高电压技术
高電壓技術
고전압기술
HIGH VOLTAGE ENGINEERING
2012年
4期
999-1005
,共7页
舒胜文%阮江军%黄道春%陈轩恕%吴高波%李辉
舒勝文%阮江軍%黃道春%陳軒恕%吳高波%李輝
서성문%원강군%황도춘%진헌서%오고파%리휘
3断口真空断路器(VCB)%重燃%均压电容%阻尼电阻%金属氧化物避雷器(MOA)%动态均压措施
3斷口真空斷路器(VCB)%重燃%均壓電容%阻尼電阻%金屬氧化物避雷器(MOA)%動態均壓措施
3단구진공단로기(VCB)%중연%균압전용%조니전조%금속양화물피뢰기(MOA)%동태균압조시
vacuum circuit breaker(VCB) with triple breaks%re-ignition%grading capacitor%damped resistor%metal oxide arrester(MOA)%dynamic voltage-sharing measures
为分析126kV 3断口真空断路器(VCB)的重燃特性,建立了包含重燃判据的126kV 3断口真空断路器的暂态等值模型。仿真得到了承担瞬态恢复电压(TRV)较高的1个断口发生重燃时的电流波形,为实现重燃电流尽早过零熄灭,在均压电容支路串联一阻尼电阻,结果表明:阻尼电阻取为振荡与非振荡衰减临界值时效果最佳;仿真分析了有无均压电容时,非重燃和重燃断口分别出现的过高TRV和工频恢复电压(PFRV),为保证断路器可靠开断及保护重燃断口外绝缘,在各断口并联金属氧化物避雷器(MOA)来限制过电压,结果表明:在1000pF均压电容上并联参考电压约为50kV的MOA时限压效果较好,且能满足热稳定要求。研究成果可为126kV 3断口真空断路器合理选取动态均压措施提供一定的依据。
為分析126kV 3斷口真空斷路器(VCB)的重燃特性,建立瞭包含重燃判據的126kV 3斷口真空斷路器的暫態等值模型。倣真得到瞭承擔瞬態恢複電壓(TRV)較高的1箇斷口髮生重燃時的電流波形,為實現重燃電流儘早過零熄滅,在均壓電容支路串聯一阻尼電阻,結果錶明:阻尼電阻取為振盪與非振盪衰減臨界值時效果最佳;倣真分析瞭有無均壓電容時,非重燃和重燃斷口分彆齣現的過高TRV和工頻恢複電壓(PFRV),為保證斷路器可靠開斷及保護重燃斷口外絕緣,在各斷口併聯金屬氧化物避雷器(MOA)來限製過電壓,結果錶明:在1000pF均壓電容上併聯參攷電壓約為50kV的MOA時限壓效果較好,且能滿足熱穩定要求。研究成果可為126kV 3斷口真空斷路器閤理選取動態均壓措施提供一定的依據。
위분석126kV 3단구진공단로기(VCB)적중연특성,건립료포함중연판거적126kV 3단구진공단로기적잠태등치모형。방진득도료승담순태회복전압(TRV)교고적1개단구발생중연시적전류파형,위실현중연전류진조과령식멸,재균압전용지로천련일조니전조,결과표명:조니전조취위진탕여비진탕쇠감림계치시효과최가;방진분석료유무균압전용시,비중연화중연단구분별출현적과고TRV화공빈회복전압(PFRV),위보증단로기가고개단급보호중연단구외절연,재각단구병련금속양화물피뢰기(MOA)래한제과전압,결과표명:재1000pF균압전용상병련삼고전압약위50kV적MOA시한압효과교호,차능만족열은정요구。연구성과가위126kV 3단구진공단로기합리선취동태균압조시제공일정적의거。
To analyze the re-ignition characteristics of a 126 kV vacuum circuit breaker(VCB) with triple breaks,we established a transient equivalent model of a 126 kV VCB with triple breaks,which contained a dielectric re-ignition criteria.Thereby,we simulated the re-ignition current waveform of the break which took higher part of transient recovery voltage(TRV).A damped resistor was added in the grading capacitor branch to extinguish re-ignition current as early as possible.The results show that,the effect of damped resistor is the best when its value is threshold between oscillatory and non-oscillatory decay.Moreover,we simulated and analyzed excessive TRV which appeared across unre-ignition breaks and power frequency recovery voltage(PFRV) which appeared across re-ignition break in the presence and absence of grading capacitors.A metal oxide arrester(MOA) was shunted across each break to ensure breaking successfully and to protect the external insulation of re-ignition break by limiting excessive TRV and PFRV,respectively.Results show that,the voltage limiting effect is preferable when a MOA with reference voltage of 50 kV is in parallel with a grading capacitor of 1 000 pF,also the thermal limit can be satisfied,providing a basis for choosing proper dynamic voltage-sharing measures for a 126 kV VCB with triple breaks.
