电力系统保护与控制
電力繫統保護與控製
전력계통보호여공제
POWER SYSTM PROTECTION AND CONTROL
2014年
7期
80-85
,共6页
李艳卿%李华强%李迁%黄昭蒙
李豔卿%李華彊%李遷%黃昭矇
리염경%리화강%리천%황소몽
电力系统抗毁性%静态能量函数%支路综合脆弱性%网络抗毁度
電力繫統抗燬性%靜態能量函數%支路綜閤脆弱性%網絡抗燬度
전력계통항훼성%정태능량함수%지로종합취약성%망락항훼도
power system invulnerability%static energy function%branch comprehensive vulnerability%network invulnerability
大停电事故一般由个别元件故障开始并最终导致全系统崩溃,而其中极少数带有较重传输任务的支路往往起到助推作用,因此寻找这些关键支路,分析该部分支路失效情况下的电力系统的抗毁性,具有重要的研究价值。建立支路静态能量函数模型,并在此基础上提出支路状态脆弱因子。结合基于电气介数的结构脆弱因子,提出支路综合脆弱性评估指标。通过仿真计算,评估电网的支路综合脆弱性,确定脆弱环节。基于脆弱性评估结果建立抗毁性评估指标,通过蓄意攻击和随机攻击,仿真验证不同扰动模式对电网抗毁性的影响。通过对IEEE-30母线系统的仿真,验证了该方法的合理性与有效性。
大停電事故一般由箇彆元件故障開始併最終導緻全繫統崩潰,而其中極少數帶有較重傳輸任務的支路往往起到助推作用,因此尋找這些關鍵支路,分析該部分支路失效情況下的電力繫統的抗燬性,具有重要的研究價值。建立支路靜態能量函數模型,併在此基礎上提齣支路狀態脆弱因子。結閤基于電氣介數的結構脆弱因子,提齣支路綜閤脆弱性評估指標。通過倣真計算,評估電網的支路綜閤脆弱性,確定脆弱環節。基于脆弱性評估結果建立抗燬性評估指標,通過蓄意攻擊和隨機攻擊,倣真驗證不同擾動模式對電網抗燬性的影響。通過對IEEE-30母線繫統的倣真,驗證瞭該方法的閤理性與有效性。
대정전사고일반유개별원건고장개시병최종도치전계통붕궤,이기중겁소수대유교중전수임무적지로왕왕기도조추작용,인차심조저사관건지로,분석해부분지로실효정황하적전력계통적항훼성,구유중요적연구개치。건립지로정태능량함수모형,병재차기출상제출지로상태취약인자。결합기우전기개수적결구취약인자,제출지로종합취약성평고지표。통과방진계산,평고전망적지로종합취약성,학정취약배절。기우취약성평고결과건립항훼성평고지표,통과축의공격화수궤공격,방진험증불동우동모식대전망항훼성적영향。통과대IEEE-30모선계통적방진,험증료해방법적합이성여유효성。
The blackouts usually start from individual components failure which eventually leads to system crash, and a very few branches with heavy load play a promoting role in the tendency, therefore, it is very important to find these key branches, and analyze the system invulnerability under the conditions of branch failures. This paper builds the branch static energy function model and then proposes the branch state vulnerability factor. Combining with the structure vulnerability factor based on electric betweenness, the branch comprehensive vulnerability index is put forward. Through simulating calculation, the branch comprehensive vulnerability is evaluated to confirm the fragile link of power system. On this basis, the invulnerability index is determined. Through intentional attack and random attack, the influence of different disturbance on the network invulnerability is simulated. The simulation on the IEEE-30 bus system verifies the rationality and effectiveness of this method.
