1) energy compensating device
能量补偿装置
1.
Design of parameters of energy compensating device on subsurface pump;
抽油泵能量补偿装置的参数设计及其他
2) compensation device
补偿装置
1.
Introduces the types of OCS compensation devices and their application in the development of electrified railways and urban mass transit system in aspects of product materials, manufacturing techniques, structural characteristics and the characteristics, proposes to popularize and use the ratchet wheel gear device, spring compensator and the hydro-pneumatic tensioning compensator.
从产品材质、工艺、结构特点、性能等方面介绍了我国电气化铁道及城市轨道交通接触网补偿装置发展过程中的几种产品及其应用情况,提出在今后推广使用棘轮装置、弹性补偿器、液气式张力补偿器的建议。
2.
The article analyzes the principle and influencing factors of flicker,and the compensation devices are put forward to suppress voltage fluctuation and flicker effectively.
分析了风电场闪变产生的原理和影响因素,指出依靠补偿装置可以有效抑制电压波动和闪变。
3) Compensating device
补偿装置
1.
The structure, principle and application and on the basis of line selection of the intellctual regulating compensating device to ground are introduced.
分析了三种智能接地补偿装置的优缺点 ,介绍了调容式智能接地补偿及选线装置的结构、原理、应用以及选型依据。
4) Compensation unit
补偿装置
1.
Research on shield voltage compensation unit of power cable;
电力电缆护层电压补偿装置研究
5) compensator
[英]['kɔmpenseitə] [美]['kɑmpən,setɚ]
补偿装置
1.
In this paper,the characteristic of new type control system of PFC(power factor compensator) of electric locomotive is briefly described,the test is analysed in detail.
简述了新型功率因数补偿装置控制系统的特点,详细分析了新型功补控制系统试验情况,验证了其可靠性,说明新控制系统较原有控制系统性能上有大的改进。
6) Unified power quality compensator(UPQC)
综合电能质量补偿装置(UPQC)
补充资料:并联无功补偿装置
并联无功补偿装置
shunt equipment for var compensation
eomPensation) 基本原理···············,·······················……56 补偿的基本原则······························……56 主要类型·······,·······························……56 机械投切型无功补偿装里···············……56 并联电容器······························……57 滤波器····································……57 并联电抗器······························……57 快速调节型无功补偿装里···············……57 同步调相机······························……57 静止无功补偿装置·····················……57 静止同步补偿器························……57 主要技术性能·································……57 用途·············································……57 负荷补偿····································……57 交流输配电系统补偿·····················……57 超高压直流输电系统补偿···············……57 兼作滤波装置······························……57 发展简况·······································……59 并联在电力网上,向电网注人或从电网吸收无功功率的装置,常称无功补偿装置。但就补偿装里接入电网的方式而言.不仅包括并联补偿装置,还应包括申联补偿装置。无功功率的性质,有感性无功功率和容性无功功率的区别。电力系统的负荷大都是感性负荷,即消耗感性无功;习惯上“无功”就是指感性无功,即不标明性质的无功功率即指感性无功功率。如电容器是容性负荷,它吸收容性无功功率亦即发出感性无功功率,一般称电容器发出无功或说它是无功电源;反之电抗器吸收无功则是无功负荷。静止同步补偿装1既可工作于容性区又可工作于感性区,既可供给无功也可吸收无功。向系统提供无功称为“正补偿”,从系统吸收无功则称为“负补偿”。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条