Blade imbalanced fault diagnosis for marine current turbine based on sparse autoencoder and softmax regression

Because of the abundance of seston under the sea, the attachment on the blade of the marine current turbine (MCT) would cause imbalanced fault. In order to detect the imbalanced fault as soon as possible, an imbalanced fault characteristics analysis method is applied based on image processing. A diagnosis method combining the modified sparse autoencoder (SA) and softmax regression (SR) is applied to process images and detect the imbalanced fault on the blade of MCT. The modified SA is used to extract the features and SR is used to classify them. The data of images are used to monitor whether the blade is attached by benthos and its corresponding degree of imbalance. Experiments show that the applied diagnosis method can achieve higher accuracy in the application of diagnosis of blade imbalanced fault compared with the traditional PCA feature extraction algorithm.

[1]  Wei Qiao,et al.  Imbalance Fault Detection of Direct-Drive Wind Turbines Using Generator Current Signals , 2012 .

[2]  Jai N. Goundar,et al.  Marine current energy resource assessment and design of a marine current turbine for Fiji , 2012 .

[3]  Darong Chen,et al.  Progress of marine biofouling and antifouling technologies , 2011 .

[4]  M. E. H. Benbouzid,et al.  Fault-Tolerant Control Performance Comparison of Three- and Five-Phase PMSG for Marine Current Turbine Applications , 2013, IEEE Transactions on Sustainable Energy.

[5]  Philippe Blondel,et al.  A Self-Contained Subsea Platform for Acoustic Monitoring of the Environment Around Marine Renewable Energy Devices–Field Deployments at Wave and Tidal Energy Sites in Orkney, Scotland , 2016, IEEE Journal of Oceanic Engineering.

[6]  Mariusz Malinowski,et al.  Medium-Voltage Power Converter Interface for Multigenerator Marine Energy Conversion Systems , 2017, IEEE Transactions on Industrial Electronics.

[7]  Mohamed Benbouzid,et al.  A review of energy storage technologies for marine current energy systems , 2013 .

[8]  Xuefeng Chen,et al.  Fault Diagnosis for a Wind Turbine Generator Bearing via Sparse Representation and Shift-Invariant K-SVD , 2017, IEEE Transactions on Industrial Informatics.

[9]  Mohamed Benbouzid,et al.  An imbalance fault detection method based on data normalization and EMD for marine current turbines. , 2017, ISA transactions.

[10]  Wei Qiao,et al.  Imbalance Fault Detection of Direct-Drive Wind Turbines Using Generator Current Signals , 2012, IEEE Transactions on Energy Conversion.