... [ 3 ]. However, the presence of rubble-mound breakwaters would obstruct the fish passage and prevent the circulation of water. Thus, various innovations are brought up in the field of fluid–structure interaction to overcome this problem [ 4 ]. It is identified that the semicircular breakwater (SCB...

... Engineering Division of ASME for publication in the J ournal of O ffshore M echanics and A rctic E ngineering . 30 10 2024 13 03 2025 13 03 2025 20 03 2025 dynamics of structures fluid-structure interaction hydrodynamics ship motions, risers and moorings and cable...

... for publication in the J ournal of O ffshore M echanics and A rctic E ngineering . 21 10 2024 27 02 2025 27 02 2025 06 03 2025 Coastal engineering fluid-structure interaction hydrodynamics wave mechanics and wave effects Science and Engineering Research Board...

...) of a 2.1-MW OWT tower under typhoon conditions, considering double cracks. Fluid–structure interaction (FSI) simulations are conducted to reflect real environmental conditions in the Yellow Sea, identifying stress hotspots that serve as crack initiation points. The Forman–Newman–de Koning (FNK) model...

.... In this study, an upgraded direct forcing immersed boundary method is implemented in the open-source hydrodynamic framework REEF3D [ 11 ] for simulating a semi-submersible FOWT OC5 with a full scale. The numerical model specifically focuses on addressing fluid–structure interactions (FSI) [ 12 , 13 ], as well...

... of Liaoning Province 10.13039/501100005047 2021-KF-16-03 wave loads offshore wind turbine wave–structure interaction nonlinear waves fluid–structure interaction hydrodynamics wave mechanics and wave effects Graphical Abstract Figure 30 07 2024 02 11 2024 04 11...

.... Flow-induced vibration (FIV), also known as fluid–structure interaction, is a phenomenon commonly observed when fluid flows around the surface of a solid. The fluid exerts alternating and periodic forces on the solid surface, causing the solid to undergo reciprocating motion. This reciprocating motion...

... breakwaters Havelock expansion formula integral equations multi-term Galerkin technique reflection and transmission coefficients wave force coastal engineering fluid–structure interaction wave mechanics and wave effects From about the middle of the twentieth century, the interaction of water...

... 2024 17 07 2024 22 07 2024 20 08 2024 Graphical Abstract Figure multivariate time series forecasting whipping response machine learning dynamics of structures fluid–structure interaction structural safety and risk analysis National Natural Science...

... – 28 ]. Nevertheless, due to the difficulty of implementing the moving structures in training the PINNs, the PINNs applications for FSI with highly unsteady behaviors are still limited. Fluid–structure interaction (FSI) problems are ubiquitous in ocean engineering, such as subsea pipelines [ 1 – 4...

... cylinders flow-induced oscillation fluid–structure interaction ocean energy technology Multi-cylinder structures are extensively employed in marine engineering, e.g., legs of offshore oil rigs, towers of wind turbines, and subsea risers. Flow-induced oscillation (FIO) of cylinders can cause...

... to capture the impacting pressure and vertical bending moment (VBM). A numerical fluid-structure interaction (FSI) approach is employed to investigate the model experiment of the high-speed craft by coupling CFD and FEM. CFD is utilized to solve the hydrodynamics of the high-speed craft. Dynamics of fluid...

... / BLU-2109-0036 Deutsche Forschungsgemeinschaft 10.13039/501100001659 INST 20876/209-1 FUGG INST 20876/243-1 FUGG computational fluid dynamics fluid–structure interaction hydrodynamics wave mechanics and wave effects Graphical Abstract Figure 25 02 2024 31 05...

..., contributing to increased global renewable energy production [ 2 ]. design of offshore structures floating and moored production systems fluid-structure interaction hydrodynamics ocean energy technology risers mooring dynamics cable dynamics Graphical Abstract Figure 27 11...

... 2024 Graphical Abstract Figure wake vortex phase difference VIV galloping mass ratio fluid–structure interaction hydrodynamics vortex-induced vibration Natural Science Foundation of Shandong Province 10.13039/501100007129 ZR2023ME036 Flow-induced motion...

... bridge cofferdam multidirectional focused wave wave load numerical simulation coastal engineering computational fluid dynamics fluid-structure interaction hydrodynamics Many sea-crossing bridges have been constructed along the coasts of the world in the past few decades, such as Oresund...

... operational window design of offshore structures dynamics of structures fluid–structure interaction hydrodynamics ship motions cable dynamics subsea technology This article retakes the investigation carried out by Fernandes et al. [ 1 ] on the installation of subsea equipment. To clarify...

... fluid–structure interaction hydrodynamics Offshore structures constructed on or above the continental shelves and on the adjacent continental slopes take many forms and serve a multitude of purposes: exploration, drilling, production, and storage of oil and natural gas. Among the different...

...) dual boundary equation method (DBEM) computational fluid dynamics (CFD) lipwall configurations optimum damping coefficient flow visualization coastal engineering fluid–structure interaction hydrodynamics ocean energy technology Harnessing energy from the ocean helps to address...

.... , and Hu , F. , 2021 , “ Experimental Investigation on the Fluid–Structure Interaction of a Flexible Net Cage Used to Farm Pacific Bluefin Tuna (Thunnus orientalis) ,” Ocean Eng. , 226 , p. 108872 . 10.1016/j.oceaneng.2021.108872 [9] DeCew , J. , Fredriksson , D. W. , Lader , P. F...