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dc.contributor.authorWindt, Christian
dc.contributor.authorGoseberg, Nils
dc.contributor.authorMartin, Tobias
dc.contributor.authorBihs, Hans
dc.date.accessioned2022-04-01T11:33:58Z
dc.date.available2022-04-01T11:33:58Z
dc.date.created2021-12-06T17:25:34Z
dc.date.issued2021
dc.identifier.isbn978-0-7918-8519-2
dc.identifier.urihttps://hdl.handle.net/11250/2989263
dc.description.abstractExploiting the offshore wind resources using floating offshore wind systems at sites with deep water depths requires advanced knowledge of the system behaviour, including the hydro-, areo-, and mooring dynamics. To that end, high-fidelity numerical modelling tools, based on Computational Fluid Dynamics, can support the research and development of floating offshore wind systems by providing high-resolution data sets. This paper presents the first steps towards the numerical modelling of tension leg platforms for floating offshore wind applications using the open-source Computational Fluid Dynamics toolbox REEF3D. The numerical model of a taut-moored structure is validated against experimental reference data. Results from wave-only test cases highlight the simplicity and effectiveness of the wave generation method, implemented in REEF3D. For the considered wave-structure interaction cases, deviations between the experimental and numerical data can be observed for the surge and pitch displacements, while the heave displacement and the mooring forces are capture with sufficient accuracy. Overall, the numerical results indicate high potential of REEF3D to be used for the modelling of floating offshore wind systems.en_US
dc.language.isoengen_US
dc.publisherASMEen_US
dc.relation.ispartofASME 2021 40th International Conference on Ocean, Offshore and Arctic Engineering
dc.titleValidation of a Numerical Model for the Investigation of Tension Leg Platforms With Marine Energy Application Using REEF3Den_US
dc.typeChapteren_US
dc.description.versionpublishedVersionen_US
dc.rights.holderLocked until 11.4.2022 due to copyright restrictions. Copyright © 2021 by ASMEen_US
dc.identifier.doi10.1115/OMAE2021-62774
dc.identifier.cristin1965261
dc.relation.projectNorges forskningsråd: 267981en_US
cristin.ispublishedtrue
cristin.fulltextpostprint
cristin.qualitycode1


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