期刊论文

Yang MinDong

Yang, MD (reprint author), China Energy Engn Grp Co Ltd, Guangdong Elect Power Design Inst, Guangzhou 510663, Guangdong, Peoples R China.

Teng Bin,Xiao LongFei,Ning DeZhi,Shi ZhongMin,Qu Yan

2014-01-01

SCIENCE CHINA-PHYSICS MECHANICS & ASTRONOMY

SCIE、EI

J

57

1

152-165

1674-7348

coupled method; full time-domain; second-order; truss spar; rod theory; irregular wave

A new full time-domain nonlinear coupled method has been established and then applied to predict the responses of a Truss Spar in irregular wave. For the coupled analysis, a second-order time-domain approach is developed to calculate the wave forces, and a finite element model based on rod theory is established in three dimensions in a global coordinate system. In numerical implementation, the higher-order boundary element method (HOBEM) is employed to solve the velocity potential, and the 4th-order Adams-Bashforth-Moultn scheme is used to update the second-order wave surface. In deriving convergent solutions, the hull displacements and mooring tensions are kept consistent at the fairlead and the motion equations of platform and mooring-lines/risers are solved simultaneously using Newmark-beta integration scheme including Newton-Raphson iteration. Both the coupled quasi-static analysis and the coupled dynamic analysis are performed. The numerical simulation results are also compared with the model test results, and they coincide very well as a whole. The slow-drift responses can be clearly observed in the time histories of displacements and mooring tensions. Some important characteristics of the coupled responses are concluded.