Coupled-dynamic analysis of floating structures with polyester mooring lines |
| |
Authors: | Arcandra Tahar M.H. Kim |
| |
Affiliation: | aAGR Deepwater Development System, Inc. Houston Texas 77079, USA;bDepartment of Civil Engineering/Ocean Engineering Program, Texas A&M University, USA |
| |
Abstract: | A theory and numerical tool are developed for the coupled-dynamic analysis of a deepwater floating platform with polyester mooring lines. The formulas allow relatively large elongation and nonlinear stress–strain relationships, as typically observed in polyester fibers. The mooring-line dynamics are based on a rod theory and the finite element method (FEM), with the governing equations described in a generalized coordinate system. The original rod theory [Nordgren, R.P., 1974. On Computation of the Motion of Elastic Rods. Journal of Applied Mechanics, 41, 777–780] is generalized to allow larger elongation and nonlinear stress–strain relationship. The dynamic modulus of polyester is modeled following an empirical regression formula suggested by [Bosman, R.L.M., Hooker, J., 1999. The Elastic Modulus Characteristic of Polyester Mooring Ropes. In: Proceedings of the Offshore Technology Conference, OTC 10779. Houston, Texas], in which the axial stiffness is not constant, but depends on loading conditions. Two case studies, the static and dynamic behavior of a tensioned buoy and a classic spar with polyester mooring lines, are conducted. The time-domain simulation results are systematically compared with those from the original rod theory. The effects of large elongation and nonlinear stress–strain relations are separately assessed. It is seen that the mean offset, motions, and tension with polyester lines can be different from those by original rod theory with linear elastic lines. |
| |
Keywords: | Polyester mooring lines Nonlinear stress– strain relationship Large elongation Vessel– mooring coupled-dynamic analysis Tension-dependent stiffness Finite element method Time-domain simulation |
本文献已被 ScienceDirect 等数据库收录! |
|