Abstract
Recently, the approaches based on source separation are increasingly adopted for the fault diagnosis in several industrial applications. In particular, Independent Component Analysis (ICA) method is attractive, thanks to its simplicity of implementation. In the context of electrical rotating machinery with a variable speed, namely the wind turbine type, the interaction between the electrical and mechanical parts along with the fault is complex. Therefore, the essential system variables are affected and it thereby requires to be analyzed in order to detect the presence of certain faults. In this paper, the target system is the classical association of a doubly-fed induction motor to a two stage gearbox for wind energy application system. The investigated mechanical fault is a uniform wear of two gear wheels for the same stage. The idea behind the proposed technique is to consider the fault detection and identification as a source separation problem. Based on the analysis into independent components, Fast–ICA algorithm is adopted to separate and identify the sources of the gear faults. Afterwards, a spectral analysis is applied on the signals resulting from the separation in order to identify the fault components related to the damaged wheels. The efficiency of the proposed technique for the separation and identification of the fault components is evaluated by numerical simulations.
Highlights
Wind power increasingly gain ground, thanks to its characteristics as an inexhaustible and clean source of energy, which has made it a privileged field of scientific research and technological development in the world
Recently, the approaches based on source separation are increasingly adopted for the fault diagnosis in several industrial applications
Afterwards, a spectral analysis is applied on the signals resulting from the separation in order to identify the fault components related to the damaged wheels
Summary
Wind power increasingly gain ground, thanks to its characteristics as an inexhaustible and clean source of energy, which has made it a privileged field of scientific research and technological development in the world. The vibratory signals collected during operation contain relevant informations which reflect several sources of faults relating to the speed multiplier itself and to those associated with the machine coupled with it. The fast temporal algorithm, known as Fast–ICA , has been adopted for the identification of gear faults because of its appealing characteristics: high convergence speed and low computational cost. This technique is interesting since it is relatively insensitive to the increase in the number of sources.
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