摘要
配电网中合理采用高低压多种无功补偿方式能达到更佳的节能降损效益。为此,基于对配电网无功补偿工程因素的分析,提出了一种配电线路10/0.4kV综合无功优化配置数学模型,以计及设备投资和降损收益的年总支出费用最小为目标,以各种无功补偿组数和容量为控制变量,并满足各种运行约束和安装维护约束。采用分组整数编码的灾变遗传算法进行求解。算例表明了该模型的优越性和算法的有效性。
It can achieve better effect in power energy saving of distribution networks by rationally using several low and high voltage reactive compensations. A mathematical model integrating 10/0.4 kV reactive power compensation is presented in this paper for comprehensive optimal configuration in distribution feeders based on the analysis of engineering factors of reactive power compensation, whose objective is to minimize the annual expenditure involving the devices investment and the income of energy saving, and satisfy all sorts of operation, fixing and maintenance constrains. The control variables include the capacitor banks' number and capacity of various compensation schemes. Cataclysmic genetic algorithm with grouped integer encoding is adopted to solve this problem. The results applied in a real distribution feeder show that the proposed model is preponderant and the algorithm is valid.
出处
《电力系统及其自动化学报》
CSCD
北大核心
2009年第3期41-45,共5页
Proceedings of the CSU-EPSA
基金
广东省自然科学基金项目(06025630)
关键词
配电网
无功优化
高低压
遗传算法
distribution networks
reactive power optimization
low and high voltage
genetic algorithm
