Hasmat Malik scite author profile

In this study, an artificial neural network (ANN) and empirical mode decomposition (EMD) based condition monitoring approach of a wind turbine using Simulink, FAST (fatigue, aerodynamics, structures and turbulence) and TurbSim is presented. The complete dynamics of a permanent magnet synchronous generator (PMSG) based wind turbine [i.e. wind turbine generator (WTG)] model is simulated in an amalgamated domain of Simulink, FAST and TurbSim under six distinct conditions, i.e. aerodynamic asymmetry, rotor-furl imbalance, tail-furl imbalance, blade imbalance, nacelle-yaw imbalance and normal operating scenarios. The simulation results in time domain of the PMSG output stator current are decomposed into the intrinsic mode functions using EMD method then RapidMiner-based principal component analysis method is used to select most relevant input variables. An ANN model is then proposed to differentiate the normal operating scenarios from five fault conditions. The analysed results proclaim the effectiveness of the proposed approach to identify the different imbalance faults in WTG. The presented work renders initial results that are helpful for online condition monitoring and health assessment of WTG.

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Optimal Design of Power Transformer Using Genetic Algorithm

Khatri

Malik

Rahi

2012

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Application of neuro-fuzzy scheme to investigate the winding insulation paper deterioration in oil-immersed power transformer

Malik

Yadav

Mishra

et al. 2013

International Journal of Electrical Power & Energy Systems

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Hasmat Malik

Selection of most relevant input parameters using WEKA for artificial neural network based solar radiation prediction models

Artificial neural network and empirical mode decomposition based imbalance fault diagnosis of wind turbine using TurbSim, FAST and Simulink

Optimal Design of Power Transformer Using Genetic Algorithm

Application of neuro-fuzzy scheme to investigate the winding insulation paper deterioration in oil-immersed power transformer

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