COMPOSITE 2D 3D HYDROELASTIC-ANALYSIS METHOD FOR FLOATING STRUCTURES

A new approach to the analysis of the wave-induced hydroelastic response of floating, slender structures is developed that combines a three-dimensional structural model with fluid forces from two-dimensional potential theory (strip theory). Because a three-dimensional finite-element model of the structure is used, the method allows direct computation of three-dimensional structural response, such as individual member forces and stresses. However. because a two-dimensional fluid model is used, the large computational effort of three-dimensional hydroelasticity (primarily a result of three-dimensional potential theory) is avoided. The composite 2D/3D method is verified by satisfactory agreement with results from full three-dimensional hydroelasticity for a SWATH (small water-plane area twin-hull) ship. The results indicate that the method may be useful in design of large, slender structures, such as ships, because the computational effort is significantly less than required in 3D hydroelasticity.