Nonlinear Dynamics Response of Casing Pipe Under Combined Wave-Current

TANG You-gang; GU Jia-yang; ZUO Jian-li; MIN Jian-qin

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Article Navigation > Applied Mathematics and Mechanics > 2005 > 26(8): 951-956

TANG You-gang, GU Jia-yang, ZUO Jian-li, MIN Jian-qin. Nonlinear Dynamics Response of Casing Pipe Under Combined Wave-Current[J]. Applied Mathematics and Mechanics, 2005, 26(8): 951-956.

Citation:

TANG You-gang, GU Jia-yang, ZUO Jian-li, MIN Jian-qin. Nonlinear Dynamics Response of Casing Pipe Under Combined Wave-Current[J]. Applied Mathematics and Mechanics, 2005, 26(8): 951-956.

Citation:

TANG You-gang, GU Jia-yang, ZUO Jian-li, MIN Jian-qin. Nonlinear Dynamics Response of Casing Pipe Under Combined Wave-Current[J]. Applied Mathematics and Mechanics, 2005, 26(8): 951-956.

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Nonlinear Dynamics Response of Casing Pipe Under Combined Wave-Current

Department of Naval Architecture and Ocean Engineering, School of Civil Engineering, Tianjin University, Tianjin 300072, P. R. China

Received Date: 2003-09-22
Rev Recd Date: 2004-11-23
Publish Date: 2005-08-15

Abstract

Abstract

The vortex-induced nonlinear vibration of casing pipes in the deep water was studied considering the loads of current and combined wave-current. The vortex-induced vibration equation of a casing pipe was set up considering the beam mode and Morison's nonlinear fluid loads as well as the vortex-excited loads. The approach of calculating vortex-excited nonlinear vibration by Galerkin's method was proposed. The natural vibration frequencies and modes were obtained, and the response including primary resonance induced by current and the composite resonance under combined wave-current for the 170 m long casing pipe in the 160 m depth of water were investigated. The results show that the dynamics response of casing pipe obviously increases, and the complicated response behaviors of casing pipe are described under combined wave-current.
- casing pipes in the deep water,
- fluid dynamics,
- combined wave-current,
- vortex-excited vibration,
- composite resonance

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References(8)

References

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