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Spatio-temporal correlation day-ahead plan load flow analysis method with uncertainty being taken into consideration

A technology of time-space correlation and power flow analysis, applied in the field of power system, it can solve the problem that the probability distribution cannot be directly applied by the series expansion method.

Active Publication Date: 2016-11-09
CHINA ELECTRIC POWER RES INST +2
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Problems solved by technology

[0012] In order to overcome the deficiencies of the above-mentioned prior art, the present invention provides a day-ahead planning power flow analysis method that considers the time-space correlation of uncertainty, carries out engineering algorithm processing on the forecast error distribution with correlation, and solves the problem of probability with correlation Disadvantages that the distribution cannot be directly applied to the series expansion method

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  • Spatio-temporal correlation day-ahead plan load flow analysis method with uncertainty being taken into consideration
  • Spatio-temporal correlation day-ahead plan load flow analysis method with uncertainty being taken into consideration
  • Spatio-temporal correlation day-ahead plan load flow analysis method with uncertainty being taken into consideration

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Embodiment Construction

[0082] The present invention will be described in further detail below in conjunction with the accompanying drawings.

[0083] The present invention starts with the establishment of a wind speed prediction model for a single wind farm, and obtains the time series of the day-ahead wind speed through various day-ahead wind speed prediction methods, such as empirical prediction error statistics methods, analysis point regression methods, and probability density prediction methods. Through the establishment of this model, the expected value is provided for the calculation of the semi-invariant in the following text.

[0084] The current wind speed and wind turbine output prediction technology is difficult to achieve zero error. Statistics and segmentation of these errors can establish a probability distribution model of prediction errors. The prediction error distribution model adopted in this method is the Beta distribution model. The correlation is fully considered in the esta...

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Abstract

The invention provides a spatio-temporal correlation day-ahead plan load flow analysis method with uncertainty being taken into consideration. The spatio-temporal correlation day-ahead plan load flow analysis method comprises the following steps: obtaining next-day forecast wind speed of wind power plants in 96 time period within 24 hours; obtaining next-day output of the wind power plants; obtaining forecast error distribution of the next-day output of the wind power plants; carrying out independence conversion on random variables having spatio-temporal correlation; calculating semi-invariant of a load flow in each line; and determining relevant information for dispatching. The method carries out engineering algorithm processing on the forecast error distribution having correlation, thereby solving the problem that probability distribution having correlation cannot be obtained by utilizing a series expansion method directly. Analysis is carried out on the next-day load flow of each line in each time period through a Gram-Charlier series expansion method ; through such analysis method, probabilistic load flow problem can be solved conveniently and effectively; the method has a practical value; and the present series expansion method commonly used in medium / long-term probabilistic load flow analysis is expanded to short-term plan load flow analysis, thereby providing more data support for economic dispatching.

Description

technical field [0001] The invention belongs to the field of power systems, and in particular relates to a method for analyzing a day-ahead planned power flow considering the time-space correlation of uncertainty. Background technique [0002] In recent years, as the share of wind turbine output in the total power generation continues to increase, how to conduct effective power flow analysis for power grids containing wind farms has always been a hot research issue. In 2014, 13,121 new wind turbines were added across the country, with a new installed capacity of 23,196MW, a year-on-year increase of 44.2%. In this situation, the day-ahead wind power forecast and the power flow analysis of the power system including wind power have very important reference value for ensuring the reliability and economy of the next day dispatch plan. [0003] However, there are still some deficiencies in the data provided by our country for the day-ahead plan (that is, the next day plan) of th...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02J3/06
CPCH02J3/06H02J2203/20Y02A30/00
Inventor 丁强翟成玮周京阳许丹潘毅戴赛张传成董炜崔晖李强黄国栋韩彬蔡帜胡晨旭朱泽磊李晓磊李培军张加力李博刘芳门德月闫翠会燕京华李伟刚刘鹏孙振
Owner CHINA ELECTRIC POWER RES INST
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