论文信息 - A comparative study on 3D wave load and pressure computations for different level of modelling of nonlinearities

A comparative study on 3D wave load and pressure computations for different level of modelling of nonlinearities

Abstract This paper presents a comparative study on the vertical bending moment and pressures between different levels of modelling of nonlinearities based on a 3D time-domain solution scheme. The basic solution method and its successive extensions to model the nonlinear effects are similar to the code LAMP and its various versions [Lin WM, Meinhold M, Salvesen N, Yue DKP. Large amplitude motions and wave loads for ship design. 20th ONR Sym. on Naval Hydrodynamics, Washington D.C.: National Academy Press; 1994. pp. 205–226] although their numerical implementations may differ in details. Results are presented for a large tanker hull and the S175 container hull. It is found that the predictions from the different levels of computations may differ considerably, particularly for the pressures. In general the level 2 computation, which considers modelling of only the nonlinear Froude-Krylov and hydrostatic effects, over-predicts the loads and pressures compared to the most advanced ‘body-exact’ level considered in this paper, where the nonlinearities in the diffraction effect are modelled within certain approximations.

Debabrata Sen | S. P. Singh | D. Sen | S. P. Singh

[1] Bertram,et al. Investigation of Global and Local Flow Details by a Fully Three-dimensional Seakeeping Method , 2001 .

[2] Anil K. Subramani. Fully nonlinear free-surface computations for arbitrary and complex hull forms , 1998 .

[3] Subrata K. Chakrabarti,et al. Hydrodynamics of Offshore Structures , 1987 .

[5] Hiroshi Kagemoto,et al. Ship Motions and Loads in Large Waves , 2000 .

[6] B. V. Korvin-Kroukovsky,et al. Investigation of ship motions in regular waves , 1955 .

[7] D. Sen. Time-domain computation of large amplitude 3D ship motions with forward speed , 2002 .

[8] C. Guedes Soares,et al. Comparative study on the time-domain analysis of non-linear ship motions and loads , 1999 .

[9] F. Stern,et al. RANS Computational Fluid Dynamics Predictions of Pitch and Heave Ship Motions in Head Seas , 2005 .

[10] Nuno Fonseca,et al. Comparison of numerical and experimental results of nonlinear wave-induced vertical ship motions and loads , 2002 .

[11] John D. Fenton,et al. A Fourier approximation method for steady water waves , 1981, Journal of Fluid Mechanics.

[12] Šime Malenica,et al. Third-harmonic wave diffraction by a vertical cylinder , 1995, Journal of Fluid Mechanics.

[13] D. Sen,et al. A comparative linear and nonlinear ship motion study using 3-D time domain methods , 2007 .

[14] Alain Cariou,et al. Influence of modelling on calculated sea loads on ships , 2003 .