Doubly-fed wind motor dynamic equivalence method based on similarity homology

A doubly-fed wind motor, dynamic equivalent technology, applied in the value field, can solve problems such as lack of consensus, universal barriers, and large differences in dynamic characteristics

Active Publication Date: 2018-08-17
SOUTH CHINA UNIV OF TECH
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Problems solved by technology

At present, there are few relevant literatures on how to distinguish the coherent characteristics of wind farms. The relevant literatures propose a method of coherent grouping according to the characteristic quantity, but this kind of method has the problem of whether the selection of the characteristic quantity is complete, and the universality of this method is an obstacle. The bottleneck of its application
The similarity grouping based on disturbed trajectories is a common method for multi-machine system grouping, and the power angle of the generator is often used as the observation value. Unlike the synchronous motor, due t

Method used

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  • Doubly-fed wind motor dynamic equivalence method based on similarity homology
  • Doubly-fed wind motor dynamic equivalence method based on similarity homology
  • Doubly-fed wind motor dynamic equivalence method based on similarity homology

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Embodiment

[0061] This embodiment provides a method for dynamic equivalence of doubly-fed wind generators based on similarity coherence, the flow chart of the method is as follows figure 1 shown, including the following steps:

[0062] Step S10, using the prony algorithm to fit the output power characteristic curve of the DFIG to a linear combination of exponential functions of amplitude, phase, frequency and damping; the linear combination formula is as follows:

[0063]

[0064] in, Represents an approximation of X(n), b i =A i exp(jθ i ),Z i =exp((α i +j2πf i )Δt), A i Indicates the amplitude of the output power of the DFIG, θ i Indicates the initial phase angle of the output power of the DFIG, f i Indicates the oscillation frequency of the output power of the DFIG, α i is the attenuation factor of the oscillation frequency, Δt represents the sampling interval, p represents the number of linear combinations of exponential functions of arbitrary amplitude, phase, frequenc...

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Abstract

The invention discloses a doubly-fed wind motor dynamic equivalence method based on similarity homology. The method comprises the following steps of stepS10, using a prony algorithm to fit the outputpower of doubly-fed wind motors to the linear combination of the exponential functions of an amplitude, a phase, a frequency and damping; stepS20, according to the linear combination acquired from thestepS10, using a similarity theory to determine a similar oscillation mode between the doubly-fed wind motors; stepS30, using the similar oscillation mode to define a homology similarity quantification index between the doubly-fed wind motors, and discriminating a homology cluster in a wind power plant; S40, taking active power output by the doubly-fed wind motors as weight and acquiring the equivalent transient internal potential of an equivalent machine, and connecting the equivalent transient internal potential buses of the doubly-fed wind motors of a same group to the equivalent transient internal potential bus of the equivalent machine through a complex transformation ratio phase shifting transformer respectively; and stepS50, calculating the equivalent parameter of each equivalentmachine, and connecting the equivalent transient internal potential bus of the equivalent machine to the equivalent machine through an equivalent doubly-fed wind motor impedance.

Description

technical field [0001] The invention relates to the technical field of equivalent modeling of wind farms in new energy power generation technology, in particular to a dynamic equivalent method for double-fed wind generators based on similarity coherence. Background technique [0002] With the rapid development of the modern power industry, large-scale AC and DC interconnected power systems have emerged, and the characteristics of multi-machines (thousands of machines) and large power grids (thousands of lines and thousands of busbars) have become more and more prominent, which makes the power system The calculation of planning, design and operation mode has become extremely cumbersome and complicated. On the one hand, it takes a lot of time and space to complete these calculations in detail. On the other hand, due to the limitation of simulation scale and hardware equipment, the above calculations are difficult to realize in practice. To this end, some reasonable simplifica...

Claims

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Application Information

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IPC IPC(8): H02J3/38G06F17/50
CPCG06F30/367H02J3/386H02J2203/20Y02E10/76
Inventor 朱林王贝陈达
Owner SOUTH CHINA UNIV OF TECH
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