Experiment and numerical investigation on structural response of a FMRC hexagon enclosed platform in waves

Hexagon Enclosed Platform (HEP) provides life accommodation, ship docking and marine replenishment for many ocean-going vessels in deep ocean. The HEP is composed of six trapezoidal floating modules connected by six rigid connectors and has characteristic of heteromorphic mat-type so that its hydroelastic response is critical. Therefore, this paper proposes a FMRC (Flexible modulus Rigid Connector) HEP model and studies its hydroelastic response by means of numerical simulations and model experiment. Firstly, a scaled model of HEP which is also made up of six trapezoidal structural modules constructing with a steel layer and foam layer is designed and fabricated for model experiment. Secondly, the model experiment of HEP is performed in a number of tank waves. Thirdly, 3D hydroelasticity method is used to calculate the load and structural responses of HEP model. Finally, numerical results and experimental results involving frequency-domain and time-domain results are obtained and compared, and the structural response mechanism of FMRC HEP is analysed. It is found that experimental results and numerical results have accordant matching and hydroelastic response of HEP is generated indeed based on research results. The research results and conclusions obtained in the paper are used to guide conceputal design of a HEP structure.

Automated summary

This study proposes a FMRC HEP model and investigates the hydroelastic response of HEP through numerical simulations and model experiments. The results show that experimental and numerical results match, providing guidance for the design of the HEP structure.