1·Shunt capacitor bank in series with inductance can filter harmonic while resulting in parallel resonance.
并联电容器组与电抗器串联具有滤波功能,同时也会与系统发生并联谐振。
2·Computed results will provide the active power losses, shunt capacitor states and transformer tap values.
计算结果提供优化前后的有功总损耗大小、电容器组状态和变压器分接头位置。
3·Calculation methods of installation capacitance and group capacitance for shunt capacitor bank are proposed.
提出了并联电容器组的安装容量和分组容量的计算方法。
4·Shunt capacitor banks are now widely applied for reactive compensation in power system as a reactive source.
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。
5·The basic purpose of a shunt capacitor bank is to increase the local circuit voltage and or reprove the load power factor carried by the circuit.
并联电容器组的基本目的是要提高当地线路的电压,或提高引线路所带负荷的功率因数。
6·When harmonic sources exist in power system, parallel resonance occurs due to the interaction between shunt capacitor bank and system inductance.
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。
7·Self-healing low-voltage shunt capacitor is widely used in network, to check its reliability in network operation, it is very necessary for destruction test.
自愈式低电压并联电容器在电网中被广泛使用,为了考核其在电网中运行的可靠性,对其进行破坏试验是十分必要的。
8·This paper discusses the control strategy of synchronous switching of shunt capacitor unit in the different way of connection and different reference signal.
文章论述了电容器组在不同连接方式和不同参考信号时对应的同步关合和同步切除控制策略。
9·This paper analyses the influences of the closing time scatter and dielectric characteristic of circuit breaker on synchronous energizing shunt capacitor banks.
分析了断路器绝缘特性和合闸时间分散性对并联电容器组同步关合的影响;
10·The basic theory for voltage and reactive control and the taps changed in transformer and shunt capacitor switched affect the voltage value are discussed in the paper.
本文从电压无功综合控制的基本原理出发,说明了变压器分接头的调节与并联电容器投入容量的大小对电网电压的影响。