分支线路 meaning in Chinese
branch circuit
branched line
Examples
- With the rapid development of the power system , the power grid changes day to day , such as : the number of parallel lines increases greatly , the transmission lines become much longer and the load is much more heavy
随着电力系统的迅速发展,电网结构不断发生变化。同杆并架双回线路和远距离重负荷线路将不断增多,分支线路和多端线路亦将增加。 - Computer simulation shows that the criterion measure effectively locates faults in direct distribution line , and it is also feasible to tree - type distribution system in theory but there are still some problems in practice
经过数值仿真计算分析表明,该方法对直配线的接地故障定位是有效的,对树形多分支线路的故障定位理论上也是可行的,但实际应用中还有许多重要问题需要进一步深入研究。 - The device can measure reactive parameters in distribution power net which are generally considered to he difficultly measured the paper also introduces the calculating method of the reactive compensation capacity and its optimal location , the design method and realization principle of the series devices , such as the reactive power acquisition device , the reactive power optimized controller and the compensation capacitor operator , is seated in detail through economic and technical comparison , a realistic hardware scheme of reactive power compensation system is proposed
文章利用电磁感应原理和数字通讯技术结合试验设计出电源自给式高压线路无线信号采集装置,解决了配电网分支线路无功参数不易测量的问题。文章还介绍了系统无功补偿容量及安装位置的计算方法,较为具体的讲述了无功功率采集器、无功优化控制器以及补偿电容操作器等一系列装置的设计方法和制作原理。通过经济技术比较提出了一整套切实可行的无功补偿系统硬件制作方案。 - It not only solves the problem of optimized control of the reactive current exchanging among branches , in other words , realizes the auto - tracking to the reactance factor , but also greatly improved the reliability of the system . to design the high voltage line wireless signal acquisition device with self - feed source , we applied electromagnet induction principle and digital communication technique
系统在优化控制技术中采用了电容器补偿控制的两段控制模型,不仅解决了分支线路之问穿越无功电流的最优控制问题,实现了功率因数的自动跟踪,而且使整个系统的可靠性大大提高。 - In the next place , an improved algorithm of grounding fault location for tree - type distribution system which is based on new fault function and criterion measure , is proposed in order to complete fault branch ide ntification , fault location and fault value . a lot of the simulation of fault diagnosis and location by computer demonstrate that the algorithm is effective
其次论文基于辐射状馈线的任一分支线路发生接地故障,通过分析与推导,建构了配电线路单相短路点定位的故障定位函数和相应的故障判据,利用树网单端信息完成故障分支识别、故障定位和过渡电阻定值。