电网技术
電網技術
전망기술
POWER SYSTEM TECHNOLOGY
2012年
2期
43-47
,共5页
师伟%孙秋芹%李庆民%王冠%吕鑫昌%李庆余
師偉%孫鞦芹%李慶民%王冠%呂鑫昌%李慶餘
사위%손추근%리경민%왕관%려흠창%리경여
半波长%单相接地故障%故障暂态过电压%人工调谐网络%金属氧化物避雷器
半波長%單相接地故障%故障暫態過電壓%人工調諧網絡%金屬氧化物避雷器
반파장%단상접지고장%고장잠태과전압%인공조해망락%금속양화물피뢰기
half-wavelength%single phase-to-ground fault%fault-caused transient overvoltages%artificial tuning network%metal oxide arrester(MOA)
阐述了半波长输电线路故障暂态过程的沿线电压分布特性,构建了典型特高压半波长输电线路的仿真模型,采用电磁暂态计算程序对线路单相接地故障、自动重合闸过程的过电压进行了分析,研究了线路传输功率、人工调谐网络、线路长度等因素对线路故障暂态过电压的影响。分析了沿线装设多组避雷器对半波长输电线路故障暂态过电压的抑制效果,研究了避雷器的安装位置与安装数量对故障暂态过电压水平的影响。仿真结果表明,沿线装设5组避雷器时,半波长输电线路故障暂态过电压水平可限制在1.60pu以下,但对避雷器的通流容量要求较高。研究结果为发展半波长交流输电技术提供了参考依据。
闡述瞭半波長輸電線路故障暫態過程的沿線電壓分佈特性,構建瞭典型特高壓半波長輸電線路的倣真模型,採用電磁暫態計算程序對線路單相接地故障、自動重閤閘過程的過電壓進行瞭分析,研究瞭線路傳輸功率、人工調諧網絡、線路長度等因素對線路故障暫態過電壓的影響。分析瞭沿線裝設多組避雷器對半波長輸電線路故障暫態過電壓的抑製效果,研究瞭避雷器的安裝位置與安裝數量對故障暫態過電壓水平的影響。倣真結果錶明,沿線裝設5組避雷器時,半波長輸電線路故障暫態過電壓水平可限製在1.60pu以下,但對避雷器的通流容量要求較高。研究結果為髮展半波長交流輸電技術提供瞭參攷依據。
천술료반파장수전선로고장잠태과정적연선전압분포특성,구건료전형특고압반파장수전선로적방진모형,채용전자잠태계산정서대선로단상접지고장、자동중합갑과정적과전압진행료분석,연구료선로전수공솔、인공조해망락、선로장도등인소대선로고장잠태과전압적영향。분석료연선장설다조피뢰기대반파장수전선로고장잠태과전압적억제효과,연구료피뢰기적안장위치여안장수량대고장잠태과전압수평적영향。방진결과표명,연선장설5조피뢰기시,반파장수전선로고장잠태과전압수평가한제재1.60pu이하,단대피뢰기적통류용량요구교고。연구결과위발전반파장교류수전기술제공료삼고의거。
The distribution behavior of the temporary overvoltages caused by single-phase-to-ground fault along half-wavelength AC transmission line (HWACTL) is expounded and a simulation model for typical HWACTL is built. The overvotlages caused by single-phase-to-ground fault and autoreclsore process are analyzed by ATP-EMTP software, and the impacts of such factors as transmission capacity, artificial tuning and line length on transient overvoltage of tranmission line are researched. The effect of suppressing fault-caused transient overvotlage in HWACTL by installing multi-set of metal oxide an'ester (MOA) along HWACTL is analyzed and the influences of both installation positions and installation number of MOAs on fanlt-caused transient overvoltage level are researched. Simulation results show that when five sets of MOA are inistalled along the line, the fault-caused overvoltage of HWACTL can be restricted to lower than 1.6 pu, however the discharge capacity of MOA should be higher.
