Fault voltage ride-through control method and system for doubly-fed wind generator

A wind turbine, fault voltage technology, applied in wind power generation, AC network voltage adjustment, reducing/preventing power oscillation, etc., can solve the problems of inability to achieve high and low voltage ride-through, single fault ride-through, and complexity at the same time, Achieve the effect of improving fault ride-through capability, intuitive and concise analysis method, and assisting grid voltage recovery

Active Publication Date: 2021-06-04
SHANDONG UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Although this high-voltage ride-through method can meet the requirements of the wind power grid-connected code for the high-voltage ride-through capability of the unit during the voltage increase process, the implementation is relatively cumbersome, and the control mode needs to be switched based on the calculated overvoltage criterion.
[0006] The inventor believes that the above-mentioned schemes propose different solutions for the fault ride-through of wind turbines, but they all have certain limitations, that is, only a single fault ride-through can be achieved, and the two goals of high and low voltage ride-through cannot be achieved at the same time. The unification of control strategies during voltage swells and sags is relatively complex, or requires coordinated control with the power grid, or requires control mode switching, and the economic cost is higher

Method used

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  • Fault voltage ride-through control method and system for doubly-fed wind generator
  • Fault voltage ride-through control method and system for doubly-fed wind generator
  • Fault voltage ride-through control method and system for doubly-fed wind generator

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Embodiment 1

[0041] This embodiment provides a doubly-fed wind power generator fault voltage ride-through control method, such as figure 1 As shown, the stator of the doubly-fed asynchronous wind turbine is directly connected to the grid, and the rotor is connected to the grid through a back-to-back three-phase two-level voltage type converter. According to its position, it is divided into grid-side converter (GSC) and rotor-side converter ( RSC); use the rotor-side converter to realize the power control of the doubly-fed asynchronous wind turbine and provide reactive power support during the fault ride-through process. Such as figure 2 shown, including:

[0042] S1: Obtain the three-phase current of the doubly-fed wind turbine rotor, and obtain the DC component i after coordinate transformation of the three-phase current rd with i rq ;

[0043] S2: Obtain the d-axis current command value according to the dynamic voltage command value

[0044] S3: Obtain the q-axis current command ...

Embodiment 2

[0086] This embodiment provides a doubly-fed wind power generator fault voltage ride-through control system, including:

[0087] The data acquisition module is configured to acquire the three-phase current of the doubly-fed wind turbine rotor, and obtain the DC component after coordinate transformation of the three-phase current;

[0088] The first command processing module is configured to obtain the d-axis current command value according to the dynamic voltage command value;

[0089] The second command processing module is configured to obtain the q-axis current command value based on the active power command value of the maximum wind energy tracking control;

[0090] The control module is configured to adjust the DC component, the d-axis current command value and the q-axis current command value through the current loop to obtain a modulation signal, and generate a drive signal for the switching tube of the rotor-side converter according to the modulation signal, so as to c...

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Abstract

The invention discloses a fault voltage ride-through control method and system for a doubly-fed wind generator, and the method comprises the steps: obtaining a three-phase current of a doubly-fed wind generator rotor, and carrying out the coordinate transformation of the three-phase current, and obtaining a DC component; obtaining a d-axis current instruction value according to the dynamic voltage instruction value; obtaining a q-axis current instruction value based on the active instruction value of the maximum wind energy tracking control; and performing current loop adjustment on the direct current component, the d-axis current instruction value and the q-axis current instruction value to obtain a modulation signal, and generating a driving signal of a rotor side converter switching tube according to the modulation signal so as to control fault voltage ride-through of the doubly-fed wind generator. A control voltage instruction value can be dynamically changed so as to realize reactive power exchange between a wind turbine generator and a power grid, and the high-voltage and low-voltage fault ride-through capability of the double-fed asynchronous wind generator DFIG is improved.

Description

technical field [0001] The invention relates to the technical field of wind power generator converter control, in particular to a doubly-fed wind power generator fault voltage ride-through control method and system. Background technique [0002] The statements in this section merely provide background information related to the present invention and do not necessarily constitute prior art. [0003] In recent years, with the continuous increase of the proportion of wind power in the power grid, the installed capacity of wind power has reached a relatively high level. If the wind turbines do not have a certain ability to resist grid faults, passive protection solutions are still adopted when the grid voltage fails. It will increase the difficulty of fault recovery of the entire system, and may even worsen the safety and stability of the power grid, which will eventually cause a chain reaction and cause the system to collapse. Therefore, effective control measures must be taken...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02J3/50H02J3/38H02J3/24H02J3/16
CPCH02J3/50H02J3/38H02J3/24H02J3/16Y02E10/76Y02E40/30
Inventor 王辉王艺霏王腾鑫邢阳刘畅
Owner SHANDONG UNIV
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