Hydroelastic interactions of a deformable floating body with random waves are investigated in time domain. Both hydroelastic motion and structural dynamics are solved by expansion of elastic modes and Fourier transform for the random waves. A direct and efficient structural analysis in time domain is developed. In particular, an efficient way of obtaining distributive loads for the hydrodynamic integral terms including convolution integral by using Fubini theory is explained. After confirming correctness of respective loading components, calculations of full distributions of loads in random waves are expedited by reformulating all the body loading terms into distributed forms. The method is validated by extensive convergence tests and comparisons against the counterparts of the frequency-domain analysis. Characteristics of motion/deformation responses and stress resultants are investigated through a parametric study with varying bending rigidity and types of random waves. Relative contributions of componential loads are identified. The consequence of elastic-mode resonance is underscored.
Time-domain hydroelastic analysis with efficient load estimation for random waves
2017
Aufsatz (Zeitschrift)
Elektronische Ressource
Unbekannt
Random-sea hydroelasticity , Direct time-domain hydroelastic structural analysis , Numerical hammer test and deformation resonance , Distributive convolution loads , Irregular shear forces and bending moments , Ocean engineering , TC1501-1800 , Naval architecture. Shipbuilding. Marine engineering , VM1-989
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