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Effects of various factors on the viv-induced fatigue damage in the cable of submerged floating tunnel

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Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
According to the modal superposition method, the vortex vibration procedure of submerged floating tunnel cable was compiled using Matlab, based on the calculated results, the fatigue damage was predicted. The effects of various factors, such as cable density, cable length, and pretension and velocity distribution on vortex induced fatigue damage in the cable were studied. The results show that velocity distribution has more effect on the cable fatigue damage than cable length, cable density and pretension. Secondly, cable length has also relatively effect on the cable damage fatigue, cable density and pretension has limited in a certain range.
Rocznik
Tom
Strony
76--83
Opis fizyczny
Bibliogr. 13 poz., rys., tab.
Twórcy
autor
  • ianxun Chen School of Highway, Chang’an University,Xi’an Shaanxi 710064, China tel.:+00862982332897, fax: +00862982332897
autor
  • Jianxun Chen School of Highway, Chang’an University,Xi’an Shaanxi 710064, China tel.:+00862982332897, fax: +00862982332897
autor
  • School of Civil Engineering Southwest Jiaotong University, Chengdu 610031, China
Bibliografia
  • 1. Blevins, R.D., Flow-induced vibration, Van Nostrand Reinhold, New York, USA, 1990.
  • 2. Chaplin, J.R., Bearman, P.W., Huera, H.F.J., and Pattenden, R.J., Laboratory measurements of vortex-induced vibrations of a vertical tension riser in stepped current, Journal of Fluids and Structures, Vol. 21, pp.3-24, 2005.
  • 3. Dong, M.S., Ge, F., Hui, L. et al., Research progress in submerged floating tunnels (in chinese), China Journal of Highway and Transport. Vol. 20, no. 4, pp. 101-107, 2007.
  • 4. Gopalkrishnan, R., Vortex induced forces on oscillating bluff cylinders, MIT: Cambridge, MA, USA, 1993.
  • 5. Hu, Y.R., Li, D.Q., and Chen, B.Z., ship and ocean engineering structure fatigue reliability analysis. Beijing, Beihang University Press, 2010.
  • 6. Mai, J.T., Luo, Z.X., and Guan, B.S., Vortex-induced dynamic response of tension legd for submerged floating tunnel under current effect, JOURNAL OF SOUTHWEST JIAOTONG UNINERSITY, 2004, Vol. 39, no. 5, pp. 600-604.
  • 7. Meling, T.S., Eik, K.J., and Nygaard, E., An assessment of EOF current scatter diagrams with respect to riser VIV fatigue damage, Proceedings of the 21th OMAE, Paper No. OMAE2002-28062, Oslo, Norway, 2002.
  • 8. Pan, Z.Y., Cui, W.C., and Liu, Y.Z., The prediction of vortexinduced vibration (VIV) of a slender tensioned riser in a stepped current, JOURNAL OF SHANGHAI JIANTONG UNIVERSITY, Vol. 40, no. 6, pp. 1064-1068.
  • 9. Trim, A.D., Braaten H., Lie, H., and Tognarelli, M.A., Experimental investigation of vortex-induced vibration of long marine risers, Journal of Fluids and Structures, Vol. 21, no. 4, pp. 335-361, 2005.
  • 10. Vandiver, J.K. and Li, L., SHEAR7 program theory manual. Cambridge, MA, Department of Ocean Engineering, MIT, USA, 1999
  • 11. Vandiver, J.K., Research challenges in the vortex-induced vibration prediction of marine risers, Proceedings of the OTC, Paper No. OTC 8098, Houston, USA, 1998.
  • 12. Vengugopal, Madan, Damping and response prediction of a flexible cylinder in a current, Ph.D.Thesis submitted to Dept. of Ocean Eng. MIT. 1996.
  • 13. Vikestad, K., (1998) Multi-frequency response of a cylinder subjected to vortex shedding and support motions. Ph.D. dissertation, Department of Marine Structures Faculty of Marine Technology, Norwegian University of Science and Technology
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e6758225-6abd-4187-b504-c0696d3c76a5
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