An Artificial Neural Network Approach for Early Fault Detection of Gearbox Bearings
Journal article, 2015
Gearbox has proven to be a major contributor
toward downtime in wind turbines. The majority of failures
in the gearbox originate from the gearbox bearings. An
early indication of possible wear and tear in the gearbox
bearings may be used for effective predictive maintenance,
thereby reducing the overall cost of maintenance. This paper
introduces a self-evolving maintenance scheduler framework
for maintenance management of wind turbines. Furthermore,
an artificial neural network (ANN)-based condition monitoring
approach using data from supervisory control and data acquisition
system is proposed. The ANN-based condition monitoring
approach is applied to gearbox bearings with real
data from onshore wind turbines, rated 2 MW, and located
in the south of Sweden. The results demonstrate that the proposed
ANN-based condition monitoring approach is capable of
indicating severe damage in the components being monitored
in advance.
wind power generation.
condition monitoring system (CMS)
smart grid
maintenance management
Artificial neural networks (ANN)
supervisory control and data acquisition systems (SCADAs)
Author
Pramod Bangalore
Chalmers, Energy and Environment, Electric Power Engineering
Swedish Wind Power Technology Center (SWPTC)
Lina Bertling
Royal Institute of Technology (KTH)
IEEE Transactions on Smart Grid
1949-3053 (ISSN) 19493061 (eISSN)
Vol. 6 2 980-987 7012091Driving Forces
Sustainable development
Areas of Advance
Energy
Subject Categories
Electrical Engineering, Electronic Engineering, Information Engineering
DOI
10.1109/TSG.2014.2386305