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The Safety of Maneuverability Based on the Hydrodynamic Forces Acting on ship hull under the Lateral Berthing
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 Title & Authors
The Safety of Maneuverability Based on the Hydrodynamic Forces Acting on ship hull under the Lateral Berthing
Lee, Yun-Sok;
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 Abstract
In order to keep the safety of maneuverability under the lateral berthing, it is necessary to estimate the magnitudes and properties of the hydrodynamic forces acting on ship hull quantitatively. In this paper, CFD technique is used to calculate the steady lateral force according to the water depth for Wigley model under the unsteady lateral berthing. The numerical results are analysed into the steady lateral force and the transitional lateral force, and some of reviews for the safety of maneuverability relating to the lateral berthing are discussed based on the computed hydrodynamic forces.
 Keywords
Berthing;Steady lateral force;Transitional lateral force;CFD;Safety Maneuverability;
 Language
English
 Cited by
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 References
1.
Chen, H. C. and Korpus, R(1993) 'A Multi-block Finite-Analytic Reynolds-Averaged Navier-Stokes Method for 3D Incompressible Flows', Individual Papers in Fluid Engineering, edited b F. M. White, ASME FED-Vol. 150, ASME Fluids Engineering Conference, pp. 113-121

2.
Chen, M. and Chen, H. C.(1996) 'Numerical Simulation of Transient Flows Induced by a Berthing Ship', International Journal of Offshore and Polar Engineering, ISOPE, Vol. 7, No.4, pp. 277-284

3.
Chen, M. and Chen, H. C.(1998) 'Chimera RANS Simulation of a Berthing DDG-51 Ship in Translational and Rotational Motions', International Journal of Offshore and Polar Engineering, Vol. 8, No.3, pp. 182-191

4.
LEE, Y. S.(2003) 'The Prediction of Hydrodynamic Forces Acting on Ship Hull in Laterally Berthing Maneuver Using CFD', International Journal of Navigation and Port Research, Vol. 27, No34, pp. 253-258 crossref(new window)

5.
Patel, V. C, Chen, H. C. and Ju, S.(1990) 'Ship Stem and Wake Flows: Solutions of the Fully-Elliptic Reynolds-Averaged Navier-Stokes Equations and Comparisons with Experiments', Journal of Computational Physics, Vol. 88, No.2, pp. 305-336 crossref(new window)

6.
Sadakane, H.(1996) 'A Study on Lateral Drag Coefficient for Ship Moving Laterally from Rest', Journal of the Japan Institute of Navigation, No. 95, pp. 193-200

7.
Sadakane, H. and Tsuruta, H.(1993) 'Transitional Lateral Drag Acting on Ship Moving from the Rest -An Experimental Study by Using a Ship's Model-', Journal of the Japan Institute of Navigation, No. 90, pp. 273-279

8.
Tanaka, H. and Kijima, K.(1993) 'On the Distribution of Cross Flow Drag over the Length of a Ship Moving Transversely', The Society of Naval Architects of Japan, No. 174, pp. 1-8

9.
Toda, Y., Lee, Y S. and Sadakane, H.(2002) 'Hydrodynamic Forces acting on ship hull Under Lateral Low Speed MotionIII: Basic Consideration Using 3-D CFD Technique', Journal of the Japan Institute of Navigation, No. 106, pp. 87-95

10.
Takakura, Y., Ogiwara, S. and Isiguro, T. (1989) 'Turbulence Models for Transonic Viscos Flow', AIAA paper, 89-1952 CP.