Book: 

[1] Numerical Modeling and Experimental Studies of Two-Phase Flows, Edited by Van-Tu Nguyen and Hemant J. Sagar.  ISBN978-3-7258-2136-5 (Hardback) ISBN978-3-7258-2135-8 (PDF), 238 pages 

International Journal papers:

[37] Nguyen Q-T, Kadivar E, Phan T-H, Nguyen V-T, el Moctar O, Park W-G. Effects of free surface on dynamics of a laser-induced cavitation bubble near horizontal rigid wall. Ocean Eng. 2025;319:120258.

[36] Nguyen Q-T, Nguyen V-T, Sagar H, Moctar Oe, Park W-G. Effects of oscillating curved wall on behavior of a collapsing cavitation bubble. Phys Fluids. 2025;37.

[35] Park S-H, Nguyen V-T, Park W-G. Numerical investigation on supercavitation hydrodynamics of high-speed water entry projectiles under effect of different head shapes. Ocean Eng. 2024;311:118926.

[34] Nguyen V-T, Sagar HJ, el Moctar O, Park W-G. Understanding cavitation bubble collapse and rebound near a solid wall. Int J Mech Sci. 2024:109473.

[33] Han D-W, Park S-H, Duy-Trong N, Nguyen V-T, Sagar H, Moctar OE, et al. Dynamics of a single cavitation bubble near a cylindrical blind hole. Ocean Engineering. 2024;311:118890.

[32] Nguyen V-T, Phan T-H, Park S-H, Duy T-N, Nguyen Q-T, Park W-G. Numerical study of shock waves and supersonic jets triggered by cavitation bubble collapse in different pressurized ambiences. Journal of Mechanical Science and Technology. 2024;38:4167-73.

[31] Phan T-H, Nguyen V-T, Duy T-N, Park W-G. Numerical study on laser-induced cavitation bubble dynamics inside a millimetric droplet. Phys Fluids. 2024;36.

[30] Park S-H, Phan T-H, Nguyen V-T, Duy T-N, Nguyen Q-T, Park W-G. Numerical simulation of wall shear stress and boundary layer flow from jetting cavitation bubble on unheated and heated surfaces. Int J Heat Mass Tran. 2024;222:125189.

[29] Nguyen V-T, Phan T-H, Park W-G. Modeling of shock wave produced by collapse of cavitation bubble using a fully conservative multiphase model. Phys Fluids. 2023;35:116102.

[28] T-N Duy, V-T Nguyen, T-H Phan, Q-T Nguyen, S-H Park, W-G Park, Numerical study of bubble dynamics near a solid wall with a gas-entrapping hole, Ocean Engineering,Volume 285, Part 1, 2023, 115344, ISSN 0029-8018, https://doi.org/10.1016/j.oceaneng.2023.115344.

[27] Q-T Nguyen, V-T Nguyen (Corresponding author), T-H Phan, T-N Duy, S-H Park, and W-G Park, "Numerical study of dynamics of cavitation bubble collapse near oscillating walls", Physics of Fluids 35, 013306 (2023) https://doi.org/10.1063/5.0132049

[26]  V.-T. Nguyen (Corresponding author), and W.-G. Park, "A Review of Preconditioning and Artificial Compressibility Dual-Time Navier–Stokes Solvers for Multiphase Flows," Fluids 8, 100 (2023).

[25] V.-T. Nguyen (Corresponding author), T.-H. Phan, T.-N. Duy, and W.-G. Park,"Unsteady cavitation around submerged and water-exit projectiles under the effect of the free surface: A numerical study " Ocean Engineering, Volume 263, 1 November 2022, 112368. https://doi.org/10.1016/j.oceaneng.2022.112368

[24] T.-N. Duy, V.-T. Nguyen, T.-H. Phan, D.-H. Kim, and W.-G. Park, "A free surface flow solver based on an efficient improvement to a coupling method for interface computations," Computers & Mathematics with Applications, vol. 124, pp. 21-41, 2022/10/15/ 2022. https://doi.org/10.1016/j.camwa.2022.08.020  

