Bibliographische Detailangaben
| Titel: |
Hydrodynamic performance of vertical cylindrical wave energy absorbers in front of a vertical wall. |
| Autoren: |
Li, Ai-jun, Liu, Yong, Wang, Xin-yu |
| Quelle: |
Physics of Fluids; Apr2024, Vol. 36 Issue 4, p1-28, 28p |
| Schlagwörter: |
WAVE energy, SEPARATION of variables, WAVE diffraction, POTENTIAL flow, STANDING waves, OFFSHORE structures, OCEAN waves |
| Abstract: |
This paper studies the hydrodynamic performance of vertical cylindrical absorbers in front of a vertical wall. All the absorbers are independent of each other and restricted to only the heave motion. Based on a linear potential flow theory, an analytical solution is developed for the problems of wave diffraction and radiation by absorbers. In the solving procedure, the hydrodynamic problem is first transformed into an equivalent problem in an open water domain using the image principle. The number of absorbers in the equivalent problem is twice that in the real problem, and the plane layout is symmetric about the original vertical wall. The velocity potential of the fluid domain is obtained using the method of variable separation, and the unknown expansion coefficients in the velocity potential are determined by the matched boundary conditions. The heave excitation force, added mass, radiation damping, motion response, and energy capture width of the absorbers are calculated. Case studies are presented to show the effects of the wall reflection and hydrodynamic interaction on the energy extraction performance of the wave energy converter (WEC) system. Subsequently, the WEC performance under the action of irregular waves is analyzed by considering an incident wave spectrum, and the mean annual absorbed power of the device is estimated by considering the wave data statistics at the actual sites. The results indicate that when the wave motion resonates with the absorber motion, the energy extraction performance of the absorbers is significantly improved. The performance of the absorbers can be effectively improved when the structures are close to the antinodes of a standing wave field. By designing a reasonable plane layout, the hydrodynamic interaction can play a constructive role in the performance of the WEC system. [ABSTRACT FROM AUTHOR] |
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| Datenbank: |
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