一类是电力系统的典型元件,如发电机、变压器、输电线路。
One is the typical power system components, such as generator, transformer and transmission lines.
800千伏特高压直流变压器是实现远距离、大容量输电的特高压输电线路的关键设备。
The 800 kV UHVDC transformer is a key component of ultrahigh-voltage power links that deliver large amounts of electricity over very long distances.
三相变四相电力变压器是一种新型平衡变压器,由此可以实现四相输电方式,也可以用于电气化铁道的AT供电方式。
The transformer may be applicable to either four- phase transmission system or AT power supply system in electric railways.
直流输电系统单极大地回路运行方式导致电网部分变压器振动加剧,噪声增大,影响了设备安全。
The monopolar ground circuit operation mode of DC transmission system gives rise to excessive vibration and noise of some transformers in the power grid, which impacts the safety of equipment.
为此,提出了调度员在输电线路跳闸、变压器跳闸、母线故障及变电站全停电的一些处理方法,并举例给予说明。
In this paper, the author illustrates some treating methods for trip of transmission lines and transformers, bus failures as well as overall service interruption in substations.
通过1888年,特斯拉举行交流多项专利电动机,发电机,变压器和输电系统。
By 1888, Tesla held several patents on AC motors, generators, transformers, and transmission systems.
电抗器可直接接在输电线路上或接在变压器第三绕组上,每种接法给系统带来不同的好处。
Reactors may be either directly connected to the transmission line or connected on transformer tertiary windings, each location offering specific system benefits.
同样,发电机组、变压器组以及输电线路在特定时候可以轻载或重载,在很多情况下可通过就地控制而改变。
Likewise, generating units or transformer Banks and transmission lines can be lightly or heavily loaded at a particular time and can be varied in many cases by local control.
本论文就采用新型换流变压器的新型直流输电换流控制系统进行了研究与设计。
The control system of new type DC transmission system adopting novel transformer and its filter device are mainly studied and designed in this thesis.
针对新型高压直流输电模拟系统12脉波整流器与逆变器产生的谐波,设计了基于新型换流变压器的无源滤波器系统。
In view of harmonic which generated from the new-type HVDC analog system 12-pulse wave rectifiers and the inverter, designed passive filters system based on the new-type converter transformer.
末端加压法对高压直流输电系统所用换流变压器阀侧套管预防性试验,特别是将来特高压直流换流变压器阀侧套管预防性试验具有较高的实用价值。
Applying voltage into the bushing tap method for preventive test of converter transformer value side bushing in HVDC, especially in the future for UHV, will have better practical value.
在此基础上确定了溪洛渡—株洲特高压直流输电工程换流变压器的额定功率、电压、电流和分接头的变化范围等参数。
After illustrating the operation theory of six pulse converter, author gives the calculating method of UHVDC transmission parameters such as operating power, voltage, current and tap changer range.
在此基础上确定了溪洛渡—株洲特高压直流输电工程换流变压器的额定功率、电压、电流和分接头的变化范围等参数。
After illustrating the operation theory of six pulse converter, author gives the calculating method of UHVDC transmission parameters such as operating power, voltage, current and tap changer range.
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