• Title/Summary/Keyword: modular floating structures

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Experimental and numerical study on motion responses of modular floating structures with connectors in waves

  • Dong-Hee Choi;Jae-Min Jeon;Min-Ju Maeng;Jeong-Hyeon Kim;Bo Woo Nam
    • Ocean Systems Engineering
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    • v.14 no.3
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    • pp.277-299
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    • 2024
  • In this study, the wave-induced motion responses of modular floating structures (MFS) was investigated through a series of experiments in a two-dimensional wave tank. A 1:63 scale model test was conducted using a 1-by-2 modular floating structure consisting of two modules and connectors. Two different types of connectors were considered: a pitch-free hinge and rigid connector. The numerical analysis was performed based on the higher-order boundary element method (HOBEM) and wave Green function with potential flow theory. First, the heave and pitch RAOs of the modules from the regular wave tests were directly compared with numerical analysis results. Next, the motion spectra and their statistical values from the irregular wave tests were compared with the numerical analysis results. The study revealed that the sheltering effect of the weather side module led to a reduction in motion of the lee side module. The numerical analysis showed good agreement with the experimental data, demonstrating the validity of the numerical method. Additionally, the rigid connector, which strongly constrain all six degrees of freedom, significantly reduce pitch motion, making the modules behave as a single rigid body.

Frequency-Domain Analysis for Motion of Floating Structures with Perforated Wall (유공벽이 설치된 부유체 동요 평가를 위한 주파수 영역 해석)

  • Jeongsoo Kim;Youn Ju Jeong;Young-Taek Kim
    • Journal of Korean Society of Coastal and Ocean Engineers
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    • v.36 no.1
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    • pp.1-10
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    • 2024
  • As increasing demands for a floating structure expanded from offshore industry facilities to living facilities, it has emerged that necessity of techniques to reduce motions of a floating structure. This study present a floating structure with porosity on the outer surface of the floater. Under each regular and irregular wave, responses of the floater was investigated in frequency domain. The proposed structure is composed of inner and outer floaters, which are connected to each other and the outer wall is perforated, and the heave and the pitch of floaters with different perforation rates (0~30%) were compared with at both the center and the edge. The results showed that pitch responses can be decreased by increasing of perforation rate of the floater. Comparing with responses of the non-perforated floater, those of the proposed floating structure were reduced to above 10% and 2%, respectively for regular and irregular wave conditions.

Experimental Evaluation on Structural Analysis of the Shear Key between Concrete-PE Modules (콘크리트-PE 부유체 모듈의 케이싱형 전단키 구조성능 실험평가)

  • Jeongsoo Kim;Yeon-Ju Jeong
    • Journal of the Society of Disaster Information
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    • v.19 no.3
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    • pp.545-553
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    • 2023
  • Purpose: This study proposes a casing type of shear key to connect with floating breakwater modules composed of concrete and PE(Poly Ethylene), and evaluates the structural performance of the shear key. Method: According to Eurocode, extreme load tests of shear keys with several cross-sections were conducted. Result: The maximum shear resistance of the casing type is 1.5 times than those of the plain concrete type, and the use of the casing shear key leads to ductile behaviors after its peak shear resistance than the shear key made of reinforced concrete. Conclusion: The use of the proposed casing type of shear key will contributes to improve the safety of the shear connection between modular structures.