高电压技术
高電壓技術
고전압기술
HIGH VOLTAGE ENGINEERING
2012年
2期
350-358
,共9页
孙秋芹%李庆民%陈全%丛浩憙%李庆余
孫鞦芹%李慶民%陳全%叢浩憙%李慶餘
손추근%리경민%진전%총호희%리경여
特高压%半波长输电线路%潜供电弧%快速接地开关%模拟实验%谐波畸变率%风速
特高壓%半波長輸電線路%潛供電弧%快速接地開關%模擬實驗%諧波畸變率%風速
특고압%반파장수전선로%잠공전호%쾌속접지개관%모의실험%해파기변솔%풍속
ultra high voltage(UHV)%half-wave length transmission lines(HWTL)%secondary arc%high speed grounding switch%simulation test%total harmonic distortion%wind speed
潜供电弧是半波长输电技术面临的关键问题之一,因此针对特高压半波长输电线路潜供电弧进行了低压物理模拟实验研究。通过分析半波长线路潜供电流与恢复电压特性,进行回路等效变换,获得满足等价性的低压模拟实验回路拓扑,通过实验获得了不同潜供电流值、恢复电压梯度等组合方案下潜供电弧的燃弧时间,并与常规输电线路的情况进行对比。比较了短路电弧与潜供电弧的电流、电压特征,并通过高速摄像仪获得潜供电弧的运动轨迹,分析了风速等因素对短路电弧与潜供电弧运动的影响机制。研究表明:当潜供电流值〈150A,恢复电压梯度〈3.9kV/m时,潜供电弧将快速自灭;当潜供电流值〉240A,恢复电压梯度〉7.0kV/m时,潜供电弧将会长时间燃弧;风力是影响潜供电弧运动与燃弧的关键因素。研究结果可为解决半波长输电技术的潜供电弧问题提供参考依据,同时对常规线路潜供电弧以及长间隙电弧研究具有借鉴价值。
潛供電弧是半波長輸電技術麵臨的關鍵問題之一,因此針對特高壓半波長輸電線路潛供電弧進行瞭低壓物理模擬實驗研究。通過分析半波長線路潛供電流與恢複電壓特性,進行迴路等效變換,穫得滿足等價性的低壓模擬實驗迴路拓撲,通過實驗穫得瞭不同潛供電流值、恢複電壓梯度等組閤方案下潛供電弧的燃弧時間,併與常規輸電線路的情況進行對比。比較瞭短路電弧與潛供電弧的電流、電壓特徵,併通過高速攝像儀穫得潛供電弧的運動軌跡,分析瞭風速等因素對短路電弧與潛供電弧運動的影響機製。研究錶明:噹潛供電流值〈150A,恢複電壓梯度〈3.9kV/m時,潛供電弧將快速自滅;噹潛供電流值〉240A,恢複電壓梯度〉7.0kV/m時,潛供電弧將會長時間燃弧;風力是影響潛供電弧運動與燃弧的關鍵因素。研究結果可為解決半波長輸電技術的潛供電弧問題提供參攷依據,同時對常規線路潛供電弧以及長間隙電弧研究具有藉鑒價值。
잠공전호시반파장수전기술면림적관건문제지일,인차침대특고압반파장수전선로잠공전호진행료저압물리모의실험연구。통과분석반파장선로잠공전류여회복전압특성,진행회로등효변환,획득만족등개성적저압모의실험회로탁복,통과실험획득료불동잠공전류치、회복전압제도등조합방안하잠공전호적연호시간,병여상규수전선로적정황진행대비。비교료단로전호여잠공전호적전류、전압특정,병통과고속섭상의획득잠공전호적운동궤적,분석료풍속등인소대단로전호여잠공전호운동적영향궤제。연구표명:당잠공전류치〈150A,회복전압제도〈3.9kV/m시,잠공전호장쾌속자멸;당잠공전류치〉240A,회복전압제도〉7.0kV/m시,잠공전호장회장시간연호;풍력시영향잠공전호운동여연호적관건인소。연구결과가위해결반파장수전기술적잠공전호문제제공삼고의거,동시대상규선로잠공전호이급장간극전호연구구유차감개치。
Secondary arcs and its reliable suppression is one of the key technical challenges of half-wavelength transmission lines(HWTL).We tested and physically simulated the HWTL secondary arcs to study its extinction characteristics,and proposed an equivalent test topology via Thevenin transform based on the established equivalent circuitry.Moreover,we experimentally investigated different secondary arc currents as well as voltage gradients to obtain the physical dynamics of the arcs,compared the frequency spectra of the short arcs and the secondary arcs through the Fourier transform,and captured the developing images of the arcs with a high-speed imaging system.Also,we investigated the impacts of wind on the arcing behaviors.The obtained results show that,the secondary arc will extinguish immediately when the secondary arc current is below 150 A and the recovery voltage gradient is less than 3.9 kV per meter.However,the arcing time will be more than one second when the secondary arc current and the recovery voltage gradient are more than 240 A and 7.0 kV per meter respectively.It is also shown that wind is the critical factor influencing the secondary arc motion and the arcing time.
