So reactive power and voltage control in modern power system is a very important problem that need to solve well.
所以,现代电力系统中的无功功率与电压控制是一个非常重要的问题,需要很好地解决。
SVC is used in power system for the purpose of reactive power support and voltage control. Wide area measurement system (WAMS) has been widely used in modern power systems.
SVC已经广泛应用于电力系统的无功支持和电压控制,广域测量系统在国内外也已有许多工程应用。
A scheme of implementing the intelligent regional voltage and reactive power control (VQC) system in the control center is presented to solve the limitations of VQC system in substations.
针对目前变电站电压无功控制系统存在的缺陷,提出了在调度端实现智能区域电压无功控制的系统设计。
This system consists of main station system, voltage reactive real-time control subsystem (VQC) and communication subsystem.
该系统由主站系统、变电站电压无功实时控制子系统(VQC)和通信子系统构成。
The text expatiate the content of power system reactive optimization and voltage control, laying stress on the study of reactive sources allocation and voltage control partition.
本文对电力系统无功优化和电压控制的内容进行了系统的阐述,并着重对电力系统无功源配置和电压控制分区进行了较为深入的研究。
This article has discussed the system structure and the control strategy of the voltage and reactive power coordinated control system.
本文对电压无功协调控制系统的结构和控制策略进行了研究。
Reactive power control system of county grid is a very beneficial tool to reduce the loss of active power and upgrade the level of voltage of county grid.
县级电网电压无功综合控制系统是进一步降低电网有功损耗、提高县级电网电压水平的有效措施。
Voltage control and reactive power optimization are effective means to increase rate of qualified voltage, reduce grid losses, and improve the system stability.
电网的电压控制和无功优化是提高电压合格率,降低网损,提高系统稳定性的有效手段。
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。
An algorithm for voltage and reactive power control device based on expert system is proposed.
提出了一种基于专家系统的变电站电压无功控制装置设计方案。
An expert system of voltage and reactive power control for substation is presented.
提出了一个变电站电压无功综合控制专家系统。
The voltage and reactive power control system for substations can improve voltage quality and reduce the active power loss.
变电站电压无功控制系统可提高电压的质量和降低电网的有功损耗。
The voltage and reactive power control system can improve voltage quality and reduce the active power loss.
电压无功控制系统对于提高电压质量,降低电网的有功损耗有着重要的意义。
This system consists of main station system, voltage and reactive-power real-time control subsystem(VQC)and communication subsystem.
系统由主站系统、变电站电压无功实时控制子系统(VQC)和通信子系统构成。
In this paper the complexity of voltage control in power system is discussed through the analysis of relationship between power system balanced states of voltage and reactive power.
本文通过分析无功功率平衡和电压水平的关系,指出了电力系统电压调整的复杂性,然后讨论了变电站电压无功控制的原理,给出了控制的数学模型。
For compensating reactive power and harmful currents in low voltage power system, the paper proposed two control schemes for STATCOM, which are indirect-current control and direct-current control.
本文针对低压配电网络的无功补偿和有害电流滤除问题,提出采用间接和直接电流控制两种STATCOM方案。
The automatic control system is put forward, which is about reactive voltage centralized optimization of county class power network.
提出了县级电网无功电压集中优化自动控制系统,其优化目标是各变电站电压合格率及网损优化。
The system based on DSP is proposed to solve the problems of voltage and reactive power integrated control in a substation.
针对现有变电站电压无功控制系统存在的问题,提出了一种应用DSP控制器实现电压无功综合控制的方案。
Reactive power optimization is one of the most control methods to ensure power system operation securely and economically, and an effective measure to improve the voltage profile and reduce the loss.
电力系统无功优化是保证系统安全、经济运行的一项有效手段,是降低网损、提高电压质量的重要措施。
Voltage control and reactive power optimization are effective means to increase rate of qualified voltage, reduce grid losses, and improve the system stability. The SCADAbased.
电网的电压控制和无功优化是提高电压合格率,降低网损,提高系统稳定性的有效手段。基于。
The low voltage reactive compensation collector-distributor control system in ferromanganese-silicon furnace is developed.
论述了锰硅电炉无功补偿方式的优缺点,开发了锰硅电炉低压无功补偿集散控制系统。
The automatic control system is put forward, which is about reactive voltage centralized optimization of county class power network.
针对地区电网辐射状运行的特点,提出了一种实用的无功电压控制算法。
Optimizing reactive power and voltage control in power system is an important and efficient method to improve the voltage quality and ensure the voltage stability.
无功电压优化控制是减少电网损耗、保持电压稳定性、提高电力系统安全性和经济性的有效措施。
Optimizing reactive power and voltage control in power system is an important and efficient method to improve the voltage quality and ensure the voltage stability.
无功电压优化控制是减少电网损耗、保持电压稳定性、提高电力系统安全性和经济性的有效措施。
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