电力系统保护与控制
電力繫統保護與控製
전력계통보호여공제
POWER SYSTM PROTECTION AND CONTROL
2013年
18期
83-88
,共6页
王舒琴%黄永伟%汪晶%王霞%潘剑柔%鞠平
王舒琴%黃永偉%汪晶%王霞%潘劍柔%鞠平
왕서금%황영위%왕정%왕하%반검유%국평
电气距离%可调节点%模型拼接%灵敏度校正法%潮流调整
電氣距離%可調節點%模型拼接%靈敏度校正法%潮流調整
전기거리%가조절점%모형병접%령민도교정법%조류조정
electrical distance%adjusted nodes%integration of models%sensitivity correction%flow adjusting
在地区电网模型拼接过程中,由于边界联络线处的电量和内网并不匹配,各分块模型不能直接拼接。针对该问题,采用基于节点间电气距离的灵敏度校正方法进行边界潮流调整。该方法以有功潮流方程中有功功率相对电压相角变化率的倒数来度量节点间的电气距离,选取与边界节点电气距离较小的节点作为可调节节点,利用灵敏度校正方法交替进行迭代,可使偏差逐渐减小到要求的精度内。该方法仅选取部分对边界节点影响较大的节点作为可调节节点,并不会增加迭代计算的次数,还能够减小工作量。应用IEEE39节点系统验证了该算法的有效性。
在地區電網模型拼接過程中,由于邊界聯絡線處的電量和內網併不匹配,各分塊模型不能直接拼接。針對該問題,採用基于節點間電氣距離的靈敏度校正方法進行邊界潮流調整。該方法以有功潮流方程中有功功率相對電壓相角變化率的倒數來度量節點間的電氣距離,選取與邊界節點電氣距離較小的節點作為可調節節點,利用靈敏度校正方法交替進行迭代,可使偏差逐漸減小到要求的精度內。該方法僅選取部分對邊界節點影響較大的節點作為可調節節點,併不會增加迭代計算的次數,還能夠減小工作量。應用IEEE39節點繫統驗證瞭該算法的有效性。
재지구전망모형병접과정중,유우변계련락선처적전량화내망병불필배,각분괴모형불능직접병접。침대해문제,채용기우절점간전기거리적령민도교정방법진행변계조류조정。해방법이유공조류방정중유공공솔상대전압상각변화솔적도수래도량절점간적전기거리,선취여변계절점전기거리교소적절점작위가조절절점,이용령민도교정방법교체진행질대,가사편차축점감소도요구적정도내。해방법부선취부분대변계절점영향교대적절점작위가조절절점,병불회증가질대계산적차수,환능구감소공작량。응용IEEE39절점계통험증료해산법적유효성。
In integrating process of area models, the sub-block models can not be directly integrated because the electricity variable at the border and internal network do not match. Therefore, the method of sensitivity flow adjusting based on electrical distance is proposed. In this method, the distance among the nodes is measured by the derivative of the active power change rate along with the voltage phase change. Selecting the nodes with the smaller electrical distance from the boundary nodes as the adjusted nodes, then alternating iteration using the sensitivity correction can reduce the bias to within the required accuracy gradually. It only selects part of the nodes having a greater influence on the border as adjusted nodes, which does not increase the times of computation, but also can reduce the workload. The application based on IEEE 39 bus system verifies the effectiveness of the algorithm.