TY - GEN
T1 - Development of CIP based numerical method for prediction of nonlinear wave loads on real ships
AU - Hu, C.
AU - Sueyoshi, M.
AU - Miyake, R.
AU - Zhu, T.
PY - 2010
Y1 - 2010
N2 - A CFD code has been developed for numerical simulation of a container ship in large waves by the CIP (Constrained Interpolation Profile [1]) based numerical method. Recently obtained numerical results on a latest post-Panamax container ship model moving in large-amplitude regular waves for various wave lengths and wave angles, are presented in this paper. The frequency response characteristics of the wave-induced motions and the wave loads on three cross-sections of the ship, including the bending moments and the shear forces, are compared to the experiments and the results obtained by potential flow theory based numerical methods.
AB - A CFD code has been developed for numerical simulation of a container ship in large waves by the CIP (Constrained Interpolation Profile [1]) based numerical method. Recently obtained numerical results on a latest post-Panamax container ship model moving in large-amplitude regular waves for various wave lengths and wave angles, are presented in this paper. The frequency response characteristics of the wave-induced motions and the wave loads on three cross-sections of the ship, including the bending moments and the shear forces, are compared to the experiments and the results obtained by potential flow theory based numerical methods.
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M3 - Conference contribution
AN - SCOPUS:78951471910
SN - 9781905040773
T3 - RINA, Royal Institution of Naval Architects - William Froude Conference: Advances in Theoretical and Applied Hydrodynamics - Past and Future, Papers
SP - 73
EP - 80
BT - RINA, Royal Institution of Naval Architects - William Froude Conference
T2 - William Froude Conference: Advances in Theoretical and Applied Hydrodynamics - Past and Future
Y2 - 24 November 2010 through 25 November 2010
ER -