[23] T.-N. Duy, V.-T. Nguyen, T.-H. Phan, H.-S. Hwang, and W.-G. Park, "Numerical analysis of ventilated cavitating flow around an axisymmetric object with different discharged temperature conditions," International Journal of Heat and Mass Transfer, vol. 197, p. 123338, 2022/11/15/ 2022. https://doi.org/10.1016/j.ijheatmasstransfer.2022.123338

[22] T.-N. Duy, V.-T. Nguyen, and W.-G. Park, "Numerical investigation on influences of injection flow rate on bubbling flow at submerged orifices," European Journal of Mechanics - B/Fluids, vol. 95, pp. 23-37, 2022/09/01/ 2022. https://doi.org/10.1016/j.euromechflu.2022.03.015

[21] V.-T. Nguyen (Corresponding author) and W.-G. Park, "Numerical study of the thermodynamics and supercavitating flow around an underwater high-speed projectile using a fully compressible multiphase flow model," Ocean Engineering, vol. 257, p. 111686, 2022/08/01/ 2022. https://doi.org/10.1016/j.oceaneng.2022.111686

[20] T.-H. Phan, V.-T. Nguyen, T.-N. Duy, D.-H. Kim, and W.-G. Park, "Influence of phase-change on the collapse and rebound stages of a single spark-generated cavitation bubble," International Journal of Heat and Mass Transfer, vol. 184, p. 122270, 2022/03/01/ 2022. https://doi.org/10.1016/j.ijheatmasstransfer.2021.122270

[19] T.-H. Phan, E. Kadivar, V.-T. Nguyen, O. el Moctar, and W.-G. Park, "Thermodynamic effects on single cavitation bubble dynamics under various ambient temperature conditions," Physics of Fluids, vol. 34, no. 2, p. 023318, 2022/02/01 2022. https://doi.org/10.1063/5.0076913

[18] V.-T. Nguyen (Corresponding author), T.-H. Phan, T.-N. Duy, D.-H. Kim, and W.-G. Park, "Modeling of the bubble collapse with water jets and pressure loads using a geometrical volume of fluid based simulation method," International Journal of Multiphase Flow, vol. 152, p. 104103, 2022/07/01/ 2022. https://doi.org/10.1016/j.ijmultiphaseflow.2022.104103

[17] V.-T. Nguyen (Corresponding author), T.-H. Phan, T.-N. Duy, D.-H. Kim, and W.-G. Park, "Fully compressible multiphase model for computation of compressible fluid flows with large density ratio and the presence of shock waves," Computers & Fluids, vol. 237, p. 105325, 2022/04/15/ 2022. https://doi.org/10.1016/j.compfluid.2022.105325

[16] T.-H. Phan, J.-G. Shin, V.-T. Nguyen, T.-N. Duy, and W.-G. Park, "Numerical analysis of an unsteady natural cavitating flow around an axisymmetric projectile under various free-stream temperature conditions," International Journal of Heat and Mass Transfer, vol. 164, p. 120484, 2021/01/01/ 2021. https://doi.org/10.1016/j.ijheatmasstransfer.2020.120484

[15] T.-H. Phan, V.-T. Nguyen, T.-N. Duy, D.-H. Kim, and W.-G. Park, "Numerical study on simultaneous thermodynamic and hydrodynamic mechanisms of underwater explosion," International Journal of Heat and Mass Transfer, vol. 178, p. 121581, 2021/10/01/ 2021. https://doi.org/10.1016/j.ijheatmasstransfer.2021.121581

[14] V.-T. Nguyen (Corresponding author), T.-H. Phan, and W.-G. Park, "Numerical modeling of multiphase compressible flows with the presence of shock waves using an interface-sharpening five-equation model," International Journal of Multiphase Flow, vol. 135, p. 103542, 2021/02/01/ 2021. https://doi.org/10.1016/j.ijmultiphaseflow.2020.103542

[13] V.-T. Nguyen (Corresponding author), T.-H. Phan, T.-N. Duy, and W.-G. Park, "3D simulation of water entry of an oblique cylinder with six-degree-of-freedom motions using an efficient free surface flow model," Ocean Engineering, vol. 220, p. 108409, 2021/01/15/ 2021.https://www.sciencedirect.com/science/article/pii/S0029801820313160

