《电力自动化设备》

引用本文:	应林志,刘天琪,王建全.基于改造粒子群游的超高压故障限流器全局优化配置算法[J].电力自动化设备,2018,(2):
	YING Linzhi,LIU Tianqi,WANG Jianquan.Global optimization algorithm for fault current limiter configuration based on rearranged particle swarm optimization[J].Electric Power Automation Equipment,2018,(2):

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基于改造粒子群游的超高压故障限流器全局优化配置算法
应林志¹, 刘天琪¹, 王建全²
1.四川大学电气信息学院，四川成都610065;2.浙江大学电气工程学院，浙江杭州310058

摘要:

考虑超高压故障限流器在大电网中的应用特点，以获取预设全局限流效果和确保配置最优经济性为目标，基于邻接转移阻抗灵敏度加权值，提出一种能够区分短路电流关键路径、反映限流经济代价、指示全局限流效果及均衡水平的适应函数，作为故障限流器优化配置问题的数学模型。将装设数量、单台阻抗及布点配置视为大规模混合整形优化问题，根据故障限流器应用特点对粒子群游的解编码、位移操作等方面进行改造，引入灵敏度排序降维、追加支路法简化中间计算量，形成了一种故障限流器配置问题的全局优化算法，并以不同规模算例测试验证了该算法的有效性。

关键词: 改造粒子群游超高压故障限流器邻接转移阻抗短路电流

DOI：10.16081/j.issn.1006-6047.2018.02.019

分类号:TM732

基金项目:国家高技术研究发展计划(863计划)资助项目(2014AA032705)

Global optimization algorithm for fault current limiter configuration based on rearranged particle swarm optimization

YING Linzhi¹, LIU Tianqi¹, WANG Jianquan²

1.School of Electrical Engineering and Information, Sichuan University, Chengdu 610065, China;2.College of Electrical Engineering, Zhejiang University, Hangzhou 310058, China

Abstract:

With the consideration of application characteristics of FCL(Fault Current Limiter) in power grid and in order to obtain global fault current limiting effect and the optimal economical efficiency, an index fitness function based on sensitivity weighted value of nearby transfer impedance is proposed as the mathematical model of FCL configuration optimization, which can distinguish critical fault current path and reflect the economic cost of current limiting, global current limiting effect and its proportionality. An global optimization algorithm is proposed. With the number of FCL, impedance of single FCL and installation spots taken as a large-scale mixed integer optimization problem, it improves the solution coding and displacement operation of particle swarm optimization. With application of sensitivity rank dimension reduction and additional branch method, it reduces the calculative quantity. Its effectiveness is verified by case tests in different scale.

Key words: rearranged particle swarm optimization ultra high-voltage fault current limiter nearby transfer impedance sensitivity short circuit currents

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