Multi-time scale cascading failure prediction method of power system under typhoon weather condition
A multi-time scale, power system technology, applied in the field of power system, can solve the problems of the large difference between the accident chain and the actual scene, the failure to consider the path of the accident chain, and the failure to comprehensively consider the internal and external factors of the occurrence and development of cascading failures.
A multi-time scale, power system technology, applied in the field of power system, can solve the problems of the large difference between the accident chain and the actual scene, the failure to consider the path of the accident chain, and the failure to comprehensively consider the internal and external factors of the occurrence and development of cascading failures.
CN109873457AActive Publication Date: 2019-06-11HEFEI UNIV OF TECH
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[0086] In this embodiment, the multi-time scale of a multi-time scale cascading failure prediction method under typhoon weather conditions refers to dividing the physical phenomena and control measures in cascading failures into short time scales, long time scales and Extremely long time scale process, the coordination relationship of each time scale is as follows figure 1 shown. The specific process of cascading failure prediction of the present invention is as follows: figure 2 As shown, the line failure probability is predicted according to the relationship between the typhoon’s moving speed, radius, and line location. The line failure probability is updated continuously with time. After the initial fault start time is selected, it is necessary to update the line correlation index according to the passage of time to predict the lower-level disconnection branch. The corresponding control is carried out in the time scale process, and the selection of the improved overload ...
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The invention discloses a multi-time scale cascading failure prediction method of a power system under a typhoon weather condition. The method comprises the steps of 1, acquiring meteorological data and line parameters, and building a dynamic model of typhoon weather; 2, calculating initial fault probabilities of lines to form an initial fault set; 3, switching on or off any line of the initial fault set under an initial load level; 4, enabling the power system to sequentially carry out short-time scale judgment and corresponding control process and line overload control process of the short-time scale judgment; 5, carrying out fuzzy clustering on correlation indexes of the line, and taking the class with the highest relevance in a clustering result as an on-off line in the next stage; 6,updating the load level of the power system and weather indexes of the line; 7, repeating the steps 4-6, and until completion conditions are met, recording and outputting accident chain data. According to the method, an accident chain of the power system under the typhoon weather condition can be more really simulated when typhoon comes, so that guidance can be provided for research on cascading failures in typhoon.
Description
technical field [0001] The invention relates to the field of power systems, in particular to a method for predicting multi-time scale cascading failures of power systems under typhoon weather conditions. technical background [0002] In recent years, typhoons have become more frequent. Typhoon weather will cause a significant increase in the failure rate and failure probability of transmission lines in a short period of time, and even cause damage to electrical equipment, thereby inducing large-scale power outages. The economic losses brought to the power system cannot be underestimated. Therefore, modeling cascading faults and predicting accident chains under typhoon weather conditions is of great significance for taking appropriate control measures to prevent the development of cascading faults and maintaining the safe and stable operation of the power system. [0003] For the research of cascading failures under typhoon weather conditions, the existing methods are mainly ...
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Patent Timeline
11 Jun 2019
Publication
CN109873457A
- IPC
- H02J3/48
- Inventors
- 张晶晶; 尉静慧