[12] V.-T. Nguyen (Corresponding author), T.-H. Phan, T.-N. Duy, and W.-G. Park, "Numerical modeling for compressible two-phase flows and application to near-field underwater explosions," Computers & Fluids, vol. 215, p. 104805, 2021/01/30/ 2021. https://www.sciencedirect.com/science/article/pii/S0045793020303753

[11] T.-N. Duy, V.-T. Nguyen, T.-H. Phan, and W.-G. Park, "An enhancement of coupling method for interface computations in incompressible two-phase flows," Computers & Fluids, vol. 214, p. 104763, 2021/01/15/ 2021. https://doi.org/10.1016/j.compfluid.2020.104763

[10] T.-H. Phan, V.-T. Nguyen, and W.-G. Park, "Numerical study on strong nonlinear interactions between spark-generated underwater explosion bubbles and a free surface," International Journal of Heat and Mass Transfer, vol. 163, p. 120506, 2020/12/01/ 2020. https://www.sciencedirect.com/science/article/pii/S0017931020334426

[9] V-T Nguyen (Corresponding author), Phan T-H, Park W-G. Modeling and numerical simulation of ricochet and penetration of water entry bodies using an efficient free surface model. Int J Mech Sci. 2020;182:105726. https://www.sciencedirect.com/science/article/pii/S0020740319339232

[8] V-T Nguyen, Nguyen NT, Phan T-H, Park W-G. Efficient three-equation two-phase model for free surface and water impact flows on a general curvilinear body-fitted grid. Comput Fluids, 2020; 104324. https://www.sciencedirect.com/science/article/pii/S0045793019302841

[7] Phan T-H, Nguyen V-T, Park W-G. Numerical study on dynamics of an underwater explosion bubble based on compressible homogeneous mixture model. Comput Fluids. 2019;191:104262. https://www.sciencedirect.com/science/article/pii/S0045793019302270

[6] V-T Nguyen, V-D Thang, W-G Park, A novel sharp interface capturing method for two- and three-phase incompressible flows, Computers & Fluids, Volume 172, 2018, Pages 147-161, ISSN 0045-7930, https://doi.org/10.1016/j.compfluid.2018.06.020.

[5] V-T Nguyen and W-G Park, Enhancement of Navier–Stokes solver based on an improved volume-of-fluid method for complex interfacial-flow simulations, Applied Ocean Research, Volume 72, 2018, Pages 92-109, ISSN 0141-1187, https://doi.org/10.1016/j.apor.2018.01.007.

[4] V-T Nguyen and W-G Park, A volume-of-fluid (VOF) interface-sharpening method for two-phase incompressible flows, Computers & Fluids, Volume 152, 2017, Pages 104-119, ISSN 0045-7930, http://dx.doi.org/10.1016/j.compfluid.2017.04.018.

[3] V-T Nguyen, D-T Vu, W-G Park, C-M Jung, Navier–Stokes solver for water entry bodies with moving Chimera grid method in 6DOF motions, Computers & Fluids, Volume 140, 25 November 2016, Pages 19-38, ISSN 0045-7930, http://dx.doi.org/10.1016/j.compfluid.2016.09.005.

[2] V-T Nguyen and W-G Park, A free surface flow solver for complex three-dimensional water impact problems based on the VOF method. Int. J. Numer. Meth. Fluids, 82: 3–34 (2016), ISSN: 1097-0363. https://onlinelibrary.wiley.com/doi/full/10.1002/fld.4203

[1] V-T Nguyen, D-T Vu, W-G Park, Y-R Jung, Numerical analysis of water impact forces using a dual-time pseudo-compressibility method and volume-of-fluid interface tracking algorithm, Computers & Fluids, Volume 103, 1 November 2014, Pages 18-33, ISSN 0045-7930, http://dx.doi.org/10.1016/j.compfluid.2014.07.007

International Conference papers:

[25] Van-Tu Nguyen, Hemant J Sagar, Thanh-Hoang Phan, Trong-Nguyen Duy, Seong-Ho Park, Quang-Thai Nguyen, Ould e Moctar, Warn-Gyu Park, Shock wave and temperature induced by bubble collapse and rebound: Numerical and experimental study, 76th Annual Meeting of the Division of Fluid Dynamics, Sunday–Tuesday, November 19–21, 2023; Washington, DC, USA.

