Low frequency oscillation identification method for power system based on O3KID algorithm

A power system, low-frequency oscillation technology, applied in the direction of reducing/preventing power oscillation, circuit devices, AC network circuits, etc.

Inactive Publication Date: 2018-08-28
FUZHOU UNIV
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Problems solved by technology

The normalized innovation vector output by the Kalman filter has the characteristics of zero-mean white noise. Through the statistical analysis of the innovation power spectral density, the rapid detection of the change of the modal damping parameter of the low-frequency oscillation of the power system is realized, but the essence is still a kind of nonparametric

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  • Low frequency oscillation identification method for power system based on O3KID algorithm
  • Low frequency oscillation identification method for power system based on O3KID algorithm
  • Low frequency oscillation identification method for power system based on O3KID algorithm

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[0060] The technical solution of the present invention will be specifically described below in conjunction with the accompanying drawings.

[0061] A kind of based on O of the present invention 3 The power system low-frequency oscillation identification method based on the KID algorithm embeds the observer in the power system stochastic model, and uses O 3 The basic equation of the KID algorithm and the least square method estimate the Markov parameters and residuals of the observer, and transform the random system identification of the power system into the identification problem of a deterministic system. The introduced observer is equivalent to a Kalman filter.

[0062] Perform optimal observation signals. In addition to the dominant oscillation mode, there are also other oscillation modes in the power grid. Therefore, it is necessary to select the measurement signal with good observability of the dominant oscillation mode for modal analysis to improve the accuracy of the...

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Abstract

The invention relates to a low frequency oscillation identification method for a power system based on an O3KID algorithm. The method embeds an observer in the stochastic model of the power system, and uses the basic equation of the O3KID algorithm and the least squares method to estimate the Markov parameters and residuals of the observer, and transforms the stochastic system identification of the power system into an identification problem of the deterministic system. The introduced device is equivalent to the Kalman filter. The Hankel matrixes are respectively constructed by using the output of the observer and the residual time series. The orthogonal projection and singular value decomposition methods of the deterministic system are used to effectively identify the reduced-order modelof the power system, and accurately extract the frequency, damping ratio and vibration mode parameter information of the dominant mode of the low-frequency oscillation. The method provided by the invention is suitable for the low-frequency oscillation mode analysis of the power system for the WAMS synchronous measurement environment excitation signal and the transient ring-down signal, and the IEEE-39 node system simulation and the US Eastern Power Grid WAMS measured data analysis verify the effectiveness of the method.

Description

technical field [0001] The invention relates to the technical field of power system low-frequency oscillation analysis, in particular to a method based on O 3 KID algorithm based power system low frequency oscillation identification method. Background technique [0002] With the rapid development of modern power systems, the rapid excitation system is widely used in synchronous generators, the interconnection of large-scale power systems, and the proportion of installed capacity of new energy power generation systems continue to increase. It restricts the power transmission of the transmission line and affects the stable operation of the power system and the control of power quality. At present, the wide application of wide area monitoring system (WAMS), especially the continuous improvement of the sampling frequency and accuracy of phasor measurement units (PMU), provides a basis for near real-time identification of low-frequency oscillations based on data measurement. in...

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Application Information

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IPC IPC(8): H02J3/24
CPCH02J3/24H02J2203/20
Inventor 金涛仲启树卓丰李泽文
Owner FUZHOU UNIV
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