This paper raises an evolutionary algorithm in solving problems of optimal capacitor placement on radial distribution systems.
提出了一种可解决辐射状配电网电容器最优配置问题的遗传算法。
In chapter two, the theory and superiority of reactive power compensation is analyzed and a practical mathematic model of optimal capacitor placement is set up.
第二章分析了无功补偿的原理及优势,并建立了较符合实际的配电网并联电容器优化配置模型。
At present, there are many methods which are used for the optimal capacitor placement, such as Classical Optimization Algorithm, Artificial Intelligence and Hybrid Algorithm.
目前有多种配网无功规划优化方法,可分为传统优化算法、智能优化算法和混合法。
The desirable scheme of capacitor placement in distribution systems aims at achieving voltage regulation and power loss reduction, while preventing harmonic resonance or magnification.
配电网合理的电容器配置不仅可以有效改善电网的电压水平,降低系统的有功网损,而且能够避免谐波谐振或电流放大。
Distribution network reconfiguration and capacitor optimal placement are the two main methods to optimize the distribution network.
配电网络重构和电容器优化配置是进行配电网络优化的两大重要手段。
Capacitor optimal placement and switching plays an important role in distribution network optimization.
电容器优化配置和投切是配电网络优化的一项重要内容。
Capacitor optimal placement and switching plays an important role in distribution network optimization.
电容器优化配置和投切是配电网络优化的一项重要内容。
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