[24] Van-Tu Nguyen, Thanh-Hoang Phan, Seong-Ho Park, Trong-Nguyen Duy, Quang-Thai Nguyen, Warn-Gyu ParkPark, Numerical Modeling of Shock Waves and Supersonic Jet Induced by Cavitation Bubble Collapse, the 34th International Symposium on Shock Waves (ISSW34) in Daegu, Korea, July 16-21, 2023.

[23] Van-Tu Nguyen, Thanh-Hoang Phan, Trong-Nguyen Duy, Warn-Gyu Park, Advancement in numerical computation of free surface flow: Applications and challenges in hydraulic and hydrodynamic system, The 4th International Conference on Transportation Infrastructure and Suistainable Development (TISDIC), August 26th-28th, 2023, Danang, Vietnam

[22] Thanh-Hoang Phan, Van-Tu Nguyen, Trong-Nguyen Duy, Warn-Gyu Park, Numerical analysis of underwater explosion near submerged/floating structures, The 4th International Conference on Transportation Infrastructure and Suistainable Development (TISDIC), August 26th-28th, 2023, Danang, Vietnam

[21] Trong-Nguyen Duy, Van-Tu Nguyen, Thanh-Hoang Phan,Xuan-Bach Nguyen, Quang-Minh Ngo, and Warn-Gyu Park, Numerical Study on Bubble Growth and Collapse near a Solid Wall with a Gas Entrapping Hole, International Symposium on Aircraft Technology, MRO & Operation (ISATECH), August 24-26, 2023, Hanoi, Vietnam.

[20] Seong-Ho Park, Warn-Gyu Park, Van-Tu Nguyen, Thanh-Hoang Phan, Quang-Thai Nguyen, Trong-Nguyen Duy,  Numerical Simulations of Air Shock Bubble Interaction using Multi-fluid Models, the 34th International Symposium on Shock Waves (ISSW34) in Daegu, Korea, July 16-21, 2023.

[19]Quang-Thai Nguyen, Warn-Gyu Park, Van-Tu Nguyen, Trong-Nguyen Duy, Thanh-Hoang Phan, Seong-Ho Park, Numerical Investigation of Shock Wave Propagation during Single Bubble Collapse near Oscillating Walls, the 34th International Symposium on Shock Waves (ISSW34) in Daegu, Korea, July 16-21, 2023.

[18] Van-Tu Nguyen, Thanh-Hoang Phan, and Warn-Gyu Park, Numerical Analyses of Cavitation Erosion Mechanism during Bubbles Collapsing under various Conditions, 13th Asian Computational Fluid Dynamics Conference – Oct 16-19, 2022, JeJu Island, Korea.

[17] Thanh-Hoang Phan, Van-Tu Nguyen, Trong-Nguyen Duy, Quang-Thai Nguyen, Seong-Ho Park, and Warn-Gyu ParkPark, Numerical simulation of microbubble dynamics near a surface of urinary stone under an ultrasound field, 13th Asian Computational Fluid Dynamics Conference – Oct 16-19, 2022, JeJu Island, Korea.

[16] Quang-Thai Nguyen, Van-Tu Nguyen, Trong-Nguyen Duy, Thanh-Hoang Phan, Warn-Gyu Park, Numerical study of single bubble luminescence using a compressible two-phase flow model, 13th Asian Computational Fluid Dynamics Conference – Oct 16-19, 2022, JeJu Island, Korea.

[15] Thanh-Hoang Phan, Van-Tu Nguyen, Trong-Nguyen Duy, Dong-Hyun Kim, and Warn-Gyu Park, Fully compressible multiphase model and simulation of underwater explosion and cavitation bubble dynamic behaviors, 34th Symposium on Naval Hydrodynamics,Washington, DC, USA, June 26th - July 1st, 2022

[14] Trong-Nguyen Duy, Van-Tu Nguyen, Thanh-Hoang Phan, Quang-Thai Nguyen, and Warn-Gyu Park, Numerical study on the ventilated cavitating flow around an object with different ejected temperatures, 13th Asian Computational Fluid Dynamics Conference – Oct 16-19, 2022, JeJu Island, Korea.

