Adaptive Sliding Mode Control for a Double Fed Induction Generator Used in an Oscillating Water Column System

Adaptive Sliding Mode Control for a Double Fed Induction Generator Used in an Oscillating Water Column System

Wave power conversion systems are nonlinear dynamical systems that must endure strong uncertainties. Efficiency is a key issue for these systems, and the application of robust control algorithms can improve it considerably. Wave power generation plants are typically built using variable speed genera...

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Bibliographic Details
Published in:Energies (Basel) Vol. 11; no. 11; p. 2939
Main Authors: Barambones, Oscar, Gonzalez de Durana, Jose, Calvo, Isidro
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-11-2018
Subjects:
adaptive SMC
Air flow
Alternative energy sources
Design
DFIG
Electric power
Flow coefficients
Induction generators
lyapunov methods
Ocean waves
Power plants
Pressure drop
renewable energy
Sliding mode control
Turbines
Water circulation
Water column
Wave energy
Wave power
Wells turbines
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Summary:Wave power conversion systems are nonlinear dynamical systems that must endure strong uncertainties. Efficiency is a key issue for these systems, and the application of robust control algorithms can improve it considerably. Wave power generation plants are typically built using variable speed generators, such as the doubly fed induction generator (DFIG). These generators, compared with fixed speed generators, are very versatile since the turbine speed may be adjusted to improve the efficiency of the whole system. Nevertheless, a suitable speed controller is required for these systems, which must be able to avoid the stalling phenomenon and track the optimal reference for the turbine. This paper proposes a sliding mode control scheme aimed at oscillating water column (OWC) generation plants using Wells turbines and DFIGs. The contributions of the paper are (1) an adaptive sliding mode control scheme that does not require calculating the bounds of the system uncertainties, (2) a Lyapunov analysis of stability for the control algorithm against system uncertainties and disturbances, and (3) a validation of the proposed control scheme through several simulation examples with the Matlab/Simulink suite. The performance results, obtained by means of simulations, for a wave power generation plant (1) evidence that this control scheme improves the power generation of the system and (2) prove that this control scheme is robust in the presence of disturbances.
ISSN:1996-1073
1996-1073
DOI:10.3390/en11112939