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An experimental and numerical study of heave added mass and damping of horizontally submerged and perforated rectangular plates |
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| Affiliation: | 1. Marine & Offshore Engineering Division, Zentech E&C Co., Ltd., Seoul, Republic of Korea;2. Department of Ocean System Engineering, Jeju National University, Jeju, Republic of Korea;1. CEHINAV res.gr., ETSIN, Technical University of Madrid (UPM), Madrid 28040, Spain;2. Department of Mechanical Engineering, University of Maine, Orono, ME 04469, United States;3. CEHINAV res.gr., DMFPA, ETSIN, UPM, Madrid 28040, Spain;4. CNR-INSEAN, The Italian Ship Model Basin, Via di Vallerano 139, 00128 Rome, Italy;1. ETSIN, Technical University of Madrid (UPM), Madrid, Spain;2. Niobetech, Madrid, Spain;3. DMFPA, ETSIN, UPM, Madrid, Spain |
| Abstract: | Forced harmonic heave motions of horizontally submerged and perforated rectangular plates are studied experimentally and numerically at both a deep and shallow submergence. The steady-state vertical forces are expressed in terms of added mass and damping coefficients. The numerical results are partly obtained by combining potential flow with linear free-surface conditions and a nonlinear viscous pressure loss condition at the mean oscillatory plate position. A domain decomposition technique is applied with a boundary element method in the inner domain and an analytical representation of the velocity potential in the outer domain. A drag term accounts for the vortex shedding at the outer plate edges. The numerically predicted Keulegan–Carpenter number dependent heave added mass and damping coefficients agree reasonably with experimental values, in particular for the deeper submergence. |
| Keywords: | Submerged perforated plate Forced heave oscillation Amplitude dependent heave added mass and damping coefficients Nonlinear pressure loss condition Boundary element method |
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