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Most studies on wave-in-deck loads focus on head-on wave impingement whereas wave-in-deck loads due to waves incident from oblique directions are rarely reported. Numerical simulations for oblique wave-in-deck loads were presented in Iwanowski et al. (2002), Brodtkorb (2008) and Chen et al. (2018). However, in these studies, only numerical validations were performed against either two-dimensional experiments or empirical formulations due to a lack of experimental results. In light of this, we present the experimental results for wave impacts on a solid deck model due to a transient focused wave group incident from oblique direction in this study. The oblique experimental data is compared with the head-on counterpart by Santo et al, (2020) to investigate the incident wave angle effect on wave-in-deck loads. Numerical simulations are carried out to reproduce both the head-on and oblique wave-in-deck experiments using a three-dimensional (3D) numerical wave tank (NWT), and flow field information is interrogated to derive physical insights into complex wave-deck interactions. The solid deck model is a representative of a typical 2nd generation North Sea topside structures commonly exposed to severe winter weather. The configuration is also applicable to coastal structures such as bridges, piers, jetties or docks.Referencias
Brodtkorb (2008): Prediction of wave-in-deck forces on fixed jacket-type structures based on CFD calculations. In International Conference on Offshore Mechanics and Arctic Engineering, vol. 48227, pp. 713-721.
Chen, Wu, Bahuguni, Gullman-Strand, Lv, Lou, Ren (2018): Directional wave-in-deck loading on offshore structures with porous and plated decks with supporting I-beams. Coastal Engineering, 137, 79-91.
Iwanowski, Grigorian, Scherf (2002): Subsidence of the Ekofisk platforms: Wave in deck impact study—various wave models and computational methods. In International Conference on Offshore Mechanics and Arctic Engineering, vol. 36118, pp. 95-102.
Jacobsen, Fuhrman, Fredsøe (2012): A wave generation toolbox for the open‐source CFD library: OpenFoam®. International Journal for Numerical Methods in Fluids, 70(9), 1073-1088.
Santo, Taylor, Dai, Day, Chan (2020): Wave-in-deck experiments with focussed waves into a solid deck. Journal of Fluids and Structures, 98, 103139.
Vyzikas, Stagonas, Buldakov, Greaves (2015): Efficient numerical modelling of focused wave groups for freak wave generation. In The Twenty-fifth International Ocean and Polar Engineering Conference. OnePetro.
Wang, Draper, Zhao, Wolgamot, Cheng, L (2018): Development of a computational fluid dynamics model to simulate three-dimensional gap resonance driven by surface waves. Journal of Offshore Mechanics and Arctic Engineering, 140(6).
Wang, Santo, Taylor, Dai, Day, Chan (2022): Wave impacts on a solid deck in transient wave groups. Journal of Fluids and Structures. Accepted.
Esta obra está bajo una licencia internacional Creative Commons Atribución 4.0.
Derechos de autor 2023 Hongchao Wang, Harrif Santo