Tidal stream turbine control: An active disturbance rejection control approach
BEN ELGHALI, Seifeddine
Aix Marseille Université [AMU]
Laboratoire d'Informatique et des Systèmes (LIS) (Marseille, Toulon) [LIS]
Pronostic-Diagnostic Et CommAnde : Santé et Energie [PECASE]
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Aix Marseille Université [AMU]
Laboratoire d'Informatique et des Systèmes (LIS) (Marseille, Toulon) [LIS]
Pronostic-Diagnostic Et CommAnde : Santé et Energie [PECASE]
BEN ELGHALI, Seifeddine
Aix Marseille Université [AMU]
Laboratoire d'Informatique et des Systèmes (LIS) (Marseille, Toulon) [LIS]
Pronostic-Diagnostic Et CommAnde : Santé et Energie [PECASE]
< Réduire
Aix Marseille Université [AMU]
Laboratoire d'Informatique et des Systèmes (LIS) (Marseille, Toulon) [LIS]
Pronostic-Diagnostic Et CommAnde : Santé et Energie [PECASE]
Langue
en
Article de revue
Ce document a été publié dans
Ocean Engineering. 2020-03-04, vol. 202, p. 107190
Elsevier
Résumé en anglais
As an emerging technology to harness the marine current energy, tidal stream turbine (TST) systems have been developed due to high predictability and energy density in tidal current resources. However, considering that ...Lire la suite >
As an emerging technology to harness the marine current energy, tidal stream turbine (TST) systems have been developed due to high predictability and energy density in tidal current resources. However, considering that various challenges such as swell disturbances, unknown disturbances, or parameter uncertainties may deteriorate the system performance, it is interesting to investigate alternative control strategies to the conventional proportional-integral (PI) controls. In this paper, the active disturbance rejection control (ADRC) approach is proposed to replace PI controllers in the conventional generator-side control scheme. In this approach, two ADRC schemes (cascaded and second-order ADRC strategies) are respectively applied and compared to achieve MPPT under current velocity and turbine torque disturbances. Performances of the proposed ADRC approaches are compared to PI and sliding mode control strategies. Energy production during swell wave disturbance is also evaluated under these control strategies. The comparisons show that the cascaded ADRC has better performance than the second-order approach. Moreover, the cascaded ADRC is tested under parameter variations to evaluate its robustness. The carried out simulation-based comparative study shows the effectiveness and advantages of the cascaded ADRC strategy over conventional PI controller in terms of fast convergence, overshoots elimination, and improved robustness under disturbances and parameter uncertainties.< Réduire
Mots clés en anglais
Tidal stream turbine
disturbance rejection control
maximum power point tracking
robustness
Origine
Importé de halUnités de recherche