An Evaluation Method of Branch Importance in Power System

A power system and importance technology, applied in system integration technology, information technology support system, electrical digital data processing, etc., can solve problems such as large amount of calculation, no consideration of real-time operation mode, gap between real power grid conditions, etc., and achieve simple calculation. Moreover, the calculation is simple and fast, and the effect of the comprehensive perspective is considered.

Active Publication Date: 2019-07-19
YUNNAN POWER GRID +1
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Liu Limin, Liu Junyong, Wei Zhenbo, etc. published the "Vulnerability Assessment Method of Transmission Lines Based on Synergistic Effect Analysis" ("Power Automation Equipment", Issue 5, 2016), and proposed to use the source-load betweenness and power overload to comprehensively evaluate the line. Vulnerability, the evaluation perspective is relatively comprehensive; however, the literature uses the source-load betweenness index, without considering the real-time operation mode, so there is a certain gap from the real situation of the power grid; at the same time, complex power flow calculations are required when calculating power overload. large

Method used

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  • An Evaluation Method of Branch Importance in Power System
  • An Evaluation Method of Branch Importance in Power System
  • An Evaluation Method of Branch Importance in Power System

Examples

Experimental program
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Embodiment 1

[0044] In order to further illustrate the branch importance evaluation method provided by the present invention in consideration of the topology and operating state, the IEEE39 node system is used as an example for simulation. The system includes 10 generators, 39 nodes, 12 transformers, 19 load points and 46 branches, its topology is as follows figure 2 As shown, the number represents the serial number of the node, G represents the generator, the arrow represents the load method, and the cross represents the busbar. In this embodiment, the weight coefficient σ=1 of the active power transmission factor, and the weight coefficient μ=0 of the impact index.

Embodiment 2

[0054] Embodiment 1 is repeated with the same steps described above, with the difference that the weight coefficient σ=0 for the active power transmission factor, and the weight coefficient μ=1 for the impact index.

Embodiment 3

[0063] Repeat embodiment 1 with the same steps described above, the difference is that the weight coefficient σ=0.5 of the active power transmission intermediary factor, and the weight coefficient μ=0.5 of the impact index, and the comprehensive importance of each branch is obtained as image 3 shown.

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Abstract

The invention discloses an evaluation method for evaluating the branch importance of a power system. The comprehensive importance index of a to-be-evaluated branch is obtained, and then the branch importance of the power system is evaluated. Tl* represents an active power transmission betweenness of the to-be-evaluated branch after being normalized. img file = 'DDA 0001143047330000012. TIF 'wi = '51 'he = '57' represents the impact resistance index of the to-be-evaluated branch after being normalized. Sigma represents the weight coefficient of the active power transmission betweenness. Mu represents the weight coefficient of the impact resistance index. According to the technical scheme of the invention, the complicated network theory and the entropy theory are organically combined, and the branch importance is comprehensively evaluated in the two aspects of the active transmission betweenness and the impact resistance index. A configured branch comprehensive importance index gives consideration to both the branch structure and the state importance. In this way, not only the contribution degree and the carrying capacity of an important branch during the power transfer process can be reflected, but also the influence of the on-off impact of the branch on the system is also considered. Therefore, the method is more accurate and more reasonable. The consideration range is more comprehensive and the evaluation result is more close to the real situation of the power grid.

Description

technical field [0001] The invention belongs to the field of identification of key branches in electric power systems, and more specifically relates to an evaluation method for the importance of branches in electric power systems. Background technique [0002] The take-off of the power industry, while promoting social progress and economic development, has also brought great challenges to the safe and reliable operation of the power grid. With the increasing complexity, large-scale and interconnection of modern power systems, the security problems of power grids are becoming more and more prominent and need to be solved urgently. Looking at the frequent large-scale power outages in recent years, almost all of them originated from partial failures of some components, and eventually developed into an avalanche of cascading failures that caused system crashes. Research shows that a very small number of critical branches play a pivotal role in the fault evolution process. Ther...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06F17/50G06Q10/06G06Q50/06
CPCG06Q10/0635G06Q50/06Y02E40/70Y04S10/50
Inventor 李本瑜石恒初游昊王国伟翟海燕赵明张才斌陈金富
Owner YUNNAN POWER GRID
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