Abstract
Wind-turbine main bearing has to withstand dynamic loads with different directions and different magnitudes in complex environments, and its stable operation has a vital impact on the performance of the entire wind turbine. Therefore, the fatigue strength test of wind turbine bearing is helpful to ensure the normal operation of the whole wind turbine. According to the actual force of main bearing in natural environment, this paper designed a large-scale wind-turbine bearing test bench to detect the deformation performance of the bearing. Through the establishment of the mechanical loading model, the simulation of the actual working conditions of main bearing is realized by the loading of the eight hydraulic cylinders of the test bench, and the radial and axial displacement of the test bearing under different wind conditions are recorded by displacement sensors. A number of temperature sensors are used to monitor the real-time temperature change of the bearing inner ring. The test results show that the loading effect of eight hydraulic cylinders can realize the force of wind turbine bearing under wind load, and the test bench can effectively detect wind-turbine bearings with a diameter of 2.5 m. The mechanical loading method and test results can provide guidance for further inspection of the wind-turbine bearing.
Highlights
Wind energy is a sustainable and renewable energy source
The bearing selected for testing in this study is the main bearing of a 2.5 MW wind turbine
Aiming at the lack of detection equipment for the main bearings of large wind turbines, this paper designs a real-time detection test bed based on the force status of the main bearings under actual working conditions
Summary
With the increase of global environmental pollution and the greenhouse effect, wind power technology is becoming the mainstream in current research [1,2,3]. Wind turbines are being developed and utilized on a large-scale due to their mature technology of energy conversion, low cost of power generation, and broad prospects for energy development [4,5,6]. The tower of the wind turbine is very high, and the working environment of the wind turbine is harsh [7, 8]. In order to improve the stability of the wind turbine at work and prolong the working life, the inspection and testing of the key parts of the wind turbine has important application value [11, 12]
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