基于過載影響因子的N -2故障快速篩選和排序方法
李本瑜1����,游昊1��,任文鵬2����,秦昊2
(1 云南電力調度控制中心, 云南 昆明 650011����;2 武漢佳華創新電氣有限公司�,湖北 武漢 430074)
摘 要:為了保證大規?�;ヂ撾娋W的安全和穩定運行�,需要研究適用于繼電保護元件動作特性分析和評估的初始故障篩選和排序方法����。以N-2故障為分析目標�,提出了一種基于過載影響因子的快速故障篩選和排序方法��。根據所定義的過載影響因子��,將所有待分析故障分成兩類并行掃描然后求取并集�,再結合行為指標所表征的嚴重程度對所篩選處的故障進行排序����。算例結果表明��,所提方法能有效縮小N-2故障集規模��,不僅能節省較多計算量�,還可避免排序指標固有的片面性及不確定性�。
關鍵詞:連鎖故障�;故障篩選����;故障排序�;距離保護
中圖分類號:TM773 文獻標識碼:A 文章編號:1007-3175(2019)05-0001-06
Fast N-2 Contingency Screening and Ranking Method Based on Line Overload Impact Factor
LI Ben-yu1, YOU Hao1, REN Wen-peng2, QIN Hao2
(1 Yunnan Electric Power Dispatching and Controlling Center, Kunming 650011 , China;
2 Wuhan Jiahua Innovation Electric Co., Ltd, Wuhan 430074, China)
Abstract: In order to keep the secure and stable operation of large-scale interconnected network, the contingency screening and ranking method, which is necessary for analyzing and evaluating characteristics of relay devices, is in need. Taking the N-2 malfunction as an analysis target, this paper proposed a kind of fast contingency screening and ranking method based on line overload impact factor. According to the defined line overload impact factor, this paper divided the objective contingencies into two categories, got union set after scanning in parallel and ranked the contingency according to the severity indicated by the performance index. The case study results prove that the proposed method could effectively reduce the N-2 malfunction set scale. The computation cost is saved by the proposed method, while the innate defects of the factor-based methods are averted.
Key words: cascading failure; contingency screening; contingency ranking; distance protection
參考文獻
[1] 石立寶��,史中英�,姚良忠�,等. 現代電力系統連鎖性大停電事故機理研究綜述[J]. 電網技術�,2010����,34(3):48-54.
[2] 劉友波�,胡斌�,劉俊勇��,等. 電力系統連鎖故障分析理論與應用( 一)——相關理論方法與應用[J]. 電力系統保護與控制�,2013�,41(9):148-155.
[3] 柳煥章�,周澤昕�,王德林�,等. 具備應對過負荷能力的距離保護原理[J]. 電網技術��,2014��,38(11):2943-2947.
[4] 劉海濤��,孫元章��,程林����,等. 計及多狀態元件模型的系統狀態快速排序技術[J]. 電力系統自動化��,2008��,32(1):16-21.
[5] 賈燕冰�,嚴正. 基于改進快速排序法的發電系統可靠性評估[J]. 電網技術�,2010�,34(6):144-148.
[6] 焦昊����,文云峰��,郭創新�,等. 基于概率有序樹的預想故障集貪心篩選算法及其在可靠性評估中的應用[J]. 中國電機工程學報��,2016�,36(8):2068-2076.
[7] 丁堅勇�,朱天曈�,田世明����,等. 基于模糊理論的計及元件危險性因子的N-2故障快速篩選法[J]. 電網技術��,2017����,41(4):1212-1217.
[8] DAVIS C M, OVERBYE T J.Multiple element contingency screening[J].IEEE Transactions on Power Systems����,2011�,26(3):1294-1301.
[9] 趙晉泉��,江曉東�,張伯明. 一種用于電力系統靜態穩定性分析的故障篩選與排序方法[J]. 電網技術�,2005����,29(20):66-71.
[10] EPPSTEIN M J, HINES P D.A“random chemistry” algorithm for identifying collections of multiple contingencies that initiate cascading failure[J].IEEE Transactions on Power Systems����,2012����,27(3):1698-1705.
[11] DONDE V, LOPEZ V, LESIEUTRE B, et al.Severe multiple contingency screening in electric power systems[J].IEEE Transactions on Power Systems��,2008��,23(2):406-417.
[12] DAVIS C, OVERBYE T. Linear analysis of multiple outage interaction[C]//Hawaii International Conference on System Sciences. IEEE����,2009:1-8.
[13] EJEBE G C, WOLLENBERG B F. Automatic contingency selection[J]. IEEE Transactions on Power Apparatus & Systems��,1979����,98(1):97-109.
[14] KAPLUNOVICH P, TURITSYN K. Fast and reliable screening of N-2 contingencies[J]. IEEE Transactions on Power Systems��,2016����,31(6):4243-4252.
