Step-by-step improvement of MPS method in simulating violent free-surface motions and impact-loads BH Lee, JC Park, MH Kim, SC Hwang Computer methods in applied mechanics and engineering 200 (9-12), 1113-1125, 2011 | 379 | 2011 |
Fully non‐linear free‐surface simulations by a 3D viscous numerical wave tank JC Park, MH Kim, H Miyata International Journal for Numerical Methods in Fluids 29 (6), 685-703, 1999 | 202 | 1999 |
Development of a fully Lagrangian MPS-based coupled method for simulation of fluid–structure interaction problems SC Hwang, A Khayyer, H Gotoh, JC Park Journal of Fluids and Structures 50, 497-511, 2014 | 126 | 2014 |
Numerical simulations of sloshing flows with elastic baffles by using a particle-based fluid–structure interaction analysis method SC Hwang, JC Park, H Gotoh, A Khayyer, KJ Kang Ocean Engineering 118, 227-241, 2016 | 122 | 2016 |
Three-dimensional numerical wave tank simulations on fully nonlinear wave–current–body interactions JC Park, MH Kim, H Miyata Journal of Marine Science and Technology 6, 70-82, 2001 | 82 | 2001 |
Numerical simulation of impact loads using a particle method BH Lee, JC Park, MH Kim, SJ Jung, MC Ryu, YS Kim Ocean Engineering 37 (2-3), 164-173, 2010 | 80 | 2010 |
Development of moving particle simulation method for multiliquid‐layer sloshing KS Kim, MH Kim, JC Park Mathematical Problems in Engineering 2014 (1), 350165, 2014 | 75 | 2014 |
Numerical reproduction of fully nonlinear multi-directional waves by a viscous 3D numerical wave tank JC Park, Y Uno, T Sato, H Miyata, HH Chun Ocean Engineering 31 (11-12), 1549-1565, 2004 | 72 | 2004 |
Numerical prediction of oil amount leaked from a damaged tank using two-dimensional moving particle simulation method SM Jeong, JW Nam, SC Hwang, JC Park, MH Kim Ocean Engineering 69, 70-78, 2013 | 64 | 2013 |
Fully nonlinear multidirectional waves by a 3-D viscous numerical wave tank MH Kim, JM Niedzwecki, JM Roesset, JC Park, SY Hong, A Tavassoli J. Offshore Mech. Arct. Eng. 123 (3), 124-133, 2001 | 62 | 2001 |
Numerical simulation of wave and current interaction with a fixed offshore substructure SY Kim, KM Kim, JC Park, GM Jeon, HH Chun International Journal of naval Architecture and ocean engineering 8 (2), 188-197, 2016 | 58 | 2016 |
Fully nonlinear numerical wave tank (NWT) simulations and wave run-up prediction around 3-D structures JC Park, MH Kim, H Miyata, HH Chun Ocean engineering 30 (15), 1969-1996, 2003 | 56 | 2003 |
On the accuracy of numerical wave making techniques JC Park, M Zhu, H Miyata Journal of the Society of Naval Architects of Japan 1993 (173), 35-44, 1993 | 49 | 1993 |
Experimental study on sloshing reduction effects of baffles linked to a spring system SP Kim, SM Chung, WJ Shin, DS Cho, JC Park Ocean Engineering 170, 136-147, 2018 | 43 | 2018 |
Multiphase-thermal simulation on BOG/BOR estimation due to phase change in cryogenic liquid storage tanks GM Jeon, JC Park, S Choi Applied Thermal Engineering 184, 116264, 2021 | 35 | 2021 |
Numerical simulation of resistance performance according to surface roughness in container ships J Seok, JC Park International Journal of Naval Architecture and Ocean Engineering 12, 11-19, 2020 | 28 | 2020 |
Estimation of hydrodynamic coefficients for flow around cylinders in side-by-side arrangement with variation in separation gap S Ryu, SB Lee, BH Lee, JC Park Ocean Engineering 36 (9-10), 672-680, 2009 | 28 | 2009 |
Simulation of sloshing effect on vessel motions by using MPS (moving particle simulation) KS Kim, BH Lee, MH Kim, JC Park Computer Modeling in Engineering and Sciences 79 (3), 201, 2011 | 27 | 2011 |
Reproduction of fully-nonlinear multi-directional waves by a 3D viscous numerical wave tank JC Park, Y Uno, H Matsuo, T Sato, H Miyata ISOPE International Ocean and Polar Engineering Conference, ISOPE-I-01-256, 2001 | 26 | 2001 |
Numerical approach to analyze fluid flow in a type C tank for liquefied hydrogen carrier (part 1: Sloshing flow) SM Chung, GM Jeon, JC Park International Journal of Hydrogen Energy 47 (8), 5609-5626, 2022 | 24 | 2022 |