LNG, SLOSHING & IMPACT I

 

Chair: Hong, S Y, Korea Res Inst of Ships and Ocean, KORDI, Korea

 

Three-dimensional Sloshing Analysis for LNG Carriers in Irregular Waves

Park, J J, Kim, M S, Ha, M K, Samsung Heavy Industries, Korea

 

A 3D Numerical Method for Assessment of Impact Loads due to Sloshing in Liquid Cargo Tanks

Cheng, L Y, Univ of Sao Paulo, Brazil; Arai, M, Yokohama National Univ, Japan

 

Prediction of Sloshing Load in Irregular Seaways by a Numerical Simulation Method

Makiyama, H S, Arai, M, Yokohama National Univ, Japan

 

A Parametric and Numerical Study on LNG-tank Sloshing Loads

Lee, D H, Kim, M H, Texas A&M Univ, USA; Kwon, S H, Pusan National Univ, Korea; Kim, J W, ABS, USA; Lee, Y B, Daewoo Shipbuilding & Marine Engineering, Korea

 

Experimental Study on Sloshing for Large LNGC Design

Lee, Y B, Sim, I H, Kim, Y S, Daewoo Shipbuilding & Marine Engineering; Jung, J H, Park, J S, Kwon, S H, Jang, T S, Pusan National Univ, Korea

 

 

LNG, SLOSHING & IMPACT 2

 

Chair:  Kashiwagi, M, Kyushu Univ, Japan

Co-Chair: Kim, Y H, Seoul National Univ, Korea

 

Two-phase Flows SPH Simulation of a Free Falling Wedge Water Entry

Oger, G, Alessandrini, B, Ferrant, P, Ecole Centrale de Nantes, France

 

Validation of a Numerical Code by a Particle Method for Violent Free Surface Problems

Sueyoshi, M, Kyushu Univ, Japan

 

Sensitivity Study on Computational Parameters for the Prediction of Slosh-induced Impact Pressures

Kim, Y H, Seoul National Univ; Lee, Y B, Kim, Y S, Daewoo Shipbuilding Marine Engineering, Korea

 

Numerical Simulation for the Uprising Process of a Large-scale Bubble

Li, S W, Huang, X Y, Tianjin Univ, China

 

Numerical Model of Three-dimensional Multiphase Flow Using CIP and Extended SMAC

Kawasaki, K, Nagoya Univ, Japan

 

Numerical Simulation of Violent Sloshing by CIP Method with Experimental Validation

Kishev, Z R, Hu, C H, Kashiwagi, M, Kyushu Univ, Japan