[13] Van-Tu Nguyen, Thanh-Hoang Phan, Dong-Hyun Kim, and Warn-Gyu Park, Numerical Study of Cavitation Bubble Collapse under Various ConditionsConditions. Proceedings of the 8th World Congress on Mechanical, Chemical, and Material Engineering (MCM'22), Prague, Czech Republic – July 31, 2022 - August 02, 2022.

[12] Van-Tu Nguyen, Thanh-Hoang Phan, Trong-Nguyen Duy, and Warn-Gyu Park, Numerical simulation of supercavitating flow around a submerged projectile near a free surface, CAV2021, 11th International Symposium on Cavitation, 2021 May 10-13, Daejon, Korea.

[11] Trong-Nguyen Duy, Van-Tu Nguyen, Thanh-Hoang Phan, Quang-Thai Nguyen and Warn-Gyu Park, Multiphase Flow Analysis of an Axisymmetric Body Using Improved Interface Capturing Method with a Cavitation Model, CAV2021, 11th International Symposium on Cavitation, 2021 May 10-13, Daejon, Korea.

[10] Quang-Thai Nguyen, Van-Tu Nguyen, Thanh-Hoang Phan, Duy-Trong Nguyen, Dong-Hyun Kim and Warn-Gyu Park, Numerical analysis of bubble dynamics near a vibrating wall (Best paper presentation Award), CSS-EEST23 - 23rd Cross-Strait Symposium on Energy and Environmental Science and Technology (2021. DEC.

[9] Thanh-Hoang Phan, Van-Tu Nguyen, Trong-Nguyen Duy, and Warn-Gyu Park, Numerical study on the wall pressure caused by spark-generated underwater bubble near a hemispheric boundary, CAV2021, 11th International Symposium on Cavitation, 2021 May 10-13, Daejon, Korea.

[8] V-T Nguyen, Phan T-H, and Park W-G. Modeling and simulation of free surface and water entry of bodies, The 5th International Conference on Engineering Mechanics and Automation (ICEMA 5) Hanoi, October 11÷12, 2019.

[7] T.-H. Phan, V.-T. Nguyen, and W.-G. Park, "Numerical analysis of nonlinear interaction between an underwater explosion bubble and a free surface," The 21st Cross Straits Symposium on Energy and Environmental Science and Technology (CSS-EEST), China, 2019. 11.26.

[6] V-T Nguyen and W-G Park, Numerical simulation of free surface flows: a prelimi-nary evaluation of basic solution methods, The Second International Conference On Mechanics, Oct. 15th-18th 2018, Silks Place, Yilan, Taiwan.

[5] V-T Nguyen and W-G Park, Advances in volume-of-fluid based simulations of 3D two-fluid flow problems including complex interfacial structures and breaking waves in engineering, 11th Asian Computational Fluid Dynamics Conference, Sept. 16-20, 2016, Dalian University of Technology, Dalain, China.

[4] V-T Nguyen, and W-G Park, Free surface flow solver for complex 3D water impact problems based on the VOF method, 11th Korea-Japan CFD workshop (KJCFD2015), 12, 2015, Kyushu university, Kasuga, Fukuoka 816-8580, Japan.

[3] V-T Nguyen, and W-G Park, 3D volume-of-fluid (VOF) based simulation of water impact problem using navier-stokes computations, Proceedings of the ASME-JSME-KSME Joint Fluids Engineering Conference 2015 AJK2015-FED July 26-31, 2015, SEOUL, KOREA

[2] V-T Nguyen, D-T Vu and W-G Park, 2014, 3-D Numerical Simulation of Water Entry of Free Falling Objects Using Navier-Stokes Computations and Moving Chimera Grid Scheme, 10th Asian Computational Fluid Dynamics Conference, Oct. 19-23 GRAND Hotel, Jeju, Korea.

[1] V-T Nguyen, C-T Ha and W-G Park, 2013, “Multiphase flow simulation of water-entry and –exit of axisymmetric bodies”, Proceedings of the ASME 2013 International Mechanical Engineering Congress & Exposition IMECE2013 November 13-21, 2013, San Diego, California, USA.

