The mathematical model of optimal reactive power planning on rural power distribution network has been established in this paper.
本文建立了农村配电网无功补偿优化规划的模型。
A neighbourhood topology based particle swarm algorithm (NTPSO) is proposed for optimal reactive power dispatch and voltage control of power system.
提出了一种基于邻域拓扑粒子群优化算法(NTPSO)的大规模电力系统无功优化新算法。
Essentially, optimal reactive power dispatch is the multi-restraint overall optimization problem with plentiful local minima and discrete variables.
从本质上讲,无功优化调度问题是具有大量的局部极小值的多约束全局优化问题,且含有大量的离散变量。
In the aspect of guaranteeing safety and economy of modern power system, the importance of optimal reactive power dispatch has received extensive attention.
在保证现代电力系统安全性和经济性方面,无功优化调度的重要性已经得到了广泛的关注。
The method of optimal reactive power compensation is analysed, a applicable approach of optimal reactive power compensation is presented in the regional power network.
通过对无功补偿优化配置方法的分析,提出了适合地区电网无功补偿优化配置的方法。
In this paper the pricing scheme of reactive power is studied based on the model of optimal consolidated compensation reactive power market.
本文建立了统一优化补偿型无功电力市场模式,对电力市场下的无功功率服务定价问题进行了研究。
The actualization of optimal power flow control of solar cell power system and the compensation of reactive power, harmonic distortion are discussed.
文中还讨论了太阳电池发电系统最佳功率流控制的实现方法以及补偿无功功率和谐波失真等问题。
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。
The reactive power optimal planning of power system is a complicated nonlinear mixed planning problem with multi-objectives.
电力系统无功优化规划是一个较复杂、多目标、非线性的混合规划。
The optimal detection performance is achieved when the appropriate RPC (reactive power compensation) strategy is used, which is in accord with the characteristics of the loads.
根据负载特性的不同,合适的无功补偿方式可以获得最佳的检测效果。
For realizing optimal control of reactive power and voltage for power systems, it is necessary to equip suitable amounts of compensating capacitors.
为了实现电网无功、电压最优控制,要求电网中装设适当数量的补偿电容。
This proposed modeling idea can also be applied to dynamic reactive optimization, optimal power flow and state estimation for a faster calculation.
这种建立模型的思想还可以应用到需要计算海森矩阵的动态无功优化、最优潮流以及状态估计等问题的算法中,以提高其计算速度。
The optimal control with the voltage as its objective is designed to rapidly respond to the reactive power need of power network for voltage support.
结合现场实际运行情况,设计了以电压为控制目标的最优控制方法,装置快速响应电力系统无功需求,提供电压支撑。
The optimal control with the voltage as its objective is designed to rapidly respond to the reactive power need of power network for voltage support.
结合现场实际运行情况,设计了以电压为控制目标的最优控制方法,装置快速响应电力系统无功需求,提供电压支撑。
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