Transmission Scheme Design of Gearbox for 15MW Offshore Semi-direct-driven Wind Turbine

Author:

Chi Zhipeng,Gao Qingfeng

Abstract

In order to further improve the reliability of wind turbine operation, reduce manufacturing, installation and maintenance costs, and make the size of the gearbox further reduced, in this paper, the gear box design of 15MW offshore semi-direct-driven wind turbine is studied. First, analyze the development trend and demand, draw up the basic transmission plan, then, carry on the gear structure design, use the software modeling, the motion analysis and carry on the check, the life analysis, finally, the design of sealing mode, design box, end cover structure, determine the fastener, connection, design of dust-proof program and design of lubrication. This reduces the weight and volume of the main engine of the medium-speed transmission mechanism of the wind turbine. The obvious benefits are lower overall load, lower difficulty in manufacturing, transportation and installation, lower cost and controllable technology, the market prospects are broad and competitive.

Publisher

Darcy & Roy Press Co. Ltd.

Reference16 articles.

1. Xia Yunfeng. The wind-driven plateau, set sail from here-to find out the secret of the success of the First Plateau Demonstration Wind Power Project [J] . Wind power, 2020, (03) : 16-19.

2. Tang Zhen, Wang Bing, Liu Weiyang, Cao Zhijie. Study on interference suppression of offshore wind turbines based on internal model principle [J] . Electric power automation equipment, 2020,40(03) : 93-99.

3. Zhang Ping, Wu Xianteng, Zhao Xinhe, Zhang Wenhai, Liu Ning. Transient analysis of offshore wind turbine lightning based on ATP-EMTP [J] . High-voltage technology, 2020,46(12) : 4266-4273.

4. Song Wenjing, Xie Yuan, Huang Wenjun, Li Rongshuang. A variable pitch control strategy for wind turbine based on improved ADRC [J] . Science, technology and engineering, 2020,20

5. (07) : 2719-2726.Wang Miao, Du Wei, Sun Hongbo, et al. Transmission Line Fault Diagnosis Method Based on Infrared Image Recognition [J]. Infrared Technology, 2017, 39(04): 383-386.

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