Shipping of water on a two-dimensional structure

M. GRECO; O. M. FALTINSEN; M. LANDRINI

doi:10.1017/S0022112004002691

Abstract

The problem of water shipping is studied by assuming two-dimensional flow conditions and using both experimental and numerical tools. Experimentally, the water on deck for a fixed barge-shaped structure has been analysed. Video images of the water-shipping events were recorded, wave elevation in the wave flume and pressure on a vertical superstructure along the ‘ship’ deck have been measured. Numerically, a boundary element method for unsteady nonlinear free-surface flows was developed and used for the analysis of water-on-deck phenomena. A comprehensive comparison between experimental and numerical data gave satisfactory agreement globally. The synergic experimental–numerical analysis highlights the main flow features during the water shipping and details of the water impact with the deck structures are discussed. In the model tests, the water on deck started as a plunging wave hitting the deck and entrapping air. This could be relevant for deck safety, but appears to be less important for the global evolution of the water along the deck and the later liquid interaction with the superstructure. The green-water loads on the vertical wall showed a two-peak behaviour typical of wave impacts.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

GRECO, M. COLICCHIO, G. and FALTINSEN, O. M. 2007. Shipping of water on a two-dimensional structure. Part 2. Journal of Fluid Mechanics, Vol. 581, Issue. , p. 371.

Lee, Hyun-Ho Lim, Ho-Jeong and Rhee, Shin Hyung 2012. Experimental investigation of green water on deck for a CFD validation database. Ocean Engineering, Vol. 42, Issue. , p. 47.

Zhao, Xizeng and Hu, Changhong 2012. Numerical and experimental study on a 2-D floating body under extreme wave conditions. Applied Ocean Research, Vol. 35, Issue. , p. 1.

Ha, Yoon-Jin Lee, Young-Gill and Jeong, Kwang-Leol 2012. An Experimental Study on the Effects of Bow Flare Angle about Green Water in Regular Waves. Journal of the Society of Naval Architects of Korea, Vol. 49, Issue. 1, p. 79.

Lim, Ho-Jeong Lee, Hyun-Ho Park, Sun-Ho and Rhee, Shin-Hyung 2012. Experiments and Numerical Validation for FPSO Bow Water Shipping. Journal of the Society of Naval Architects of Korea, Vol. 49, Issue. 1, p. 6.

Park, Il-Ryong and Jung, Kwang-Hyo 2012. Study on the Effects of Surface Roughness and Turbulence Intensity on Dam-break Flows. Journal of the Society of Naval Architects of Korea, Vol. 49, Issue. 3, p. 247.

Koh, C. G. Gao, M. and Luo, C. 2012. A new particle method for simulation of incompressible free surface flow problems. International Journal for Numerical Methods in Engineering, Vol. 89, Issue. 12, p. 1582.

Le Touzé, D. Colagrossi, A. Colicchio, G. and Greco, M. 2013. A critical investigation of smoothed particle hydrodynamics applied to problems with free‐surfaces. International Journal for Numerical Methods in Fluids, Vol. 73, Issue. 7, p. 660.

Zhao, Xizeng Ye, Zhouteng and Fu, Yingnan 2014. Green water loading on a floating structure with degree of freedom effects. Journal of Marine Science and Technology, Vol. 19, Issue. 3, p. 302.

Zhao, Xizeng Ye, Zhouteng Fu, Yingnan and Cao, Feifeng 2014. A CIP-based numerical simulation of freak wave impact on a floating body. Ocean Engineering, Vol. 87, Issue. , p. 50.

Lee, K.N. Jung, K.H. Chae, Y.J. Park, I.R. and Suh, S.B. 2015. STUDY ON GREEN WATER BEHAVIOR ON RECTANGULAR SHAPED STRUCTURE. Journal of computational fluids engineering, Vol. 20, Issue. 2, p. 96.

Chae, Young Jun Lee, Kang Nam Jung, Kwang Hyo Suh, Sung Bu and Lee, Jae Yong 2016. Experimental Study on Behavior of Green Water for Rectangular Structure. Journal of Ocean Engineering and Technology, Vol. 30, Issue. 1, p. 44.

Hernández-Fontes, Jassiel V. Vitola, Marcelo A. Silva, Monica C. Esperança, Paulo de Tarso T. and Sphaier, Sergio H. 2018. On the Generation of Isolated Green Water Events Using Wet Dam-Break. Journal of Offshore Mechanics and Arctic Engineering, Vol. 140, Issue. 5,

Skene, D. M. Bennetts, L. G. Wright, M. Meylan, M. H. and Maki, K. J. 2018. Water wave overwash of a step. Journal of Fluid Mechanics, Vol. 839, Issue. , p. 293.

Chen, L. Draper, S. Wolgamot, H. Taylor, P. H. and Milne, I. A. 2018. Green Water Evaluation for FPSOs During Cyclones.

Chen, Lifen Taylor, Paul H. Draper, Scott and Wolgamot, Hugh 2019. 3-D numerical modelling of greenwater loading on fixed ship-shaped FPSOs. Journal of Fluids and Structures, Vol. 84, Issue. , p. 283.

Zhang, Xiantao Draper, Scott Wolgamot, Hugh Zhao, Wenhua and Cheng, Liang 2019. Eliciting features of 2D greenwater overtopping of a fixed box using modified dam break models. Applied Ocean Research, Vol. 84, Issue. , p. 74.

Khojasteh, Danial Tavakoli, Sasan Dashtimanesh, Abbas Dolatshah, Azam Huang, Luofeng Glamore, William Sadat-Noori, Mahmood and Iglesias, Gregorio 2020. Numerical analysis of shipping water impacting a step structure. Ocean Engineering, Vol. 209, Issue. , p. 107517.

Hernández-Fontes, J.V. Torres, L. Mendoza, E. and Escudero, M. 2020. Identification of the advection-diffusion equation for predicting green water propagation. Ocean Engineering, Vol. 214, Issue. , p. 107658.

Hernández-Fontes, Jassiel V. Vitola, Marcelo A. Esperança, Paulo T.T. Sphaier, Sergio H. and Silva, Rodolfo 2020. Patterns and vertical loads in water shipping in systematic wet dam-break experiments. Ocean Engineering, Vol. 197, Issue. , p. 106891.

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Shipping of water on a two-dimensional structure

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