An Estimation of Springing Responses for Recent Ships

J. Ocean Eng. Technol. 2005;19(6):58-63.

Park, In-Kyu;Kim, Jong-Jin;

University of Ulsan;Hyundai Heavy industry Co. Ltd.;

Keywords: Springing Quadratic Strip Method, Hydro-elasticity, Wave Spectrum High Frequency Tail, Fatigue Life

Abstract

The estimation of springing responses for recent ships is carried out, and application to a ship design is described. To this aim, springing effects on hull girder were re-evaluated, including non-linear wave excitations and torsional vibrations of the hull. The Timoshenko beam model was used to calculate stress distribution on the hull girder, using the superposition method. The quadratic strip method was employed to calculate the hydrodynamic forces and moments on the hull. In order to remove the irregular frequencies, we adopted 'rigid lid' on the hull free surface level, and addedasymptotic interpolation along the high frequency range. Several applications were carried out on the following existing ships: The Bishop and Price's container ship, S-175 container ship, large container, VLCC, and ore carrier. One of them is compared with the ship measurement result, while another with that of the model test. The comparison between the analytical solution and the numerical solution for a homogeneous beam-type artificial ship shows good agreement. It is found that Most springing energy comesfrom high frequency waves for the ships having low natural frequency and North Atlantic route etc. Therefore, the high frequency tail of the wave spectrum should be increased by $omega$$^{-3}$ instead of $omega$$^{-4}$ or $omega$$^{-5}$ for the springing calculation.