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Citation:
 Carlos Guedes Soares,Wenyang Duan.Editorial - Special Issue on Fluid Structure Interaction[J].Journal of Marine Science and Application,2017,(4):374-374.
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Editorial - Special Issue on Fluid Structure Interaction

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Title:
Editorial - Special Issue on Fluid Structure Interaction
Author(s):
Carlos Guedes Soares Wenyang Duan
Affilations:
Author(s):
Carlos Guedes Soares Wenyang Duan
Keywords:
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分类号:
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DOI:
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Abstract:
All structures at sea are in contact with the water and thus the knowledge of the interaction effects between the fluid and the structure is essential. Depending on the characteristics of the structure, of the fluid and of the relative motion, different mechanisms may be in place and thus different mathematical models may be required for the computation of its interaction.
For structures at rest, hydrostatic forces are generated in the fluid and are responsible for the equilibrium position of the floaters. Pressures and forces associated with the passage of waves lead to the wave induced motions and loads typically at the wave frequency. However forces associated with violent motions and accelerations will generally induce vibrations in the structure and in turn these structural responses may be coupled with the fluid loading, leading to the so-called hydroelastic behaviour.
The designation of fluid structure interaction, although formally covering all types of responses indicated, is more concerned with the last group of responses and many of the papers included in this special issue deal with various methods of handling this type of problems, which very often require detailed numerical methods that are able to represent the complex problems being studied.

References:

1. Jasak, H., Gatin, I. and Vukcevic, V., “Monolithic Coupling of the Pressure and Rigid Body Motion Equations in Computational Marine Hydrodynamics”, Journal of Marine Science and Application, Vol. 16, 2017, pp 375-381.
2. Ghelardi, S., Rizzo, C. and Villa, D., “Three-Dimensional Fluid-Structure Interaction Case Study on Cubical Fluid Cavity with Flexible Bottom”, Journal of Marine Science and Application, Vol. 16, 2017, pp 382-394.
3. Rao, C., Zhang, Y. and Wan, D., “Numerical Simulation of the Solitary Wave Interacting with an Elastic Structure Using MPS-FEM Coupled Method”, Journal of Marine Science and Application, Vol. 16, 2017, pp 395-404.
4. Wang, S. and Guedes Soares, C., “Hydroelastic Analysis of a Rectangular Plate Subjected to Slamming Loads”, Journal of Marine Science and Application, Vol. 16, 2017, pp 405-416.
5. Kim, J. and Kim, Y., “Numerical Computation of Motions and Structural Loads for Large Containership using 3D Rankine Panel Method”, Journal of Marine Science and Application, Vol. 16, 2017, pp 417-426.
6. Wang, S. and Guedes Soares, C., “Review of Ship Slamming Loads and Responses”. Journal of Marine Science and Application, Vol. 16, 2017, pp 427-445.
7. Yu, C., Hu, Z. and Wang, S., “Investigation of Heave Response of the Deepwater Octagonal FDPSO Using Various Heave Plate Configurations”, Journal of Marine Science and Application, Vol. 16, 2017, pp 446-457.
8. Datta N., “Vortex-Induced Vibration of a Tension Leg Platform Tendon: Multi-Mode Limit Cycle Oscillations”, Journal of Marine Science and Application, Vol. 16, 2017, pp 458-464.
9. Franzini, G., Santos, R. and Pesce, C. P., “A Numerical Study on Piezoelectric Energy Harvesting by Combining Transverse Galloping and Parametric Instability Phenomena”, Journal of Marine Science and Application, Vol. 16, 2017, pp 465-472.
10. Fu, B., Zou L. and Wan, D., “Numerical Study on the Effect of Current Profiles on Vortex-Induced Vibrations in a Top-Tension Riser”, Journal of Marine Science and Application, Vol. 16, 2017, pp 473-479.
11. Dokken, J., Grue, J. and Karstensen, L. P., “Wave Analysis of Porous Geometry with Linear Resistance Law”, Journal of Marine Science and Application, Vol. 16, 2017, pp 480-489.
12. Koley, S. and Sahoo, T., “Oblique Wave Trapping by Vertical Permeable Membrane Barriers Located near a Wall”, Journal of Marine Science and Application, Vol. 16, 2017, pp 490-501.

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Last Update: 2018-02-07