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http://dx.doi.org/10.1016/j.ijnaoe.2017.10.008

Numerical simulation for a passing ship and a moored barge alongside quay  

Nam, B.W. (Korean Research Institute of Ship & Ocean Engineering)
Park, J.Y. (Korean Research Institute of Ship & Ocean Engineering)
Publication Information
International Journal of Naval Architecture and Ocean Engineering / v.10, no.5, 2018 , pp. 566-582 More about this Journal
Abstract
A moored barge alongside quay can be influenced by a nearby passing ship and its ship-generated waves. In this study, a time-domain numerical method based on a three-dimensional potential flow solver is developed to investigate the passing ship problem with a moored barge alongside quay. Potential flows around the passing ship and the moored barge alongside a quay is directly solved by using a classical finite element method. Total computational meshes including a passing ship, a moored barge and a quay is updated at each step with an efficient re-mesh algorithm. To validate the developed numerical method, a conventional ship wave problem and a passing ship problem on the open sea has been solved and the solutions are compared with the existing data. Then, a series of numerical computations were carried out to investigate the passing ship effect on a moored barge alongside quay. The characteristics of the passing ship effects are studied with varying the simulation parameters such as passing ship speed, separation distance, wall distances and waves. Focus is made on hydrodynamic forces due to the passing ship effect and its ship waves.
Keywords
Passing ship; Barge; Quay; Time-domain simulation; Potential flow; Finite element method;
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  • Reference
1 Yeung, R.W., 1978. On the interactions of slender ships in shallow water. J. Fluid Mech. 85, 143-159.   DOI
2 Bunnik, T., Toxopeus, S., 2011. On the modeling of passing ship effects. In: International Workshop on Water Waves and Floating Bodies, Athens, Greece.
3 Dand, I.W., 1981. Some Measurements of Interaction Between Ship Models Passing on Parallel Courses. Report, R108. National Maritime Institute.
4 Dong, G.H., Sun, L., Zong, Z., Zhao, Y.P., 2009. Numerical analysis of the forces exerted on offshore structures by ship waves. Ocean. Eng. 36, 468-476.   DOI
5 He, G., Kashiwagi, M., 2014. Time-domain analysis of steady ship-wave problem using higher-order BEM. Int. J. Offshore Polar Eng. 24(1), 1-10.
6 Huang, E.T., Chen, H.C., 2007. Influences of ship specifics on passing ship effects. In: Proceedings of the Sixteenth International Offshore and Polar Engineering Conference, Lisbon, Portugal.
7 Kriebel, D., 2005. Mooring Loads due to Parallel Passing Ships. Technical Report TR-6056-OCN. Naval Facilities Engineering Service Center.
8 Nam, B.W., Kim, Y., Hong, S.Y., 2016. Time-domain simulation of berthing problem between FPSO and shuttle tanker in waves. Appl. Ocean Res. 58, 49-61.   DOI
9 National Transportation Safety Board(NTSB), 1991. Explosion and Fire aboard the U.S. Tank-ship Jupiter, Bay City, Michigan, September 16, 1990. Marine Accident Report PB91-916404, NSTB/MAR-91/04.
10 Pinkster, J.A., 2004. The influence of a free surface of passing ship effects. Int. Shipbuild. Progr. 51 (4), 313-338.
11 Vantorre, M., Verzhbitskaya, E., Laforce, E., 2002. Model test based formulations of ship-ship interaction forces. Ship Tech. Res. 49(3), 124-141.
12 Pinkster, J.A., Ruijter, M.N., 2004. The Influence of Passing Ships on Ships moored in Restricted Waters. Houston, Texas, USA (OTC 16719).
13 Remery, G.F.M., 1974. Mooring forces induced by passing ships. In: Offshore Technology Conference, Dallas, Texas, USA (OTC 2066).
14 Tuck, E.O., Newman, J.N., 1974. Hydrodynamic interactions between ships. In: Proc. Tenth Symposium on Naval Hydrodynamics, Cambridge, Mass, USA, pp. 35-70.
15 Varyani, K.S., Krishnankutty, P., 2006. Modification of ship hydrodynamic interaction forces and moment by underwater ship geometry. Ocean. Eng. 33, 1090-1104.   DOI
16 Wag, Q.X., 2007. An analytical solution for two slender bodies of revolution translating in very close proximity. J. Fluid Mech. 582, 223-251.   DOI
17 Wang, S., 1975. Dynamic effects of ship passage on moored vessels. J. Waterw. Harb. Coast. Div. Am. Soc. Civ. Eng. 247-258.
18 Wang, H.Z., Zou, Z.J., 2014. Numerical study on hydrodynamic interaction between a berthed ship and a ship passing through a lock. Ocean. Eng. 88, 409-425.   DOI