Water impact of horizontal circular cylinders and cylindrical shells

Applied Ocean Research

Volumn 28, Issue 5, 2006, Pages 299-311

  Sun, Hui ^a   Faltinsen, Odd M ^a  

^a NORWEGIAN UNIVERSITY OF SCIENCE AND TECHNOLOGY   (Norway)

Author keywords

Boundary element method; Cylindrical shell; Fluid structure interaction; Hydroelasticity; Non viscous flow separation; Water impact

Indexed keywords

BOUNDARY ELEMENT METHOD; CIRCULAR CYLINDERS; FLOW SEPARATION; FLUID STRUCTURE INTERACTION; HYDROELASTICITY; IMPACT TESTING; MODAL ANALYSIS;

CYLINDRICAL SHELL; STRUCTURAL RESPONSES; WATER IMPACT;

FLOW OF WATER;

BOUNDARY ELEMENT METHOD; CIRCULAR CYLINDERS; FLOW OF WATER; FLOW SEPARATION; FLUID STRUCTURE INTERACTION; HYDROELASTICITY; IMPACT TESTING; MODAL ANALYSIS;

BOUNDARY ELEMENT METHOD; CYLINDER; EXPERIMENTAL STUDY; FLUID-STRUCTURE INTERACTION; HYDROELASTICITY; STRUCTURAL RESPONSE; WATER FLOW;

EID: 34247521359     PISSN: 01411187     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.apor.2007.02.002     Document Type: Article

References (23)

1. Faltinsen OM, Kjærland O, Nøttveit A, Vinje T. Water impact loads and dynamic response of horizontal circular cylinders in offshore structures. In: Proc. 9th annual offshore technology conference, vol. I. 1977. p. 119-25
2. Wagner H. Über Stoss- und Gleitvorgänge an der Oberfläche von Flüssigkeiten. Zeitschrrift für Angewandte Mathematik und Mechanik 12 4 (1932) 193-235
3. Faltinsen O.M. Sea loads on ships and offshore structures (1990), Cambridge University Press, Cambridge
4. Greenhow M. Water-entry and -exit of a horizontal circular cylinder. Applied Ocean Research 10 (1988) 191-198
5. Zhu X, Faltinsen OM, Hu C. Water entry and exit of a horizontal circular cylinder. Journal of Offshore Mechanics and Arctic Engineering 2007 [in press]
6. Shibue T, Ito A, Nakayama E. Structural response analysis of cylinders under water impact. In: Proc. of the int. conf. on hydroelasticity in marine technology. 1994
7. Arai M., and Miyauchi T. Numerical study of the impact of water on cylindrical shells, considering fluid-structure interactions. In: Oosterveld M.W.C., and Tan. S.G. (Eds). Practical design of ships and mobile units (1998), Elsevier Applied Science, London, New York 59-68
8. Bereznitski A. Local hydroelastic response of ship structures under impact loads from water (slamming). Ph.D. thesis. Delft (Netherlands): Delft University of Technology; 2003
9. Ionina MF, Korobkin AA. Water impact on cylindrical shells. In: Proc. of 4th intern. workshop on water waves and floating bodies. 1999. p. 44-7
10. Korobkin AA. Water impact problems in ship hydrodynamics. In: Ohkusu M, editor. Advances in marine hydrodynamics. Southampton: Computational Mechanics Publications. p. 323-71 [Chapter 7]
11. Sun H, Faltinsen OM. The fluid-structure interaction during the water impact of a cylindrical shell. In: Proc. 4th int. conference on hydroelasticity in marine technology. 2006
12. Zhao R., and Faltinsen O.M. Water entry of two-dimensional bodies. Journal of Fluid Mechanics 246 (1993) 593-612
13. Tanizawa K. A numerical simulation method of hydroelastic water surface impact based on acceleraton potential. In: Proc. of 3rd ASME/JSME joint fluids engineering conference. 1999
14. Greco M. A two-dimensional study of green-water loading. Ph.D. thesis. Trondheim (Norway): Norwegian University of Science and Technology; 2001
15. Ventsel E., and Krauthammer T. Thin plates and shells: Theory, analysis, and applications (2001), Marcel Dekker, New York
16. Timoshenko S., and Woinowsky-krieger S. Theory of plates and shells (International student edition). 2nd ed. (1970), McGraw-Hill Kogakusha, Tokyo
17. Sun H, Faltinsen OM. The influence of gravity on the performance of planing vessels in calm water. Journal of Engineering Mathematics 2007 [in press]
18. Zhao R, Faltinsen OM, Aarsnes JV. Water entry of arbitrary two-dimensional sections with and without flow separation. In: Proc. 21st symp. on naval hydrodynamics. 1996
19. Timoshenko S., Young D.H., and Weaver J.R.W. Vibration problems in engineering (1974), John Wiley & Sons, New York
20. Greenhow M, Lin WM. Nonlinear free surface effects: Experiments and theory. Report no. 83-19. Department of Ocean Engineering, MIT; 1983
21. 6. Journal of Fluid Mechanics 34 4 (1968) 625-639
22. Achenbach E. Influence of surface roughness of the cross-flow around a circular cylinder. Journal of Fluid Mechanics 46 2 (1971) 321-335
23. Faltinsen O.M. Hydrodynamics of high-speed marine vehicles (2005), Cambridge University Press, New York