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Control method for compensating electromagnetic torque to realize quick and smooth tracking of maximum wind energy

A technology of electromagnetic torque and control method, which is applied in the control of wind turbines, wind power generation, wind turbines, etc., can solve the problems of insufficient rapidity and stability, and achieve rapidity improvement, reduced energy loss, and high rapidity and the effect of stability

Inactive Publication Date: 2014-01-01
SOUTHEAST UNIV
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Problems solved by technology

Since the principle of this method is similar to the power feedback method, the defects of this method are basically the same as those of the power feedback method, that is, the influence of wind speed on the rapidity and stability of the system, which will not be described here; The commonly used maximum power point capture method generally has the problem of insufficient speed and stability, so it is necessary to propose a control method that improves the speed and stability of the maximum wind energy tracking system

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  • Control method for compensating electromagnetic torque to realize quick and smooth tracking of maximum wind energy
  • Control method for compensating electromagnetic torque to realize quick and smooth tracking of maximum wind energy
  • Control method for compensating electromagnetic torque to realize quick and smooth tracking of maximum wind energy

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Embodiment Construction

[0014] Such as figure 1 As shown, the system uses voltage and current sensors to detect the DC bus voltage and stator current, and then calculates the current flux linkage and electromagnetic torque values ​​through the flux linkage observation torque calculation module 4. The actual rotational speed signal obtains the preliminary electromagnetic torque set value through the optimal torque curve module 7, and on this basis, torque compensation is added to obtain the final electromagnetic torque set value. The given value of electromagnetic torque and flux linkage and the calculated value of current electromagnetic torque and flux linkage are passed through hysteresis comparator 1, and the output result is input into switch table 2 to determine the switch state, thereby controlling the space vector of the stator to Drive the permanent magnet synchronous motor 5. Among them, the design of the torque compensation module 6 is as follows: First, since the electromagnetic torque in...

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Abstract

The invention discloses a control method for compensating electromagnetic torque to realize quick and smooth tracking of the maximum wind energy of a wind turbine. By virtue of compensation of the electromagnetic torque, the rotor response speed is controlled, so that the quick and smooth tracking of the maximum wind energy of the wind turbine is realized. The design process of a torque compensating link comprises the following steps: firstly, as in a steady state, the electromagnetic torque needs to correspond to a value of a best torque curve under the current speed, initially determining the functional form Kc*(Tm-Te<*>) of the electromagnetic torque compensating link, then applying a small-signal analysis method and Laplace to transform and obtain the functional form, thereby determining the functional relationship of rotor response speed and wind speed; and then according to the relationship of the rotor response speed and the wind speed, designing the mathematical expression of a compensation factor Kc in the electromagnetic torque compensating link, so as to eliminate the influence of the wind speed Vm on the rotor response speed; and finally, on the basis of eliminating the influence of the wind speed on the rotor response speed, determining the value of a parameter in the compensation factor mathematical expression by virtue of emulation, so that the rotor response speed reaches an appropriate value.

Description

Technical field [0001] The invention is a control technology for realizing the rapid and stable tracking of maximum wind energy by electromagnetic torque compensation, and belongs to the technical field of motor drive and control. Background technique [0002] Variable-speed wind power systems currently generally use maximum wind energy tracking control. The core of this control method is to capture the maximum power point of the wind power system. Due to the randomness of wind speed and the nonlinearity of the wind power system, it is difficult to capture the maximum power point, which is also one of the hot issues of wind power generation. There are many traditional methods for capturing the maximum power point. The most practical applications include hill climbing search method, power feedback method, and optimal torque method. The principle of the hill-climbing search method is to artificially impose the change in the rotation speed disturbance, and determine the control inc...

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Application Information

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IPC IPC(8): F03D7/04
CPCY02E10/723Y02E10/72
Inventor 樊英夏子朋张丽顾玲玲
Owner SOUTHEAST UNIV
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