湖南大学学报(自然科学版)
湖南大學學報(自然科學版)
호남대학학보(자연과학판)
JOURNAL OF HUNAN UNIVERSITY(NATURAL SCIENCES EDITION)
2014年
10期
71-76
,共6页
李帅虎%曹一家%刘光晔%李勇
李帥虎%曹一傢%劉光曄%李勇
리수호%조일가%류광엽%리용
特高压%高压配电网%稳定性分析%安全控制%控制措施
特高壓%高壓配電網%穩定性分析%安全控製%控製措施
특고압%고압배전망%은정성분석%안전공제%공제조시
ultra high voltage (UHV)%high voltage distribution network%stability analysis%security control%control measurements
采用EPRI-E'等值方法建立包含特高压和大中型城市高压配电网的多电压等级电网仿真模型,从特高压线路故障后退出、配电网内部线路和主要电源点 N-1故障的时域仿真分析,研究了特高压投运后高压配电网稳定受到的影响,并定义最短路径确定受影响程度较大的区域。仿真结果表明,特高压线路发生故障后双线跳开,最短路径为5左右的220 kV站点出线潮流变化较大,部分将过载或重载,可能诱发系统的连锁故障;配电网内部的故障如果是在特高压系统故障后发生,系统存在崩溃的风险。最后,针对特高压投运后系统的运行特征,提出了相应稳定控制的措施,确保电网安全稳定运行。
採用EPRI-E'等值方法建立包含特高壓和大中型城市高壓配電網的多電壓等級電網倣真模型,從特高壓線路故障後退齣、配電網內部線路和主要電源點 N-1故障的時域倣真分析,研究瞭特高壓投運後高壓配電網穩定受到的影響,併定義最短路徑確定受影響程度較大的區域。倣真結果錶明,特高壓線路髮生故障後雙線跳開,最短路徑為5左右的220 kV站點齣線潮流變化較大,部分將過載或重載,可能誘髮繫統的連鎖故障;配電網內部的故障如果是在特高壓繫統故障後髮生,繫統存在崩潰的風險。最後,針對特高壓投運後繫統的運行特徵,提齣瞭相應穩定控製的措施,確保電網安全穩定運行。
채용EPRI-E'등치방법건립포함특고압화대중형성시고압배전망적다전압등급전망방진모형,종특고압선로고장후퇴출、배전망내부선로화주요전원점 N-1고장적시역방진분석,연구료특고압투운후고압배전망은정수도적영향,병정의최단로경학정수영향정도교대적구역。방진결과표명,특고압선로발생고장후쌍선도개,최단로경위5좌우적220 kV참점출선조류변화교대,부분장과재혹중재,가능유발계통적련쇄고장;배전망내부적고장여과시재특고압계통고장후발생,계통존재붕궤적풍험。최후,침대특고압투운후계통적운행특정,제출료상응은정공제적조시,학보전망안전은정운행。
EPRI-E'equivalent law was adopted to model the simulation system which includes ultra-high voltage system and high voltage distribution network.The influence on the security and stability of receiv-ing-end grid with the operation of UHV was analyzed under three situations,including UHV fault,inter-nal line fault and the main power plant fault of the distribution network.And then,this paper defined the shortest path to determine the affected area.The research has shown that,if double lines of UHV system jump after line fault,the flow of the outlets of 220 kV site with 5 of the shortest path becomes larger,and some lines will even overload and cascading failure may be caused.The risk of system collapse increases if the internal line or the main plant fault and UHV fault occur simultaneously.Finally,according to the op-eration characteristics of UHV,this paper proposed the corresponding stability control measures to ensure the normal operation of the power grid.