Energy-storage system-based self-starting control method for double-fed induction generator

A doubly-fed asynchronous wind power and energy storage system technology, which is applied in motor generator control, electronic commutation motor control, wind power generation, etc.

Active Publication Date: 2015-12-09
SOUTHEAST UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

This patent proposes a doubly-fed asynchronous wind turbine self-starting control technology based on an energy storage system, so that the doubly-fed asynchronous wind turbine can be self-started under the condition of grid-side voltage loss, so that it is possible to participate in the black start after a blackout process

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  • Energy-storage system-based self-starting control method for double-fed induction generator
  • Energy-storage system-based self-starting control method for double-fed induction generator
  • Energy-storage system-based self-starting control method for double-fed induction generator

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Embodiment

[0054] Embodiment: The present invention will be described in detail below by taking the stand-alone system of a double-fed asynchronous wind turbine as an embodiment.

[0055] Such as figure 2 As shown, the doubly-fed asynchronous wind turbine operates in an island without voltage support on the grid side, and realizes self-starting and load operation. Among them, the rated voltage of the wind turbine is 575V, the rated capacity is 1.5MVA, and the rated frequency is 50HZ. The rated power of the stand-alone system with inductive load is 0.6MW, and the rated reactive power of the capacitor providing reactive support at the machine end is 0.5Mvar. The rotor resistance of double-fed asynchronous wind turbine is R r =0.016pu, rotor reactance L r =0.16pu; Stator resistance is R s =0.023pu, the stator reactance is L s =0.18pu; excitation reactance is L m =2.9pu; the inertia coefficient is H=0.09526; the line resistance of the grid-side converter is R g =0.003pu, incoming lin...

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Abstract

The invention discloses an energy-storage system-based self-starting control method for a double-fed induction generator. The control method particularly comprises the steps as follows: (1) when a power network is in a low-voltage fault, a self-starting controller of the double-fed induction generator cuts off a network side load; an energy-storage system is merged into two ends of a direct-current capacitor; the energy-storage system charges the direct-current capacitor; and the control system adopts a PV voltage control strategy; (2) after network side voltage reaches the control range of rated voltage, a system load is connected; meanwhile, a frequency controller is started; the self-starting frequency of the generator is further controlled to ensure that the frequency of the system is stabilized within the rated frequency; and (3) after the controller detects stable frequency and voltage of the system, the system stably runs, cuts off the energy storage system, and is converted into a PQ power control mode to stably run; and the self-starting process of the generator is ended. Under the direct-current voltage support of the energy storage system, self-starting and running with the load of the generator are achieved; and stable voltage and frequency are ensured.

Description

technical field [0001] The invention relates to the operation control technology of a wind turbine, in particular to a self-starting control method for a doubly-fed asynchronous wind turbine based on an energy storage system. Background technique [0002] With the continuous improvement of the interconnection degree of the power grid, the structure of the power grid is becoming more and more complex, coupled with the use of long-distance power transmission, the impact load increases, and the security and stability of the power system are greatly challenged. Although the economy and reliability of power system operation have been greatly improved in recent years, it is still difficult to avoid large-scale power outages that may occur when severe faults occur. Therefore, after a major blackout occurs, backup energy needs to participate in the black start process of the system. [0003] Because the double-fed generator set (Double-Fed Induction Generator, referred to as DFIG) ...

Claims

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Application Information

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IPC IPC(8): H02J3/28H02J3/38H02P21/00
CPCY02E10/76Y02E70/30
Inventor 蒋平冯士睿
Owner SOUTHEAST UNIV
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