This thesis predicts the accidental damage and remaining life of the wind turbine drive chain, and provides a reliable reference basis for unit maintenance personnel to avoid offline shutdown costs to the greatest extent, so that the wind turbine operation process can be more complete. This study is supplemented by numerical models, stresses, and fatigue theory to calculate the remaining life of helical gearbox components such as bearings and gears, and then refer to the historical data of Taiwan's wind farms to roughly estimate the service life of wind turbines built in Taiwan. The results of this study can be used to successfully calculate the monthly and annual fatigue damage scores of gears and bearings using specific wind turbine models and drive chain specifications, combined with the characteristics of the wind field in Taiwan. The advantage of this life prediction method is that it can deal with wind farms and wind turbines with different characteristics and specifications, and obtain relatively reliable life prediction basis. Readers can use the life prediction model proposed in this study to perform numerical simulation, and actuate the component dynamic behavior of any drive chain specification at any wind speed, and calculate fatigue damage. Readers can also imitate this study result, organize the historical wind field and fatigue damage into a box diagram, and summarize the fatigue damage trend to roughly estimate the drive chain life in similar wind field distribution for the unit maintenance personnel.