对现行补偿电容器额定电压值提出了看法。
Suggestions are given on the voltage rating of actual compensation capacitors.
该方法可解决试验电源不足、补偿电容器规格不适合的问题。
The questions of lacking test power supply, unfittness of compensation capacitor specification are all solved.
将模糊控制技术应用于配电网并联补偿电容器组的自动投切控制。
The technology of fuzzy control is applied to automation switching control of compensation capacitors in distribution networks.
为了做好电网的无功补偿,必须保证补偿电容器的安全可靠运行。
In order to do well the grid reactive power compensation, reliable operation of reactive power compensation capacitor must be assured.
并对补偿电容器组分组投切的二进制编码和初值的选取进行了研究。
How to generate the binary code of compensation condenser and how to chose initial value are researched.
计算表明,采用补偿电容器进行合理的补偿能取得显著的经济效益。
And the adoption of the suitable reactive power compensation will get very good benefit by calculation.
探讨了变电站在进行无功补偿电容器建设时确定补偿容量的计算方法。
Research on measurement of resistive current in XLPE cable using capacitive current compensation method;
变电所无功补偿电容器与串联电抗器的不同组合对系统谐波的影响不同。
Different combination pattern of reactive power compensation capacitors with series reactors in substations has different influence on harmonics in the power system.
供配电系统通常接有并联补偿电容器,配电网中的高次谐波对电容的影响很大。
Power Supply System is often placed with shunt compensation capacitors and the upper harmonic waves in the distribution network have much influence on the capacity.
当系统中存在谐波源时,无功补偿电容器组与系统电路会在某次谐波频率下发生并联谐振。
When harmonic sources exist in power system, parallel resonance occurs due to the interaction between shunt capacitor bank and system inductance.
设置补偿电容器是补偿电网中无功功率的传统方法之一,无功补偿装置在电网中应用相当普遍。
One of the traditional methods of reactive power compensation is to use compensating capacitors, therefore, compensation device is widely used in power network.
提出了防止谐振的措施对补偿电容器及串联电抗器长期容许高次谐波电流值进行了分析和计算。
The permissible harmonic current of high order for long term in the compensative capacitor and series reactor were analyzed and calculated, as well as some tables calculated for reference were given.
c谐波将引起流过无功(功率因数)补偿电容器的电流显著增加,造成电容器投入运行不久就损坏。
C will cause harmonic flow reactive (power factor) compensation capacitor current increase significantly, resulting capacitor will soon be put into operation in damage.
建立了补偿电容器和变压器分接头的实时控制解决方案,给出了系统框图,并从硬件上实现了该方法。
The real time controlling scheme of compensating capacitors and tap joint of transformer is established, the systematic block diagram is provided, and the hardware based on this method is realized.
由于存在无功功率和谐波,从而引起电网质量下降,传统的接触器投切补偿电容器存在诸多不足之处。
Reactive power and harmonic can decrease power network quality and traditional compensators with contactor switch have some drawbacks.
在电气化铁道牵引变电站中,装设无功补偿电容器和谐波滤波器是提高功率因数、改善电能质量的重要手段。
In electric railway traction substation, power capacitors and harmonic filters are the important devices for improving both the power factor and the power quality.
基于非线性最优预测控制(NOPC)理论,设计了一种具有闭合的解析控制律的可控串联补偿电容器(TCSC)的控制器。
In this paper, a novel controller for thyristor-controlled series capacitors (TCSCs) with closed-form analytical solution nonlinear optimal predictive control (NOPC) is presented.
在变电所内加装电容器,是当前无功补偿的主要形式。
In the transformer substation install compensation capacitors, it is mostly form of reactive compensation nonce.
采用电力电容器进行补偿有固定补偿和随机自动补偿。
Fixed compensation and random auto-compensation use power capacitor to compensate.
在交流电网中,常常采用移相电容器补偿无功功率损耗的方法来提高网络的功率因数。
In ac power network, the way of phase-shifting capacitors to compensate reactive power loss is always adopted to raise network power factor.
分析了装设不可调电容器组进行无功补偿存在的问题。
It also analyzed problem on non adjustable capacitor group for reactive compensate.
发、供、配电网投切电容器组应通过精确计算,形成无功补偿的闭环管理系统。
Capacitor group is switched through accuracy calculation to form closed-loop management system of reactive compensation.
介绍一种采用可投切电容器的新型静止无功补偿器。
A new static active var compensator with switched capacitors is introduced.
并联电容器组作为一种无功电源被广泛应用于电网的无功补偿。
Shunt capacitor banks are now widely applied for reactive compensation in power system as a reactive source.
变电站通过电容器组完成无功补偿后,负荷曲线发生变化导致变压器所在的经济运行区间变化,故应针对变化了的负荷重新计算投切策略。
The reactive compensation by capacitor banks for substations tends to make the load curve change, which may result in shifting of the economic operation range of the transformer.
介绍采用同步电动机和并联电容器进行无功补偿等常用的无功功率补偿方法,以提高用电设备的功率因数。
The common methods of compensating reactive power are introduced to raise the power factor of electric equipment, such as those of using synchronous motors and parallel capacitors.
随后,提出了采用并联电容器组就地补偿方法和采用自耦减压启动器降压启动的解决方法,并分别进行了算例仿真研究。
Subsequently, shunt capacitor banks and autotransformer starters are suggested to mitigate the impact, and simulation results prove that these measures are reasonable and effective.
为了抑制次同步振荡,应采用可控串联电容器补偿(TCSC)。
Thereby, for restraining SSO, thyristor controlled series compensation (TCSC) should be adopted.
为了抑制次同步振荡,应采用可控串联电容器补偿(TCSC)。
Thereby, for restraining SSO, thyristor controlled series compensation (TCSC) should be adopted.
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