯調波電容實現瞭遲擊電流試驗方法。採用遲擊電壓髮生器及其調節和測試迴路實現瞭遲擊電壓試驗方法。研製瞭一種110kV電壓等級的可控避雷器模型,利用該模型開展瞭試驗研究;結果錶明,可控避雷器在操作遲擊電壓下能夠可靠動作。與常規避雷器相比,在相同電流下,可控避雷器模型的殘壓降低幅度與設計可控比(25%)接近,所設計的可控避雷器模型具有預期的限壓效果。驗證瞭提齣的可控避雷器動作特性試驗方法的有效性。
가공금속양화물피뢰기(간칭가공피뢰기)시일충가이심도강저특고압교류수전계통조작과전압적신형설비,현유적피뢰기시험방법무법검험기재조작충격하적동작특성。위차,분석료가공피뢰기재조작충격하적동작특성,설계료검험가공개관동작시연화가공개관동작전후피뢰기잔압저량개동작특성적시험방법,채용조작충격전류화조작충격전압분별진행료시험。통과재현유잔압시험회로중병련조파전용실현료충격전류시험방법。채용충격전압발생기급기조절화측시회로실현료충격전압시험방법。연제료일충110kV전압등급적가공피뢰기모형,이용해모형개전료시험연구;결과표명,가공피뢰기재조작충격전압하능구가고동작。여상규피뢰기상비,재상동전류하,가공피뢰기모형적잔압강저폭도여설계가공비(25%)접근,소설계적가공피뢰기모형구유예기적한압효과。험증료제출적가공피뢰기동작특성시험방법적유효성。
The controllable metal oxide surge arrester is a new electrical set-up which can deeply reduce switching overvoltage in UHV transmission system.The conventional arrester test method could not be used to validate the switching impulse response properties of the controllable metal oxide surge arrester.Consequently,we discussed the switching impulse response properties of the controllable metal oxide surge arrester,and put forward a new test method which switching impulse current test and switching impulse voltage test were carried out respectively fitting test requirements.Moreover,we verified the response delay of controllable switch and the residual voltage of controllable metal oxide surge arrester in the test.The parallel modulated wave capacitor was used in the existing residual voltage test circuit to implement the switching impulse current test method,the impulse voltage generator,regulator and measurement circuit were used to implement the switching impulse voltage test method,and a designed 110 kV controllable metal oxide surge arrester was used in the verification test.In the test,the controllable arrester could respond reliably under switching impulse voltage.By comparing with the conventional arrester,the decreased range of the residual voltage of controllable arrester was close to the designed controllable rate of 25% in the same current.Furthermore,the designed controllable arrester with expected limit effect was verified,and the availability of the approach was verified.