摘要
为了提高主动配电网(Active Distribution Network,ADN)重构后的稳定性和经济性,建立了以ADN系统电压偏移量最小和网损最小的ADN优化重构模型。利用混沌映射初始化和莱维飞行两种策略对海鸥算法进行改进,得到了运算速度更快和计算精度更高的改进海鸥算法(Improved Seagull Optimization Algorithm,ISOA)。采用ISOA算法ADN优化重构模型进行求解,并将重构结果与海鸥算法和粒子群算法进行对比,结果表明,利用ISOA算法重构后的电压偏移量和系统网损分别为0.224 8 p.u.和69.82 kW,相比海鸥算法和粒子群算法,ISOA算法重构后主动配电网的稳定性和经济性更好。
In order to improve the stability and economy of Active Distribution Network(ADN) after reconfiguration,an optimal reconfiguration model of ADN with minimum voltage offset and Network loss is established.The Improved Seagull Optimization Algorithm(ISOA) was developed by using chaotic map initialization and Levis flight.The ISOA algorithm ADN was used to optimize the reconstruction model,and the reconstruction results were compared with the seagull algorithm and particle swarm optimization algorithm,the voltage offset and system loss after reconstruction using ISOA algorithm are 0.2248p.Shh.Compared with the seagull algorithm and the particle swarm optimization algorithm,the ISOA algorithm is more stable and economical after reconstruction.
作者
彭震东
江娜
PENG Zhendong;JIANG Na
出处
《青海电力》
2024年第3期13-18,共6页
Qinghai Electric Power
关键词
主动配电网
重构
改进海鸥算法
电压偏移量
网损
active distribution network
reconfiguration
improved seagull algorithm
voltage offset
network loss
