Approximation to the hydrodynamics of floating pontoons under oblique waves |
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| Authors: | A G Abul-Azm M R Gesraha |
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| Institution: | a Associate Professor, Irrigation and Hydraulics Dept., Faculty of Engineering, Cairo University, Giza, Egypt;b Assistant Lecturer, Civil Engineering Dept., Faculty of Engineering, Cairo University, Fayoum Branch, Giza, Egypt |
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| Abstract: | The hydrodynamic properties of long rigid floating pontoon interacting with linear oblique waves in water of finite arbitrary depth are examined theoretically. The flow is idealized as linearized, velocity potentials are expressed in the form of eigen-function expansions with unknown coefficients. The fluid domain is split into three regions, region (1) wave-ward of the structure, region (2) in the lee of the structure, and region (3) beneath the structure. The different hydrodynamic quantities of interest such as the exciting forces, added mass and damping coefficients, reflection and transmission coefficients were studied for an applicable range of wave/structure parameters. Assuming rigid body motions, dynamic responses of the moored structure is approximately calculated through three equations of motion. Floating pontoons proved to be a convenient alternative for protection from waves in shallow water. The present method of solution was found to be computationally efficient, and results are comparable to those obtained through other techniques. |
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| Keywords: | Hydrodynamics Floating pontoon Oblique waves |
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