New angles for monitoring areas

2010 IREP Symposium Bulk Power System Dynamics and Control - VIII (IREP) Pub Date : 2010-09-07 DOI:10.1109/IREP.2010.5563265

I. Dobson

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引用次数: 18

Abstract

We define the voltage angle across an area of a power system to measure the area stress. The voltage angle across the area is a weighted combination of the voltage angles at all the buses along the border of an area. The area angle can be divided into two parts; one part is internal stress caused by power injections inside the area and the other part is external stress caused by power ows from other areas. The area angle can be monitored using voltage synchrophasor measurements at the border buses. If the currents or powers owing into the area at the border buses are also measured, then the internal stress angle can also be monitored. The internal stress angle changes when lines inside the area outage or when there is redispatch of power within the area. The internal stress angle does not change when lines outage outside the area or power is redispatched outside the area. This makes the internal stress angle useful for detecting and monitoring changes inside the area. If it is known which line inside the area is outaged, the angle across the line after the outage can be computed from the change in the internal stress angle. The analysis uses a DC load ow model of the power system and exploits the recently discovered cutset angle.

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监测区域的新角度

我们定义了电力系统一个区域的电压角来测量区域应力。整个区域的电压角是沿区域边界的所有母线电压角的加权组合。面积角可分为两部分;一部分是由区域内的动力注入引起的内应力，另一部分是由其他区域的动力注入引起的外应力。可以使用边界总线上的电压同步测量来监测面积角。如果在边界总线上也测量流入该区域的电流或功率，则也可以监测内应力角。当区域内的线路中断或区域内有电力重新调度时，内应力角发生变化。当线路在区域外中断或电力在区域外重新分配时，内应力角不发生变化。这使得内应力角对探测和监测区域内的变化很有用。如果已知区域内哪条线路停电，则可通过内应力角的变化计算出停电后该线与该线的夹角。该分析采用了电力系统的直流负荷低模型，并利用了最近发现的切集角。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2010 IREP Symposium Bulk Power System Dynamics and Control - VIII (IREP)

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