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Mass data-based power system safety and stability judgment method taking topological factors into consideration

A power system, safe and stable technology, applied in the field of power system safety and stability judgment method based on massive data and considering topological factors, can solve problems such as long calculation time, complicated procedures, difficult to implement, etc., shorten the judgment time, solve the construction complex effects

Inactive Publication Date: 2016-02-24
POWER DISPATCHING CONTROL CENT OF GUANGDONG POWER GRID CO LTD +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Such a judgment method requires modeling and analysis of each operating state. The program is very complicated and the calculation time is long. It is difficult to quickly judge whether the power system can operate safely and stably under the complex and changeable online power grid operation mode.

Method used

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  • Mass data-based power system safety and stability judgment method taking topological factors into consideration
  • Mass data-based power system safety and stability judgment method taking topological factors into consideration

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Embodiment Construction

[0032] A power system safety and stability determination method based on massive data and considering topological factors is characterized by comprising the following steps:

[0033] S1, collect real-time power system topology data and power flow data, and obtain the active power P flowing through each line in the power system through power flow calculation (existing technology) i and reactive power Q i ;

[0034] Assuming that under the real-time power system topology, there are n lines in total, the active power P flowing through each line in the power system is obtained through power flow calculation i and reactive power Q i (i=[1,2,...,n]);

[0035] S2 establishes the description of power grid operation mode considering topological factors

[0036] The power grid operation mode considering topological factors is described as a 2n-dimensional vector x, denoted as:

[0037] x=(P 1 ,Q 1 ,P 2 ,Q 2 ,...P n ,Q n );

[0038] S3 determines whether the power system is s...

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Abstract

The invention discloses a mass data-based power system safety and stability judgment method taking topological factors into consideration. The method comprises the following steps: (S1) determining active power Pi and reactive power Qi, which flow through various lines in a power system; (S2) building power grid operation mode description taking topological factors into consideration; (S3) judging whether the power system runs safely and stably; (4) repeating the steps (S1) to (S3), accumulating for a period of time to obtain m groups of samples, which include operation modes x<j> (j=1, 2, ..., m) of the power system and a tag y<j> (j=1, 2, ..., m) that the power system can run safely and stably in the operation mode; (S5) building a nonlinear support vector machine model (SVM) by m groups of samples obtained in the step (S4) and finding out an interface f(x) that the power system can run safely and stably and cannot run safely and stably; and (S6) judging whether the power system can run safely and stably or not according to the online operation state of the power system by the nonlinear support vector machine model (SVM). The mass data-based power system safety and stability judgment method taking topological factors into consideration is high in response speed in judgment and applicable to power system safety and stability judgment in a complicated variable online power grid operation mode.

Description

technical field [0001] The invention relates to a method for judging the safety and stability of a power system, in particular to a method for judging the safety and stability of a power system based on massive data and considering topological factors. Background technique [0002] Due to the time-variation and complexity of large power grids, it is often difficult to determine whether the power system can operate safely and stably in real time and accurately. When abnormal conditions such as severe overload, large-scale load shedding, and partial grid splitting occur, if the safety and stability of the power system cannot be quickly judged and timely measures are taken, it is very easy to cause huge losses to the power system. [0003] The judgment of the security and stability of the traditional power system is often based on modeling the operation mode of the power grid, and then analyzing the model to judge the security and stability of the power system. Such a judgment...

Claims

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Application Information

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IPC IPC(8): G06Q50/06
Inventor 温柏坚孙宏斌郭文鑫郭庆来王彬余志文黄天恩刘林
Owner POWER DISPATCHING CONTROL CENT OF GUANGDONG POWER GRID CO LTD
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