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Dokyun Kim
Dokyun Kim
Cascade Technologies
Verified email at cascadetechnologies.com
Title
Cited by
Cited by
Year
Immersed boundary method for flow around an arbitrarily moving body
D Kim, H Choi
Journal of Computational Physics 212 (2), 662-680, 2006
2862006
Two-dimensional mechanism of hovering flight by single flapping wing
D Kim, H Choi
Journal of Mechanical Science and Technology 21, 207-221, 2007
402007
The primary breakup of a round liquid jet by a coaxial flow of gas
D Kim, O Desjardins, M Herrmann, P Moin
Proceedings of the 20th Annual Conference of the Institute for Liquid …, 2007
372007
Direct numerical study of air layer drag reduction phenomenon over a backward-facing step
D Kim, P Moin
Center for Turbulence Research Annual Research Briefs, 351-363, 2010
342010
Toward two-phase simulation of the primary breakup of a round liquid jet by a coaxial flow of gas
D Kim, O Desjardins, M Herrmann, P Moin
Center for Turbulence Research Annual Research Briefs 185, 2006
322006
Numerical simulation of the breakup of a round liquid jet by a coaxial flow of gas with a subgrid Lagrangian breakup model
D Kim, P Moin
Center for Turbulence Research, Annual Research Briefs, 15-30, 2011
312011
High-fidelity simulation of atomization in diesel engine sprays
L Bravo, C Ivey, D Kim, S Bose
Proceedings of the summer program, 89, 2014
272014
Computational study of atomization and fuel drop size distributions in high-speed primary breakup
L Bravo, D Kim, F Ham, S Su
Atomization and Sprays 28 (4), 2018
232018
An efficient high-resolution volume-of-fluid method with low numerical diffusion on unstructured grids
D Kim, CB Ivey, FE Ham, LG Bravo
Journal of Computational Physics 446, 110606, 2021
222021
Effects of fuel viscosity on the primary breakup dynamics of a high-speed liquid jet with comparison to X-ray radiography
L Bravo, D Kim, F Ham, C Powell, A Kastengren
Proceedings of the Combustion Institute 37 (3), 3245-3253, 2019
212019
Subgrid-scale capillary breakup model for liquid jet atomization
D Kim, P Moin
Combustion Science and Technology 192 (7), 1334-1357, 2020
202020
High fidelity simulation of the spray generated by a realistic swirling flow injector
X Li, MC Soteriou, W Kim, JM Cohen
Journal of engineering for gas turbines and power 136 (7), 071503, 2014
182014
Direct numerical simulation of two-phase flow with application to air layer drag reduction
D Kim
Stanford University, 2011
142011
The breakup of a round liquid jet by a coaxial flow of gas using the refined level set grid method
D Kim, M Herrmann, P Moin
APS division of fluid dynamics meeting abstracts 59, FB. 010, 2006
142006
High resolution numerical simulations of primary atomization in diesel sprays with single component reference fuels
L Bravo, D Kim, M Tess, M Kurman, F Ham, C Kweon
US Army Research Laboratory, 2015
122015
Massively parallel large eddy simulation of rotating turbomachinery for variable speed gas turbine engine operation
N Jain, L Bravo, D Kim, M Murugan, A Ghoshal, F Ham, A Flatau
Energies 13 (3), 703, 2020
112020
High fidelity simulations of primary breakup and vaporization of liquid jet in cross flow (JICF)
LG Bravo, D Kim, F Ham, KA Kerner
2018 Joint propulsion conference, 4683, 2018
102018
High fidelity simulation of the spray generated by a realistic swirling flow injector
X Li, MC Soteriou, W Kim, JM Cohen, M Herrmann, F Ham, D Kim, H Le, ...
Turbo Expo: Power for Land, Sea, and Air 55119, V01BT04A070, 2013
102013
Numerical simulation of bubble formation by breaking waves in turbulent two-phase Couette flow
D Kim, A Mani, P Moin
CTR Ann. Res. Brief, 37-46, 2013
102013
Numerical investigation of liquid jet breakup and droplet statistics with comparison to X-ray radiography
LG Bravo, D Kim, F Ham, C Powell, D Duke, K Matusik, A Kastengren, ...
52nd AIAA/SAE/ASEE Joint Propulsion Conference, 5096, 2016
92016
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