Low-uncertainty wave tank testing and validation of numerical methods for floating offshore wind turbines

Accurate simulation of the loads and motions of floating offshore wind turbines (FOWTs) in operation is key to the commercialisation of this technology. To improve such load predictions, a critical assessment of the capabilities and limitations of simulation methods for FOWTs is mandatory. However, uncertainties arise during the whole validation process of a numerical method. These can drastically impair the quality of the validation. In the case of FOWTs, the interaction between aerodynamic, hydrodynamic and mooring loads on the one hand and platform motions on the other hand causes a high level of uncertainty in the measurement data acquired in model tests. This also applies to comparing a numerical model to the test data, as these interactions make the distinction between cause and effect challenging. To address these challenges, several improvements to the validation process aiming to reduce the uncertainties are proposed and evaluated in this work. The major improvements are the measurement of the rotor thrust force excluding the tower top inertia loads, the wind field quality in the wave tank, a comparison of the rotor aerodynamics in the wind tunnel and wave tank, and the utilisation of hybrid simulations based on the measured platform motions. These steps are applied to wave tank tests of a FOWT utilising a single-point mooring and the subsequent validation of the numerical panel method pan MARE. The improvements allowed for a considerable decrease in the random and systematic uncertainty in the model tests and made a valuable contribution to the distinction between cause and effect regarding the deviations between measurements and simulations.

DDC Class

621: Applied Physics

620: Engineering

627: Hydraulic Engineering

Funding(s)

Open-Access-Publikationskosten / 2022-2024 / Technische Universität Hamburg (TUHH)

More Funding Information

Bundesministerium für Wirtschaft und Klimaschutz;

Publication version

publishedVersion

Lizenz

httpss://creativecommons.org/licenses/by/4.0/

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Low-uncertainty wave tank testing and validation of numerical methods for floating offshore wind turbines