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Thyristor medium-voltage direct current access-based doubly-fed wind power generation system and control method

A doubly-fed wind power generation and wind power generator technology, applied in the direction of generator control circuit, control system, control generator, etc., can solve the requirement of reducing rotor winding and slip ring brush capacity, rotor winding and slip ring brush design The difficulty is high, and the brush can hardly bear such high power and current, so as to avoid the excessive current of the brush, reduce the system cost, and reduce the loss effect

Pending Publication Date: 2022-03-25
NORTH CHINA ELECTRIC POWER UNIV (BAODING) +2
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] For wind turbines used in offshore DC wind farms, the permanent magnet direct drive wind power system has become the first choice for large-capacity offshore wind turbines because of its relatively simple control and easy maintenance, but the cost is high
[0004] For doubly-fed wind turbines that account for a large proportion of wind power generation, the increased difficulty of manufacturing high-power gearboxes is a constraint factor for large-capacity, but more critically, the design of the rotor side is usually The capacity will also increase (megawatt level), and the rotor side brush will be difficult to withstand such a large power and current during high-slip super-synchronous operation. The design of the rotor winding and slip ring brush is very difficult or even difficult to achieve. This has become the main factor limiting the application of doubly-fed models in offshore large-capacity wind turbines
[0005] Therefore, it is necessary to develop a new type of offshore doubly-fed wind power generation system with medium-voltage DC access and a wide-voltage-frequency range control method to reduce the slip rate and slip power in the full wind speed range, and reduce the rotor winding and slip ring brushes. Capacity requirements, and reduce the cost of the rotor converter, to a certain extent, to solve the bottleneck problem of doubly-fed machine large-scale

Method used

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  • Thyristor medium-voltage direct current access-based doubly-fed wind power generation system and control method
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  • Thyristor medium-voltage direct current access-based doubly-fed wind power generation system and control method

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Experimental program
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Effect test

Embodiment 1

[0034] Double-fed wind power generation system based on thyristor medium-voltage DC connection

[0035] Such as figure 1 As shown, the stator side of the double-fed wind turbine DFIG is connected to the stator side of the double-fed wind turbine DFIG through the rotor-side converter RSC and the stator-side grid-side converter GSC, and the stator side of the double-fed wind turbine DFIG is connected to the transformer On the low-voltage side, the thyristor rectifier is connected to the high-voltage side of the transformer;

[0036] The rotor-side converter RSC is used to adjust the stator flux linkage of the double-fed wind generator DFIG, and the thyristor rectifier is used to adjust the stator voltage of the double-fed wind generator DFIG.

[0037] figure 1 In , the meanings of each symbol are, u sabc ,i sabc: Stator three-phase voltage and current; u vabc ,i vabc : Three-phase voltage and current on the AC side of the thyristor; i rabc : rotor three-phase current; ω ...

Embodiment 2

[0043] Using the control method of the above-mentioned doubly-fed wind power generation system based on thyristor medium-voltage DC connection

[0044] Step 1: Obtain the stator and rotor currents and stator voltage of the double-fed wind turbine through the current sensor and voltage sensor; obtain the rotor speed of the double-fed wind turbine through the speed sensor;

[0045] Step 2: Obtain the current reference value of stator flux linkage, stator voltage frequency reference value and stator active power reference value according to the current wind force parameters and current rotor speed;

[0046] Step 3: According to the reference value of the stator flux linkage, the rotor voltage reference value is obtained through PI adjustment; according to the current stator voltage reference value, the trigger angle reference value of the thyristor rectifier (DC grid side converter) is obtained through PI adjustment;

[0047] Step 4: Based on the rotor voltage reference value, th...

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Abstract

The invention relates to a thyristor medium-voltage direct current access-based doubly-fed wind power generation system and a control method, the stator side of a doubly-fed wind generator (DFIG) is connected with the stator side of the doubly-fed wind generator (DFIG) through a rotor side converter (RSC) and a stator side network end converter (GSC), the stator side of the doubly-fed wind generator (DFIG) is connected with the low-voltage side of a transformer, and the stator side of the transformer is connected with the low-voltage side of the transformer. The thyristor rectifier is connected with the high-voltage side of the transformer; the rotor side converter (RSC) is used for adjusting the stator flux linkage of the double-fed wind generator (DFIG), and the thyristor rectifier is used for adjusting the stator voltage of the double-fed wind generator (DFIG). According to the invention, the stator voltage and the stator flux linkage can be effectively adjusted, the capacity requirements of the rotor winding and the slip ring brush are reduced, and the cost of the rotor converter is reduced.

Description

technical field [0001] The invention relates to a doubly-fed wind power generation system and a control method based on a thyristor medium-voltage DC connection. Background technique [0002] The development of new energy is an important measure to solve the energy crisis and achieve the goal of carbon neutrality in my country. Offshore wind power resources are sufficient and the utilization rate is high. Wind turbines are constantly developing towards large capacity. At present, many wind turbine manufacturers have developed 5-8MW wind turbines, and they are still developing to larger capacity units. [0003] For wind turbines used in offshore DC wind farms, the permanent magnet direct drive wind power system has become the first choice for large-capacity offshore wind turbines because of its relatively simple control and easy maintenance, but the cost is high. [0004] For doubly-fed wind turbines that account for a large proportion of wind power generation, the increased...

Claims

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Application Information

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IPC IPC(8): H02P9/00H02P9/30H02P101/15
CPCH02P9/007H02P9/305H02P2101/15Y02E10/76
Inventor 崔学深罗慧达刘其辉赵成勇崔存岗郭小江汤海雁申旭辉李铮
Owner NORTH CHINA ELECTRIC POWER UNIV (BAODING)
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