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Effects of nonlinear FK (Froude- Krylov) and hydrostatic restoring forces on arctic-spar motions in waves

Hakun Jang, Moo‐Hyun Kim

2020International Journal of Naval Architecture and Ocean Engineering20 citationsDOIOpen Access PDF

Abstract

An Arctic Spar is characterized by its conical shape near the waterline. In this case, the nonlinear effects from its irregular hull shape would be significant if there is either a large amplitude floater motion or steep wave conditions. Therefore, in this paper, the nonlinear effects of an Arctic Spar are numerically investigated by introducing a weakly nonlinear time-domain model that considers the time dependent hydrostatic restoring stiffness and Froude-Krylov forces. Through numerical simulations under multiple regular and irregular wave conditions, the nonlinear behavior of the Arctic Spar is clearly observed, but it is not shown in the linear analysis. In particular, it is found that the nonlinear Froude-Krylov force plays an important role when the wave frequency is close to the heave natural frequency. In addition, the nonlinear hydrostatic restoring stiffness causes the structure's unstable motion at a half of heave natural period.

Topics & Concepts

SparFroude numberRestoring forceHydrostatic equilibriumNonlinear systemMechanicsStiffnessGeologyStructural engineeringGeotechnical engineeringEngineeringPhysicsFlow (mathematics)Quantum mechanicsWave and Wind Energy SystemsArctic and Antarctic ice dynamicsFluid Dynamics Simulations and Interactions