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Numerical Study on Sectional Loads and Structural Optimization of an Elastic Semi-Submersible Floating Platform

Yuliang Liu, Takeshi Ishihara

2020Energies17 citationsDOIOpen Access PDF

Abstract

This study investigates the sectional loads on an elastic semi-submersible platform for a 2 MW FOWT (floating offshore wind turbine) used in the Fukushima demonstration project. A water tank test is firstly carried out with an elastic model to study the dynamic responses and sectional loads of the platform in regular and irregular waves. Numerical simulations are then performed using multiple hydrodynamic bodies connected by elastic beams. The dynamic responses of the elastic model are compared to those of a rigid model to clarify the influence of the structural stiffness on the platform motion and mooring tension. The predicted sectional loads on the deck, brace and pontoon by the proposed nonlinear hydrodynamic models show good agreement with the experimental data obtained from the water tank test and a simplified formula is proposed to evaluate the distribution of the moments on the platform. Finally, the structural optimization of the elastic semi-submersible platform is conducted. The sectional moments and fatigue loadings on the pontoons are significantly reduced using the strut between the pontoons since the horizontal wave loads on the side column are dominant and the vertical wave loads acting on the platform are relatively small due to the deep draft.

Topics & Concepts

DeckStructural engineeringMarine engineeringSubmarine pipelineMooringStiffnessOscillating Water ColumnBraceEngineeringTension (geology)Offshore wind powerWave loadingTurbineOffshore geotechnical engineeringGeotechnical engineeringMoment (physics)Power (physics)Mechanical engineeringQuantum mechanicsWave energy converterClassical mechanicsPhysicsWave and Wind Energy SystemsFluid Dynamics Simulations and InteractionsCoastal and Marine Dynamics
Numerical Study on Sectional Loads and Structural Optimization of an Elastic Semi-Submersible Floating Platform | Litcius