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Directly-drive wind power generation system composed of high temperature superconductive excitation magnetic flux switchover motor

A technology for magnetic flux switching motors and wind power generation systems, which is applied in the direction of controlling generators through magnetic field changes, and can solve the difficulties of unit transportation, installation, bulkiness, and the difficulty of adding full-power bidirectional PWM grid-connected converters. High-power power electronics Devices and other issues

Inactive Publication Date: 2015-05-13
CHINA UNIV OF PETROLEUM (EAST CHINA)
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The technical problem to be solved by the present invention is: the existing large-scale permanent magnet direct drive wind power generator is bulky and heavy, which makes the transportation and installation of the unit difficult; moreover, it is difficult to adjust the air gap magnetic field of the permanent magnet direct drive generator, and its output voltage The large fluctuation with the wind speed increases the control difficulty of the full-power two-way PWM grid-connected converter and the cost of the high-power power electronic devices used; it is necessary to overcome the disadvantages of the existing permanent magnet direct drive wind power generation system, which can Direct drive wind power generation system with high power density, high efficiency, convenient control and stable operation

Method used

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  • Directly-drive wind power generation system composed of high temperature superconductive excitation magnetic flux switchover motor
  • Directly-drive wind power generation system composed of high temperature superconductive excitation magnetic flux switchover motor

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Embodiment Construction

[0014] Such as figure 1 , the present invention includes a wind turbine 1, a high temperature superconducting excitation flux switching motor 2, an uncontrollable rectifier module 3, a battery pack module 4, a DC conversion module 11, an inverter module 5, a grid-connected transformer 6, and an operation mode control module 10 and the central control unit 9, the wind turbine 1 is connected to the HTS excitation flux switching motor 2, the uncontrollable rectifier module 3, the battery pack module 4, and the inverter module 5 are connected to the HTS excitation flux switching motor 2 and the parallel Between the network transformers 6, the DC conversion module 11 is connected across the two ends of the battery pack module 4, the operation mode control module 10 is connected between the HTS excitation flux switching motor 2 and the battery pack module 4, and the central control unit 9 is respectively connected to battery pack module 4, inverter module 5, wind turbine 1, operatio...

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Abstract

The invention provides a directly-drive wind power generation system composed of a high temperature superconductive excitation magnetic flux switchover motor. The directly-drive wind power generation system comprises a wind turbine, a high temperature superconductive excitation magnetic flux switchover motor, an uncontrollable rectifier module, a battery pack module, a direct current converter module, an inverter module, a grid-connected transformer, an operation mode control module and a central control unit. The directly-drive wind power generation system is small in volume, light in weight, high in efficiency, multiple in operation mode and good in an adaptability; as the high temperature superconductive excitation magnetic flux switchover motor is adopted as a generator, the characteristics that a high temperature superconductive winding is adaptive to a direct current is brought into play, and the rotational connection necessary for a conventional rotor excitation type high temperature superconductive motor is avoided; the directly-drive wind power generation system is simple in structure; a generator stator adopts a modularization structure, thereby being convenient for transportation and on-site installation; as the directly-drive wind power generation system can run in a switch magnetic reluctance motor generation mode, the phenomenon of quench of the high temperature superconductive material is prevented effectively; and the reliability of the system is improved effectively.

Description

technical field [0001] The invention belongs to the technical field of wind power generation, and relates to a direct-drive wind power generation system composed of high-temperature superconductors. Background technique [0002] As the whole society continues to pay attention to energy and environmental issues, the development and utilization of renewable energy is showing a trend of accelerated development. Wind energy, as one of the most mature renewable energy sources with the most mature development and application technology mastered by human beings, plays an important role in the sustainable development of society and economy by virtue of its advantages of large amount of development, wide distribution area, safety and environmental protection. Looking at the wind power generation systems that have been put into operation and are being developed at home and abroad, they can basically be classified into two categories. The first type is a high-speed wind power system w...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02P9/14
Inventor 王玉彬孙建鑫孙永兴
Owner CHINA UNIV OF PETROLEUM (EAST CHINA)
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