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Ocean Systems Engineering
  Volume 11, Number 1, March 2021 , pages 59-81
DOI: https://doi.org/10.12989/ose.2021.11.1.059
 

Nonlinear formulation and free vibration of a large-sag extensible catenary riser
Ong-art Punjarat and Somchai Chucheepsakul

 
Abstract
    The nonlinear formulation using the principle of virtual work-energy for free vibration of a large-sag extensible catenary riser in two dimensions is presented in this paper. A support at one end is hinged and the other is a free-sliding roller in the horizontal direction. The catenary riser has a large-sag configuration in the static equilibrium state and is assumed to displace with large amplitude to the motion state. The total virtual work of the catenary riser system involves the virtual strain energy due to bending, the virtual strain energy due to axial deformation, the virtual work done by the effective weight, and the inertia forces. The nonlinear equations of motion for two-dimensional free vibration in the Cartesian coordinate system is developed based on the difference between the Euler's equations in the static state and the displaced state. The linear and nonlinear stiffness matrices of the catenary riser are obtained and the eigenvalue problem is solved using the Galerkin finite element procedure. The natural frequencies and mode shapes are obtained. The results are validated with regard to the reference research addressing the accuracy and efficiency of the proposed nonlinear formulation. The numerical results for free vibration and the effect of the nonlinear behavior for catenary riser are presented.
 
Key Words
    axial deformation; catenary riser; free vibration; large amplitude; variational method
 
Address
Ong-art Punjarat and Somchai Chucheepsakul: Department of Civil Engineering, King Mongkut
 

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