Abstract
The usage of machine learning techniques is widely spread and has also been implemented in the wind industry in the last years. Many of these techniques have shown great success but need to constantly prove the expectation of functionality. This paper describes a new method to monitor the health of a wind turbine using an undercomplete autoencoder. To evaluate the health monitoring quality of the autoencoder, the number of anomalies before an event has happened are to be considered. The results show that around 35% of all historical events that have resulted into a failure show many anomalies. Furthermore, the wind turbine subsystems which are subject to good detectability are the rotor system and the control system. If only one third of the service duties can be planned in advance, and thereby the scheduling time can be reduced, huge cost saving potentials can be seen.
Highlights
One of the major economic impacts on the Levelized Cost of Energy (LCOE) of offshore WindTurbines (WTs) is due to the Operation and Maintenance (O&M), which is considered to have a share between 25% and 30% according to Lei et al [1]
This paper aims to evaluate the anomalies generated by a Normal Behaviour Model (NBM) before a failure has occurred at the WT
This paper aims at overcoming this issue
Summary
Turbines (WTs) is due to the Operation and Maintenance (O&M), which is considered to have a share between 25% and 30% according to Lei et al [1]. Different strategies exist to reduce the LCOE by reducing the percentage of O&M-cost. An overview of those strategies is given in Wang [2]. This paper focuses on implementing and evaluating a tool for a possible predictive maintenance strategy. By detecting failures in advance, the WT downtimes can be reduced. This will have a direct impact on the LCOE. Other approaches consider transition probabilities, while others focus on statistics to calculate values for the
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