Open Access
The transmission characteristic for the improved wind turbine gearbox
Author(s) -
Fan Zhixin,
Zhu Caichao,
Li Xiuhe,
Liang Chengcheng
Publication year - 2019
Publication title -
energy science and engineering
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.638
H-Index - 29
ISSN - 2050-0505
DOI - 10.1002/ese3.356
Subject(s) - pinion , turbine , torque , wind speed , vibration , power (physics) , wind power , rotational speed , transmission (telecommunications) , engineering , automotive engineering , maximum power principle , control theory (sociology) , marine engineering , mechanical engineering , acoustics , computer science , electrical engineering , physics , voltage , control (management) , quantum mechanics , rack , artificial intelligence , meteorology , thermodynamics
Abstract The structure of an improved wind turbine gearbox is presented for meeting the operation of the optimized wind turbine power‐wind speed curve ( P ‐ v curve). When the wind speed is lower than the cut‐in wind speed, the operation mode of the wind turbine is changed by the extra power, which is supplied by the motor excited source to keep the wind turbine running. Moreover, the transmission principle of the improved wind turbine gearbox is discussed. Various motor power impacts on the transmission characteristic for the improved transmission structure are investigated and results are compared with the professional software. Results indicate that as the motor power increases, the transverse vibration of sun gears and meshing forces of the low‐speed and medium‐speed planetary stages decreases. The transverse vibration for the pinion gear of the high‐speed stage enhances with the increase of the motor power. Load‐sharing coefficients of the planetary gear stages are augmented with the enlargement of the motor power. It is found that meshing forces of the torque‐implement parallel stage are increased with augmentation of the motor power.