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Engine network side combination control algorithm based on energy of doubly-fed induction wind power generation system

A wind power generation system and control algorithm technology, which is applied in computing, electrical digital data processing, special data processing applications, etc., can solve the problems of increased volume and weight, increased failure rate, increased system cost, etc. The effect of reducing the requirement of capacitor capacity and saving system cost

Inactive Publication Date: 2012-05-23
HARBIN INST OF TECH AT WEIHAI
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Problems solved by technology

[0004] In view of the existing algorithm in the control application of the doubly-fed induction wind power generation system, the independent control of the machine side and the grid side is generally used to cut off the physical connection between the two, so that there is a large difference in the instantaneous energy of the two parts, and a large capacitor has to be used To avoid DC voltage fluctuations, resulting in increased system cost, increased volume and weight, and increased failure rate, the present invention proposes a nonlinear algorithm for combined control of doubly-fed induction wind turbine generator side and grid side based on the energy point of view

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  • Engine network side combination control algorithm based on energy of doubly-fed induction wind power generation system
  • Engine network side combination control algorithm based on energy of doubly-fed induction wind power generation system
  • Engine network side combination control algorithm based on energy of doubly-fed induction wind power generation system

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[0013] In order to better understand the technical solutions of the present invention, the following further describes the embodiments of the present invention with reference to the accompanying drawings.

[0014] In the first step, the entire doubly-fed induction wind power generation system is divided into four subsystems according to energy flow: mechanical subsystem (∑ m ), electromagnetic subsystem (∑ e ), DC subsystem (∑ dc ), network side subsystem (∑ g ),Such as figure 1 Shown. Encapsulate the internal structure of the subsystem (including determining the internal connection structure matrix of each subsystem, the dissipative damping structure matrix, and the interaction structure matrix between the subsystem and the outside). Then, design the port variables of each subsystem so that the inner product of the corresponding input and output port variables of the subsystem is the interaction energy between the subsystem and the outside world per unit time. Such as figure 2...

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Abstract

The invention provides an engine network side combination control algorithm based on energy of a doubly-fed induction wind power system, belonging to the technical field of wind power generation control. The invention divides the whole system into four subsystems in accordance with energy flow of the wind power system; a variable of each subsystem port is designed so as to determine the interconnection structure among the subsystems; the whole system ports are controlled by a Hamilton model in accordance with the internal structure of the subsystems and feedback interconnection among the subsystems; the expected equilibrium point of the system is set; control energy is determined by the deviation between expected energy of the system at the equilibrium point and the present energy; an energy matching equation is listed so as to solve the control variable and then the engine network side combination controller based on energy is achieved. The invention has clear physical significance, strong robustness and coordination control for the engine side power and the network side power of a converter. The invention not only realizes the respective control goal at engine side and network side preferably, but also improves dynamic control performance of direct voltage so as to reduce the demand to capacitance in the converter, saving the system cost and strengthening the reliability of the whole system.

Description

(1) Technical field [0001] The invention belongs to the technical field of wind power generation control, and specifically relates to a non-linear algorithm for realizing the unit-side and grid-side joint control of a doubly-fed induction wind power generation system from an energy-based viewpoint. (2) Background technology [0002] At present, with the large-scale development of grid-connected wind turbines, doubly-fed induction wind power generation systems have become the mainstream of mainframes due to their small excitation inverter capacity, large speed range, and independent adjustment of active and reactive power. At the same time, as a typical variable-speed constant-frequency power generation system, the machine-side control target of the doubly-fed induction wind power generation system changes with the wind speed. That is, below the rated wind speed, it is required to maintain the best tip speed ratio to achieve maximum wind energy capture; near the rated wind speed t...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02J3/38H02J1/02G06F17/50
Inventor 曲延滨宋蕙慧
Owner HARBIN INST OF TECH AT WEIHAI
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