Browse > Article
http://dx.doi.org/10.7837/kosomes.2012.18.6.577

Hydrodynamic-Structural Response Coupling Analysis to a Rectangle Floating Structures  

Oh, Young-Cheol (Dep. of Ocean System Engineering, Graduate School, MMU)
Gim, Ok-Sok (Dep. of Naval Architecture & Ocean Engineering, College of Marine Technology, MMU)
Ko, Jae-Yong (Dep. of Naval Architecture & Ocean Engineering, College of Marine Technology, MMU)
Publication Information
Journal of the Korean Society of Marine Environment & Safety / v.18, no.6, 2012 , pp. 577-583 More about this Journal
Abstract
Structures floating in the ocean experience various kinds of external loads, among which wave load is considered as determining factor in structural design. Its relative size compared with wavelength may be used to classify whether the structure is relatively small or large. Traditionally, the small structures are assumed to have little diffraction and the wave loads on large structure are usually calculated by only considering inertia force according to diffraction. In this paper, rectangular floating structures usually used in the ocean, river, and lake are used to find the relationship between hydrodynamic forces and its structural response.
Keywords
Floating structures; Wave loads; Diffraction; Wave motion-structural response; Hydrodynamic;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 ANSYS, Inc.(2010), ANSYS AQWA User's manual. pp. 1-84.
2 Lee, Du-Ho and Youn-Ju Jeong(2011), Integrated Analysis of Hydrodynamic Motions and Structural Behavior of Large-Scaled Floating Structures using AQWA-ANSYS Coupling, Journal of the computational structural engineering institute of Korea, Vol. 24, No. 6, pp. 601-608.
3 Lee, H. S., J. D. Chun, S. Y. Lee, B. H. Park and E. C. Jeon(2012), A Study of a Influence on a Offshore Wind Power Jack-up Platform by Complex Force, The Korean Society of Manufacturing Technology Engineers, Autumn Conference, p. 318.
4 MLTM(2005), Ministry of Land & Transport and Maritime Affairs, Harbor and Fishery Design Criteria. pp. 111-155.
5 Moon, Hyun-Gi, Kab-Soo Kyung, Jin-Eun Park, Ssang-Sun Jun and Jin-Gon Kim(2011), A Study on Behavior of Offshore Structures under Wave Variation, The Computational Structural Engineering Institute of Korea, pp. 183-186.
6 Sohn, Kyoung-Ho(1998), Ocean waves, hyosung Press. pp. 1-106.
7 Yum, Deuk-Joon(2010), Dynamics of Marine Structure, Ulsan University Press. pp. 1-112.