Domestic Conference papers:

[29] Nguyen, Van-Tu, Nguyen-Trong Duy, Quang-Thai Nguyen, and Warn-Gyu Park. "NUMERICAL SIMULATION OF MULTI-BUBBLE GROWTH AND COLLAPSE." Computational Fluids Engineering Conference KSCFE (2024.05): 33-33.

[28] Duy, Trong-Nguyen, Van-Tu Nguyen, Quang-Thai Nguyen, Doo-Woon Han, Thanh Hoang Phan, Hemant Sagar, Ould El Moctar, and Warn-Gyu Park. "NUMERICAL STUDY ON DYNAMICS OF A SINGLE CAVITATION BUBBLE NEAR A HOLE WITH PHASE CHANGE EFFECTS", Computational Fluids Engineering Conference KSCFE (2024.05): 32-32. 

[27] Trong-Nguyen Duy, Dong-Wook Lim, Quang-Thai Nguyen*, and Warn-Gyu Park*. NUMERICAL SIMULATION OF AEROSOL FLOW IN A VAPOR DEVICE USING DPM MODEL. Computational Fluids Engineering Conference KSCFE 2024Spring, JeJu, 2024.05. 

[26] Nguyen Quang-Thai , Van-Tu Nguyen , Trong-Nguyen Duy , Thanh-Hoang Phan , Warn-Gyu Park, A Numerical Study of Bubble Behavior Near A Moving Body, 12th National Congress on Fluids Engineering, 12NCFE (KOREAN)  (2022. JUNE).

[25] Trong-Nguyen Duy, Van-Tu Nguyen, Thanh-Hoang Phan, Quang-Thai Nguyen, Hyun-Sung Hwang, and Warn-Gyu Park, A numerical study on the bubble formation by gas injection based on a coupling method, the 12th National Congrees of Fluids Engineering 12NCFE, June 22nd -24th 2022, Changwon, Korea.

[24]Van-Tu Nguyen, Thanh-Hoang Phan, Dong-Hyun Kim, and Warn-Gyu Park, Numerical investigation of ventilated supercavitation of a projectile by hot exhaust gas, KSME, Gwangju, 2021.12.

[23]Van-Tu Nguyen, Thanh-Hoang Phan, Trong-Nguyen Duy, Dong-Hyun Kim, and Warn-Gyu Park, Numerical Simulation Of Single Bubble Collapse Using A Geometrical Vof Method, the Korean Society of Computational Fluid Engineering - KSCFE, November 11th -12th 2021, Seoul, Korea.

[22] Quang-Thai Nguyen, Van-Tu Nguyen, Duy-Trong Nguyen, Thanh-Hoang Phan, and Warn-Gyu Park, Numerical Analysis of Bubble Dynamics near a High-Frequency Vibrating Wall, KSCFE2021FALL 2021 (2021. 11).

[21] Van-Tu Nguyen, Thanh-Hoang Phan, Trong-Nguyen Duy, and Warn-Gyu Park, Numerical simulation of transonic flow around a high-speed projectile, KSME Fluid Engineering Division 2021 Spring Conference (2021. AUG, ONLINE).

[20] Quang-Thai Nguyen, Van-Tu Nguyen, Duy-Trong Nguyen, Thanh-Hoang Phan, Dong-Hyun Kim and Warn-Gyu Park, Numerical Analysis of Cavitation Bubble Collapse and Underwater Explosion using a Compressible Two-Phase Flow Model, KSME Fluid Engineering Division 2021 Spring Conference (2021. AUG).

[19] Trong-Nguyen Duy, Van-Tu Nguyen, Thanh-Hoang Phan, Quang-Thai Nguyen, Hyun-Sung Hwang, and Warn-Gyu Park,  A numerical study of temperature effects on the ventilated super-cavitation flows, the Korean Society of Computational Fluid Engineering - KSCFE, November 11th -12th 2021, Seoul, Korea.

[18] Trong-Nguyen Duy, Van-Tu Nguyen, Thanh-Hoang Phan, Quang-Thai Nguyen, Deok-Gyu Choi, Dong-Hyun Kim and Warn-Gyu Park, Numerical study on the bubble formation by Gas injection in Quiescent flow using an efficient coupling method, KSME2021, the Korean Society of Mechanical Engineering, 2021 August 19-21, Chungnam, Korea.

