Han-Baek Ju scite author profile

Han-Baek Ju

5Publications

10Citation Statements Received

13Citation Statements Given

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Seoul National University

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A study on slamming pressure on a flat stiffened plate considering fluid–structure interaction

et al. 2015

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Normally, the design slamming pressure on the bottomof a semi-submersible-type floating rig is determined in a simple way using the relative speed obtained from an air-gap analysis. However, few studies have taken a thorough, robust, and deep-background approach to the estimation of design pressure. To investigate the slamming pressure on the bottom of a semi-submersible rig, a simplified deformable stiffened plate of a zero-degree deadrise angle is simulated using the nonlinear FEM software LS-DYNA, which can take the influence of fluid-structure interaction (FSI) into account. Various parametric studies are carried out to examine the effects of structural flexibility, coupling stiffness, mesh size, velocity, stiffener size, and air cushion. The pressure response on the plate by the coupling of fluid and structure is studied and the FSI effect of each parameter is discussed. Then, equivalent transient and static loads that result in the same maximum or permanent deformation as FSI are evaluated for design purposes through a series of parametric studies.

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Prediction of slamming pressure considering fluid-structure interaction. Part I: numerical simulations

Truong

Jang

et al. 2020

Ships and Offshore Structures

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A simplified structural safety assessment of a fin-typed energy saving devices subjected to nonlinear hydrodynamic load

Jang

Lee

et al. 2018

Ocean Engineering

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Prediction of slamming pressure considering fluid-structure interaction. Part II: Derivation of empirical formulations

Truong

Jang

et al. 2021

Marine Structures

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Benchmark study on slamming response of flat-stiffened plates considering fluid-structure interaction

et al. 2021

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Han-Baek Ju

A study on slamming pressure on a flat stiffened plate considering fluid–structure interaction

Prediction of slamming pressure considering fluid-structure interaction. Part I: numerical simulations

A simplified structural safety assessment of a fin-typed energy saving devices subjected to nonlinear hydrodynamic load

Prediction of slamming pressure considering fluid-structure interaction. Part II: Derivation of empirical formulations

Benchmark study on slamming response of flat-stiffened plates considering fluid-structure interaction

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