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出 处:《继电器》2004年第6期1-5,共5页Relay
摘 要:简述了无功电压综合控制的必要性及其设计思想和主要功能。根据电力系统实际运行情况及本系统自身特点,就PV节点给定电压,适应度函数的构造,交叉率、变异率的取值及禁忌搜索(TS)算法与遗传算法(GA)的结合等主要问题,详细介绍了GATS混合优化策略的具体实现形式,以实现逆调压要求,保证电压合格,避免早熟收敛,同时加速搜索进程。在IEEE118节点系统的计算中,混合优化算法与简单遗传算法相比,有效降低了计算时间,提高了优化效果,从而证明了GATS混合优化策略的实用性。In this paper, the necessity of reactive power and voltage integrated control is briefly formulated, and its design principles as well as the main functions are presented. Based on operational practice in power network and the characteristic of this system, the particular realization method of a hybrid GATS optimization strategy is proposed in the selection of PV node voltage, the construction of fitness function, the confirmation of crossover rate and mutation rate, the combination of TS and GA algorithm, etc so as to implement the counter-regulation of voltage, optimize the node voltage profile, avoid premature convergence and shorten the search time. Compared with simple genetic algorithm(SGA), the improved algorithm achieved satisfactory result in IEEE 118 node power system, the search time is shortened and optimization effect is better, which indicates the practicability of the hybrid GATS optimization strategy.
关 键 词:电网 电力系统 自动化系统 无功电压综合控制 GATS 混合优化策略
分 类 号:TM714[电气工程—电力系统及自动化]
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