[17] Trong-Nguyen Duy, Van-Tu Nguyen, Than-Hoang Phan, Deok-Kyu Choi, and Warn-Gyu Park, An improvement of interface computations based on utilization the advantages of the conservative Level-Set method for a coupling method, the 2020 Korean Society of Computational Fluids Engineering Conference (2020 KSCFE 25th Conferences), Jeju, Korea.

[16] Van-Tu Nguyen, Thanh-Hoang Phan, Trong-Nguyen Duy, and Warn-Gyu Park, Numerical computation of compressible two-phase flows with the presence of shock waves, the Korean Society of Mechanical Engineering, Kangwon Land Convention Center from 12, 2020.

[15] V-T Nguyen, Phan T-H, and Park W-G., Numerical simulation of compressible two-phase flows using a five-equation model. Korean Society for Computational Fluids Engineering Conference (KSCFE), 11-2019, Gunsan, Korea.

[14] V-T Nguyen, and W-G Park, Numerical study of ricochet behaviors of a cylinder on water using an efficient two-phase model. Korean Society for Computational Fluids Engineering Conference (KSCFE), 05-2019, Jeju, Korea.

[13] T.-H. Phan, V.-T.Nguyen, and W.-G.Park, "Local dynamics of a free-field underwater explosion bubble: A Numerical study," Korean Society for Computational Fluids Engineering (KSCFE) Conference. 2019. 05. 10.

[12] T.-H. Phan, V.-T. Nguyen, and W.-G. Park, "Numerical simulation of the dynamics of a spark-generated bubble near a free surface," The Korean Society of Mechanical Engineers Conference (KSME) Conference, Korea, 2019. 11.15.

[11] V-T Nguyen, and W-G Park, Numerical simulation of two- and three-phase flows using a sharp interface capturing method. Korean Society for Computational Fluids Engineering Conference (KSCFE), 05-2018, Jeju, Korea.

[10] V-T Nguyen, and W-G Park, Numerical simulation of two-phase flows using volume-of-fluid (VOF) interface-sharpening method. KSCFE, 05-2017, Korea.

[9] V-T Nguyen, and W-G Park, Enhancements in VOF based solver for complex interfacial structure simulations in engineering, 9th National Congress of fluid engineering, 10, 2016, 9NCFE,EXCO, Korea.

[8] V-T Nguyen, and W-G Park, Numerical Simulation of Water Entry of Objects in 6DOF Motions, Korean Society for Mechanical Engineering (KSME) 2015 Annual Meeting, 11, 2015., Jeju, Korea

[7] D-T Vu, V-T Nguyen, D-H Kim, W-G Park and C-M Jung, Numerical study of steady and unsteady supercavitating flows around underwater vehicles, KSCFE, 2014, Jeju, Korea.

[6] V-T Nguyen, D-T Vu, and W-G Park, Application of moving chimera grid technology in numerical simulation of water impact problem, KSCFE, 2014, Jeju, Korea.

[5] D-T Vu, V-T Nguyen, D-H Kim and W-G Park, “Numerical investigation of acceleration process of an underwater vehicle with ventilation of hot gas”, KSCFE, Seoul, Korea.

[4] V-T Nguyen, D-T Vu, C-T Ha and W-G Park, “Application of Volume of Fluid Interface Tracking Method to Simulation of Water Impact”, KSCFE, 2013, Jeju, Korea.

[3] V-T Nguyen, C-T Ha and W-G Park, “Numerical simulation of vertical water-exit and water-entry of cavitating”, KSCFE, 2012, Busan, Korea.

[2] V-T Nguyen, C-T Ha and W-G Park, “Numerical simulation of the natural-and ventilated-cavitating flows around underwater bodies with multi-phase homogeneous mixture model”, KSCFE, 2012, Jeju, Korea.

[1] TB Dang, V-T Nguyen, “An application of Kalman Filter (a data assimilation method) to correct and predict the result of hydrographic models”, Proceeding of National Conference on Fluid Mechanics,07/ 2009, Danang, Vietnam.