Nonlinear ship waves and computational fluid dynamics |
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| Authors: | Hideaki MIYATA Hideo ORIHARA Yohei SATO |
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| Affiliation: | *1Social System Design Co. Ltd., Tokyo, Japan.;*2The University of Tokyo, Tokyo, Japan at the time of research.;*3Japan Marine United Corporation, Mie, Japan.;*4Paul Scherrer Institute, Villigen PSI, Switzerland. |
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| Abstract: | Research works undertaken in the first author’s laboratory at the University of Tokyo over the past 30 years are highlighted. Finding of the occurrence of nonlinear waves (named Free-Surface Shock Waves) in the vicinity of a ship advancing at constant speed provided the start-line for the progress of innovative technologies in the ship hull-form design. Based on these findings, a multitude of the Computational Fluid Dynamic (CFD) techniques have been developed over this period, and are highlighted in this paper. The TUMMAC code has been developed for wave problems, based on a rectangular grid system, while the WISDAM code treats both wave and viscous flow problems in the framework of a boundary-fitted grid system. These two techniques are able to cope with almost all fluid dynamical problems relating to ships, including the resistance, ship’s motion and ride-comfort issues. Consequently, the two codes have contributed significantly to the progress in the technology of ship design, and now form an integral part of the ship-designing process. |
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| Keywords: | ship hull-form naval hydrodynamics computational fluid dynamics nonlinear waves free-surface modelling |
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