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A Yaw Control Method of Wind Farm Considering Generator Wake

A yaw control and wind farm technology, applied in the control of wind turbines, wind power generation, engines, etc., can solve the problems of reduced power generation of units, increased dynamic loads of units, difficulty in yaw control of wind farms, etc.

Active Publication Date: 2019-11-26
ZHEJIANG WINDEY
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Problems solved by technology

If a unit is not completely covered by free airflow, but is located in the wake path, the reduction in wind speed will lead to a reduction in the power generation of the unit; on the other hand, the increased wake and shear in the wake will result in a lower Increased dynamic load on wind turbines
[0004] In the current industrial practice, the existing technology controls the wind farm by adjusting the pitch and torque. The units in the wind farm still use the control method of each unit to maximize the power generation performance, ignoring the impact of the wake on other units.
The response of the entire wind farm system to the change of the control reference is quite slow, and the yaw control of the wind farm becomes more difficult due to the long delay of the airflow passing from one unit to another

Method used

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  • A Yaw Control Method of Wind Farm Considering Generator Wake
  • A Yaw Control Method of Wind Farm Considering Generator Wake
  • A Yaw Control Method of Wind Farm Considering Generator Wake

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Embodiment Construction

[0093] The present invention will be further described below in conjunction with the accompanying drawings.

[0094] refer to Figure 1 ~ Figure 4 , a wind farm yaw control method considering the wake flow of the wind farm, including the following steps:

[0095] Step 1: If figure 1 , according to the Jensen model, D i is the rotor diameter of wind turbine i, D w,i (x) is the wake diameter behind the wind turbine, D w,i (x j ) is the wake influence diameter of unit i at unit j, V wi (x,r,a i ) is the estimated wind speed at point (x,r). D. j is the rotor diameter of unit j, A j is the swept area of ​​the rotor of unit j, is the wake effect of unit i on the swept area A of the wind rotor of unit j j The section overlap area of ​​.

[0096] Step 2: If figure 1 , considering a single unit i, the estimated wind speed at the unit wake point (x,r) is:

[0097] V w,i (x,r,a i ) = V ∞ [1-δV w,i (x,r,a i )] (1)

[0098] The diameter of the wind wheel is D i , the ...

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Abstract

The invention discloses a wind power plant yaw control method considering unit wake flow. According to the set power PI real-time and wind energy capture coefficient (img file = 'DDA 0001660749860000011. TIF 'wi = '233 'he = '88 ') converting the electric power maximization problem of the wind farm into an optimal problem of solving the axial induction coefficient ai, the internal model of the wind power plant with the wind power plant wake flow effect can be predicted, the wind power plant yaw control method considering unit wake flow is guided by controlling the yaw wake flow deviation, thewake flow of the lower wind direction unit and the axial induction of the wind wheel, the yaw angle method of the wind turbine generator is adopted, and the generating capacity of the wind power plantis increased by reducing the interaction of the wake flow; only the lower wind direction adjacent unit is considered, the axial induction coefficient ai is subjected to iterative calculation, the mixing effect of the free air is achieved, the influence of wake flow attenuation is greatly reduced, and the calculation time of the induction coefficient ai is greatly shortened. According to the windpower plant yaw control method considering unit wake flow, the measurement result is accurate, the reliability is high, and the control effect is more ideal.

Description

technical field [0001] The invention relates to the technical field of wind power generation, in particular to a yaw control method of a wind farm considering the wake flow of a unit. Background technique [0002] At present, with the increase of the capacity of the wind farm, the interaction effect of the turbine wake in the wind farm has become an important field to study the control algorithm of the wind turbine. The topology and magnitude of wake interactions are based on time-varying atmospheric conditions (e.g. wind direction, wind speed, wake, atmospheric stability) and also on adjustable operating points for each unit (by changing control settings, e.g. generator torque, pitch angle, yaw angle, etc.). [0003] A wake is an airflow structure that has the characteristic of reducing wind speed as the turbine rotor absorbs dynamic energy from the incoming airflow and increases the wake as the turbine blocks the airflow. The units in the wind farm can affect the perform...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F03D7/04
CPCF03D7/0204F03D7/045Y02E10/72
Inventor 柳黎明史晓鸣吴海列
Owner ZHEJIANG WINDEY
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