中国电机工程学报
中國電機工程學報
중국전궤공정학보
ZHONGGUO DIANJI GONGCHENG XUEBAO
2014年
10期
1592-1598
,共7页
童星%康重庆%陈启鑫%杨军峰%范瑞祥%郑蜀江%辛建波
童星%康重慶%陳啟鑫%楊軍峰%範瑞祥%鄭蜀江%辛建波
동성%강중경%진계흠%양군봉%범서상%정촉강%신건파
虚拟母线技术%静态安全校核%紧急线路集%关键断面%N-2
虛擬母線技術%靜態安全校覈%緊急線路集%關鍵斷麵%N-2
허의모선기술%정태안전교핵%긴급선로집%관건단면%N-2
virtual bus technique%steady-state security correction%emergency line set%critical transmission section%N-2
母线负荷预测将为静态安全校核提供重要的节点负荷数据。然而,在工程实际中,随着电网规模的不断扩大,其N-1/N-2校核场景出现了几何级数式的组合增长,也增加了每个校核场景计算的复杂度。虚拟母线是电网中存在一种紧密联系的连通局部网络,利用虚拟母线技术可以预先辨识起作用场景,在解决静态安全校核计算复杂度上具有显著的效果。为此,面向关键断面这一重要的电网安全特征,从电网中辨识出若干个虚拟母线,基于划分好的虚拟母线,筛选出相应的影响线路与波及线路,并构建紧急线路集;对此集合的线路实施静态安全校核。河北南网的算例结果表明,基于虚拟母线的静态安全校核算法可以在很大程度上提高静态安全校核的计算速度,适应工程实际需要。
母線負荷預測將為靜態安全校覈提供重要的節點負荷數據。然而,在工程實際中,隨著電網規模的不斷擴大,其N-1/N-2校覈場景齣現瞭幾何級數式的組閤增長,也增加瞭每箇校覈場景計算的複雜度。虛擬母線是電網中存在一種緊密聯繫的連通跼部網絡,利用虛擬母線技術可以預先辨識起作用場景,在解決靜態安全校覈計算複雜度上具有顯著的效果。為此,麵嚮關鍵斷麵這一重要的電網安全特徵,從電網中辨識齣若榦箇虛擬母線,基于劃分好的虛擬母線,篩選齣相應的影響線路與波及線路,併構建緊急線路集;對此集閤的線路實施靜態安全校覈。河北南網的算例結果錶明,基于虛擬母線的靜態安全校覈算法可以在很大程度上提高靜態安全校覈的計算速度,適應工程實際需要。
모선부하예측장위정태안전교핵제공중요적절점부하수거。연이,재공정실제중,수착전망규모적불단확대,기N-1/N-2교핵장경출현료궤하급수식적조합증장,야증가료매개교핵장경계산적복잡도。허의모선시전망중존재일충긴밀련계적련통국부망락,이용허의모선기술가이예선변식기작용장경,재해결정태안전교핵계산복잡도상구유현저적효과。위차,면향관건단면저일중요적전망안전특정,종전망중변식출약간개허의모선,기우화분호적허의모선,사선출상응적영향선로여파급선로,병구건긴급선로집;대차집합적선로실시정태안전교핵。하북남망적산례결과표명,기우허의모선적정태안전교핵산법가이재흔대정도상제고정태안전교핵적계산속도,괄응공정실제수요。
ABSTRACT:Bus load forecasting lays a good foundation for power system steady-state security correction. However, in engineering practice, with the development of power grid, the number of N-1/N-2 correction scenario increases in a geometric way, and the complexity of each correction scenario also increases. Virtual bus is one type of the closely connected local electric networks in the grid. Virtual bus technique can be used to identify active line constraints that significantly affect power system operation in advance, thus helpful to handle the above problems. This paper firstly identified several virtual buses towards the critical transmission sections/lines. On this basis, an emergency line set was constructed, which included the critical lines, corresponding influenced lines and influencing lines. Then, steady-state security correction was performed based on the emergency line set. Finally, case studies based on real data of Hebei Southern Power Grid testified the effectiveness of the proposed method.
