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Wind wave joint action offshore wind power generation set vibration performance test system

A wind turbine, combined action technology, applied in wind turbine components, wind turbines, wind power generation and other directions, can solve the problems of disconnecting the actual operation of theoretical research results, restricting the design method of offshore wind turbines, etc., to achieve reliable performance, Reasonable structure and high work efficiency

Inactive Publication Date: 2014-01-22
NORTHEAST DIANLI UNIVERSITY
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AI Technical Summary

Problems solved by technology

The current research methods are limited to theoretical research on the vibration characteristics of offshore wind turbines under combined wind and wave action. Due to the complexity of the actual operation of offshore wind turbines, the theoretical research results are out of touch with the actual operation, which in turn restricts offshore wind power generation. unit design method

Method used

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  • Wind wave joint action offshore wind power generation set vibration performance test system
  • Wind wave joint action offshore wind power generation set vibration performance test system
  • Wind wave joint action offshore wind power generation set vibration performance test system

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Embodiment Construction

[0024] specific implementation plan

[0025] The present invention will be described in more detail below in conjunction with the accompanying drawings and specific examples.

[0026] refer to figure 1 —8, a kind of combined effect of wind and wave of the present invention Offshore wind turbine vibration characteristic test system, it comprises wave water source supply control system 1, wave vortex formation control system 2, wave motion formation control system 3, sea wind simulation control system 4, test Model system 5, test space system 6 and test test system 7, between the inner shell 100 and the outer shell 99 of the test space system 6, a wave water source supply control system 1 connected to the inner shell 100, a wave motion formation control system 3, The sea wind simulation control system 4 is equipped with a wave vortex formation control 2 , an experimental model system 5 and an experimental testing system 7 in the inner shell 100 .

[0027] The wave water source...

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Abstract

The invention relates to a wind wave joint action offshore wind power generation set vibration performance test system which is characterized by comprising a wave water source supply control system, a wave vortex forming control system, a wave motion forming control system, a sea wind simulation control system, a test model system, a test space system and a test testing system. The wave water source supply control system, the wave motion forming control system and the sea wind simulation control system which are connected with an inner casing are arranged between the inner casing and an outer casing of the test space system. The wave vortex forming control system, the test model system and the test testing system are arranged in the inner casing. A motor control technology can be utilized to achieve rotating wave simulation. Electric hydraulic control is utilized to achieve all-dimensional wave motion to form force simulation and advancing direction controllability. An electric control technology is utilized to achieve sea wind speed and direction simulation. Water supply automatic control is achieved. The test system is reasonable in structure, reliable in performance and high in working efficiency.

Description

technical field [0001] The invention relates to the field of offshore wind power generators, in particular to a vibration characteristic test system for wind and wave combined action offshore wind power generators. Background technique [0002] my country's offshore wind resources are abundant. Compared with inland wind farms, offshore wind farms have the advantages of high wind speed, stable ocean style, and flat sea surface. They will surely become an important source of energy for the sustainable development of my country's eastern coastal areas. However, offshore wind power has its own special technical difficulties. Offshore wind turbines are subject to the combined effects of wind and wave forces at the same time, resulting in the complexity of the wind turbine's air and wave dynamic response, which in turn affects the stable performance of offshore wind turbines and has a negative impact on the operation of offshore wind turbines. The grid connection of wind power and...

Claims

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Application Information

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IPC IPC(8): F03D11/00
CPCY02E10/722
Inventor 祝贺李娜刘春城
Owner NORTHEAST DIANLI UNIVERSITY
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