The Effect of Mooring Line Parameters in Inducing Parametric Resonance on the Spar-Buoy Oscillating Water Column Wave Energy Converter
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[1] Mike Mekhiche,et al. Ocean Power Technologies Powerbuoy®: System‐Level Design, Development and Validation Methodology , 2014 .
[2] Zhu,et al. Using Flexible Blades to Improve the Performance of Novel Small-Scale Counter-Rotating Self-Adaptable Wave Energy Converter for Unmanned Marine Equipment , 2019, Journal of Marine Science and Engineering.
[3] J. Weber. WEC Technology Readiness and Performance Matrix – finding the best research technology development trajectory , 2012 .
[4] Giuliana Mattiazzo,et al. PeWEC: Experimental validation of wave to PTO numerical model , 2018, Ocean Engineering.
[5] F. X. Correia da Fonseca,et al. Model testing of an oscillating water column spar-buoy wave energy converter isolated and in array: Motions and mooring forces , 2016 .
[6] Henk Nijmeijer,et al. Parametric resonance in dynamical systems , 2012 .
[7] Giuliana Mattiazzo,et al. An application of model predictive control logic to inertial sea wave energy converter , 2019, Advances in Mechanism and Machine Science.
[8] John Ringwood,et al. Relevance of pressure field accuracy for nonlinear Froude–Krylov force calculations for wave energy devices , 2018 .
[9] Andrew Stephen Zurkinden,et al. Validation of a Partially Nonlinear Time Domain Model using instantaneous Froude-Krylov and Hydrostatic Forces , 2013 .
[10] Pedro Pires,et al. Tank testing of an inherently phase-controlled wave energy converter , 2016 .
[11] Thor I. Fossen,et al. Handbook of Marine Craft Hydrodynamics and Motion Control , 2011 .
[12] Giuliana Mattiazzo,et al. Experimental investigation of the hydrodynamic performance of the ISWEC 1:20 scaled device , 2018 .
[13] John Ringwood,et al. A Blind Comparative Study of Focused Wave Interactions with Floating Structures (CCP-WSI Blind Test Series 3) , 2020 .
[14] John Ringwood,et al. Comparing nonlinear hydrodynamic forces in heaving point absorbers and oscillating wave surge converters , 2018 .
[15] G. Giorgi,et al. Parametric motion detection for an oscillating water column spar buoy , 2019 .
[16] John Ringwood,et al. Articulating Parametric Nonlinearities in Computationally Efficient Hydrodynamic Models , 2018 .
[17] Hrvoje Jasak,et al. A Blind Comparative Study of Focused Wave Interactions with a Fixed FPSO-like Structure (CCP-WSI Blind Test Series 1) , 2019, International Journal of Offshore and Polar Engineering.
[18] John Ringwood,et al. High-fidelity numerical modelling of ocean wave energy systems: A review of computational fluid dynamics-based numerical wave tanks , 2018, Renewable and Sustainable Energy Reviews.
[19] Aurélien Babarit,et al. A Non-Linear Potential Model to Predict Large-Amplitudes-Motions: Application to the SEAREV Wave Energy Converter , 2007 .
[20] R.P.F. Gomes,et al. Hydrodynamic optimization of an axisymmetric floating oscillating water column for wave energy conversion , 2012 .
[21] John Ringwood,et al. Analytical representation of nonlinear Froude-Krylov forces for 3-DoF point absorbing wave energy devices , 2018, Ocean Engineering.
[22] Nicolás Faedo,et al. Wave Energy Control Systems: Robustness Issues , 2018 .
[23] Aurélien Babarit,et al. Weakly nonlinear modeling of submerged wave energy converters , 2018, Applied Ocean Research.
[24] Adi Kurniawan,et al. Ocean Energy Systems Wave Energy Modelling Task: Modelling, Verification and Validation of Wave Energy Converters , 2019, Journal of Marine Science and Engineering.
[25] Giuliana Mattiazzo,et al. ISWEC linear quadratic regulator oscillating control , 2017 .
[26] John Ringwood,et al. Mathematical Modelling of Mooring Systems for Wave Energy Converters—A Review , 2017 .
[27] Kyoung-Rok Lee,et al. Fully nonlinear time-domain simulation of a backward bent duct buoy floating wave energy converter using an acceleration potential method , 2013 .
[28] Giuliana Mattiazzo,et al. Application of sub-optimal control techniques to a gyroscopic Wave Energy Converter , 2014 .
[29] Craig Meskell,et al. Investigation on Parametrically Excited Motions of Point Absorbers in Regular Waves , 2014 .
[30] John V. Ringwood,et al. A Compact 6-DoF Nonlinear Wave Energy Device Model for Power Assessment and Control Investigations , 2019, IEEE Transactions on Sustainable Energy.
[31] S. Michele,et al. Weakly nonlinear theory for oscillating wave surge converters in a channel , 2017, Journal of Fluid Mechanics.
[33] Abhilash Somayajula,et al. Development of a Blended Time-Domain Program for Predicting the Motions of a Wave Energy Structure , 2019 .
[34] John V. Ringwood,et al. Analytical Formulation of Nonlinear Froude-Krylov Forces for Surging-Heaving-Pitching Point Absorbers , 2018, Volume 10: Ocean Renewable Energy.
[35] John Ringwood,et al. Articulating parametric resonance for an OWC spar buoy in regular and irregular waves , 2018, Journal of Ocean Engineering and Marine Energy.
[36] Alan Henry,et al. How does Oyster work? The simple interpretation of Oyster mathematics , 2014 .
[37] C. Guedes Soares,et al. Fully nonlinear simulation of wave interaction with a cylindrical wave energy converter in a numerical wave tank , 2018 .
[38] R.P.F. Gomes,et al. Time-domain simulation of a slack-moored floating oscillating water column and validation with physical model tests , 2020 .