在静态电压稳定的研究中,确定电压稳定极限是一项非常重要的工作。
It is an important job to determine the voltage stability limit for the static voltage stability research.
在静态电压稳定的研究中,确定电压稳定极限是一项非常重要的工作。
Determine the voltage stability limit is an important job for the static voltage stability research.
利用该算法可以很方便地解出临近电压稳定极限的重负荷潮流和电压静稳极限。
With the algorithm it is very easy to find out the power flow under heavily loading condition, as well as the static voltage stability limit.
静态最接近电压稳定极限就是对应于负荷沿某一最坏的可能方向增加时的静态电压稳定极限。
The static-state closest voltage stability limit corresponds to power limits of voltage stability when the loads in-crease along with the worst possible direction.
提供了一套自定义语言—IPLAN,它使得在PSS/E平台上实现电压稳定极限计算成为可能。
PSS/E supply a language-IPLAN, which can make it possible to realize the computation of voltage stability limit.
连续潮流法能较好克服潮流方程在极限点附近的病态,是求取静态电压稳定裕度的常用方法。
The continuous power flow method can readily overcome the abnormality of the power flow equation in neighborhood of limits and is frequently used for determining the static voltage stability margins.
传统的输电能力只是考虑了一些物理特性的因素,如热极限、电压限制和稳定性限制。
The traditional transfer capability only considers some physical property factors, such as hot limit, voltage limit and stable limit.
本文旨在分析电力系统临界电压稳定与同步稳定极限的内在关系。
In this paper the relationship between the critical voltage stability and synchronism stability limit is analyzed.
此外,本文还对复杂电力系统中临界电压稳定与同步稳定极限的条件进行了探讨。
Moreover, this paper presents an analysis for the conditions of the critical voltage stability and synchronism stability limit in the bulk power systems.
连续潮流算法是电压稳定分析的有力工具,能够克服接近稳定极限运行状态时的潮流不收敛的问题。
Continuation power flow method, the strong tool of voltage stability analysis, can overcome the problem of singularity of Jacobin matrix when running close to collapse point.
通过对单机。动态负荷模型添加无功功率动态补偿装置,可以改变原系统的分岔点,增加了负荷极限,从而提高了系统电压稳定性。
Through the single-dynamic load model dynamic reactive power compensation device can change the original system bifurcation point, increase the load limits and improve the system voltage stability.
通过对单机。动态负荷模型添加无功功率动态补偿装置,可以改变原系统的分岔点,增加了负荷极限,从而提高了系统电压稳定性。
Through the single-dynamic load model dynamic reactive power compensation device can change the original system bifurcation point, increase the load limits and improve the system voltage stability.
应用推荐