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Optimal control of wave energy systems considering nonlinear Froude–Krylov effects: control-oriented modelling and moment-based control

Nicolás Faedo, Giuseppe Giorgi, John V. Ringwood, Giuliana Mattiazzo

2022Nonlinear Dynamics39 citationsDOIOpen Access PDF

Abstract

Abstract Motivated by the relevance of so-called nonlinear Froude–Krylov (FK) hydrodynamic effects in the accurate dynamical description of wave energy converters (WECs) under controlled conditions, and the apparent lack of a suitable control framework effectively capable of optimally harvesting ocean wave energy in such circumstances, we present, in this paper, an integrated framework to achieve such a control objective, by means of two main contributions. We first propose a data-based, control-oriented, modelling procedure, able to compute a suitable mathematical representation for nonlinear FK effects, fully compatible with state-of-the-art control procedures. Secondly, we propose a moment-based optimal control solution, capable of transcribing the energy-maximising optimal control problem for WECs subject to nonlinear FK effects, by incorporating the corresponding data-based FK model via moment-based theory, with real-time capabilities. We illustrate the application of the proposed framework, including energy absorption performance, by means of a comprehensive case study, comprising both the data-based modelling, and the optimal moment-based control of a heaving point absorber WEC subject to nonlinear FK forces.

Topics & Concepts

Moment (physics)Froude numberNonlinear systemControl theory (sociology)Optimal controlEnergy (signal processing)Representation (politics)Computer scienceNonlinear controlControl (management)MathematicsMathematical optimizationPhysicsClassical mechanicsLawPolitical scienceFlow (mathematics)Quantum mechanicsGeometryStatisticsPoliticsArtificial intelligenceWave and Wind Energy SystemsNumerical methods for differential equationsFrequency Control in Power Systems